2011-01-13 13:38:36 +00:00
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--[[
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Copyright (c) 2011 Matthias Richter
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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Except as contained in this notice, the name(s) of the above copyright holders
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shall not be used in advertising or otherwise to promote the sale, use or
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other dealings in this Software without prior written authorization.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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]]--
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2011-01-18 17:55:51 +00:00
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module(..., package.seeall)
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local Class = require(_PACKAGE .. 'class')
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local vector = require(_PACKAGE .. 'vector')
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2011-02-06 14:03:21 +00:00
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_M.class = nil
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_M.vector = nil
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2011-01-13 13:38:36 +00:00
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----------------------------
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-- Private helper functions
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--
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-- create vertex list of coordinate pairs
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local function toVertexList(vertices, x,y, ...)
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if not x or not y then return vertices end -- no more arguments
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vertices[#vertices + 1] = vector(x, y) -- set vertex
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return toVertexList(vertices, ...) -- recurse
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end
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-- returns true if three points lie on a line
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local function areCollinear(p,q,r)
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return (q - p):cross(r - p) == 0
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end
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-- remove vertices that lie on a line
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local function removeCollinear(vertices)
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local ret = {}
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for k=1,#vertices do
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local i = k > 1 and k - 1 or #vertices
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local l = k < #vertices and k + 1 or 1
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if not areCollinear(vertices[i], vertices[k], vertices[l]) then
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ret[#ret+1] = vertices[k]
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end
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end
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return ret
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end
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-- get index of rightmost vertex (for testing orientation)
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local function getIndexOfleftmost(vertices)
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local idx = 1
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for i = 2,#vertices do
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if vertices[i].x < vertices[idx].x then
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idx = i
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end
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end
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return idx
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end
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-- returns true if three points make a counter clockwise turn
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local function ccw(p, q, r)
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return (q - p):cross(r - p) >= 0
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end
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-- unpack vertex coordinates, i.e. {x=p, y=q}, ... -> p,q, ...
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local function unpackHelper(v, ...)
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if not v then return end
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return v.x,v.y,unpackHelper(...)
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end
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-- test if a point lies inside of a triangle using cramers rule
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local function pointInTriangle(q, p1,p2,p3)
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local v1,v2 = p2 - p1, p3 - p1
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local qp = q - p1
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local dv = v1:cross(v2)
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local l = qp:cross(v2) / dv
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if l <= 0 then return false end
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local m = v1:cross(qp) / dv
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if m <= 0 then return false end
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return l+m < 1
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end
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-- returns starting indices of shared edge, i.e. if p and q share the
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-- edge with indices p1,p2 of p and q1,q2 of q, the return value is p1,q1
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local function getSharedEdge(p,q)
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local vertices = {}
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for i,v in ipairs(q) do vertices[ tostring(v) ] = i end
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for i,v in ipairs(p) do
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local w = (i == #p) and p[1] or p[i+1]
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if vertices[ tostring(v) ] and vertices[ tostring(w) ] then
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return i, vertices[ tostring(v) ]
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end
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end
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end
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-----------------
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-- Polygon class
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--
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Polygon = Class{name = "Polygon", function(self, ...)
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local vertices = removeCollinear( toVertexList({}, ...) )
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assert(#vertices >= 3, "Need at least 3 non collinear points to build polygon (got "..#vertices..")")
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-- assert polygon is oriented counter clockwise
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local r = getIndexOfleftmost(vertices)
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local q = r > 1 and r - 1 or #vertices
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local s = r < #vertices and r + 1 or 1
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if not ccw(vertices[q], vertices[r], vertices[s]) then -- reverse order if polygon is not ccw
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local tmp = {}
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for i=#vertices,1,-1 do
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tmp[#tmp + 1] = vertices[i]
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end
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vertices = tmp
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end
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self.vertices = vertices
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-- make vertices immutable
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setmetatable(self.vertices, {__newindex = function() error("Thou shall not change a polygons vertices!") end})
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-- compute polygon area and centroid
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self.area = vertices[#vertices]:cross(vertices[1])
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for i = 1,#vertices-1 do
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self.area = self.area + vertices[i]:cross(vertices[i+1])
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end
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self.area = self.area / 2
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local p,q = vertices[#vertices], vertices[1]
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local det = p:cross(q)
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self.centroid = vector((p.x+q.x) * det, (p.y+q.y) * det)
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for i = 1,#vertices-1 do
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p,q = vertices[i], vertices[i+1]
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det = p:cross(q)
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self.centroid.x = self.centroid.x + (p.x+q.x) * det
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self.centroid.y = self.centroid.y + (p.y+q.y) * det
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end
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self.centroid = self.centroid / (6 * self.area)
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2011-02-06 16:40:06 +00:00
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-- get outcircle
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self._radius = 0
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for i = 1,#vertices do
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self._radius = math.max(vertices[i]:dist(self.centroid), self._radius)
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end
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2011-01-13 13:38:36 +00:00
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end}
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-- return vertices as x1,y1,x2,y2, ..., xn,yn
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function Polygon:unpack()
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return unpackHelper( unpack(self.vertices) )
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end
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-- deep copy of the polygon
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function Polygon:clone()
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return Polygon( self:unpack() )
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end
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-- get bounding box
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function Polygon:getBBox()
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local ul = self.vertices[1]:clone()
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local lr = ul:clone()
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for i=2,#self.vertices do
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local p = self.vertices[i]
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if ul.x > p.x then ul.x = p.x end
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if ul.y > p.y then ul.y = p.y end
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if lr.x < p.x then lr.x = p.x end
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if lr.y < p.y then lr.y = p.y end
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end
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return ul.x,ul.y, lr.x,lr.y
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end
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-- a polygon is convex if all edges are oriented ccw
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function Polygon:isConvex()
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local function isConvex()
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local v = self.vertices
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if #v == 3 then return true end
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if not ccw(v[#v], v[1], v[2]) then
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return false
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end
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for i = 2,#v-1 do
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if not ccw(v[i-1], v[i], v[i+1]) then
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return false
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end
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end
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if not ccw(v[#v-1], v[#v], v[1]) then
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return false
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end
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return true
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end
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-- replace function so that this will only be computed once
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local status = isConvex()
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self.isConvex = function() return status end
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return status
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end
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2011-02-02 20:04:00 +00:00
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function Polygon:move(dx, dy)
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if not dy then
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dx, dy = dx:unpack()
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end
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2011-01-13 13:38:36 +00:00
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for i,v in ipairs(self.vertices) do
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2011-02-02 20:04:00 +00:00
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self.vertices[i].x = self.vertices[i].x + dx
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self.vertices[i].y = self.vertices[i].y + dy
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2011-01-13 13:38:36 +00:00
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end
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2011-02-02 20:04:00 +00:00
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self.centroid.x = self.centroid.x + dx
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self.centroid.y = self.centroid.y + dy
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2011-01-13 13:38:36 +00:00
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end
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2011-01-16 18:27:37 +00:00
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function Polygon:rotate(angle, center, cy)
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2011-01-13 13:38:36 +00:00
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local center = center or self.centroid
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2011-01-16 18:27:37 +00:00
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if cy then center = vector(cy) end
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2011-01-13 13:38:36 +00:00
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for i,v in ipairs(self.vertices) do
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self.vertices[i] = (self.vertices[i] - center):rotate_inplace(angle) + center
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end
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end
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-- triangulation by the method of kong
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function Polygon:triangulate()
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if #self.vertices == 3 then return {self:clone()} end
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local triangles = {} -- list of triangles to be returned
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local concave = {} -- list of concave edges
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local adj = {} -- vertex adjacencies
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local vertices = self.vertices
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-- retrieve adjacencies as the rest will be easier to implement
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for i,p in ipairs(vertices) do
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local l = (i == 1) and vertices[#vertices] or vertices[i-1]
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local r = (i == #vertices) and vertices[1] or vertices[i+1]
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adj[p] = {p = p, l = l, r = r} -- point, left and right neighbor
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-- test if vertex is a concave edge
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if not ccw(l,p,r) then concave[p] = p end
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end
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-- and ear is an edge of the polygon that contains no other
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-- vertex of the polygon
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local function isEar(p1,p2,p3)
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if not ccw(p1,p2,p3) then return false end
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for q,_ in pairs(concave) do
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if pointInTriangle(q, p1,p2,p3) then return false end
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end
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return true
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end
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-- main loop
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local nPoints, skipped = #vertices, 0
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local p = adj[ vertices[2] ]
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while nPoints > 3 do
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if not concave[p.p] and isEar(p.l, p.p, p.r) then
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triangles[#triangles+1] = Polygon( unpackHelper(p.l, p.p, p.r) )
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if concave[p.l] and ccw(adj[p.l].l, p.l, p.r) then
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concave[p.l] = nil
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end
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if concave[p.r] and ccw(p.l, p.r, adj[p.r].r) then
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concave[p.r] = nil
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end
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-- remove point from list
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adj[p.p] = nil
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adj[p.l].r = p.r
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adj[p.r].l = p.l
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nPoints = nPoints - 1
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skipped = 0
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p = adj[p.l]
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else
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p = adj[p.r]
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skipped = skipped + 1
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assert(skipped <= nPoints, "Cannot triangulate polygon (is the polygon intersecting itself?)")
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end
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end
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triangles[#triangles+1] = Polygon( unpackHelper(p.l, p.p, p.r) )
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return triangles
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end
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-- return merged polygon if possible or nil otherwise
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function Polygon:mergedWith(other)
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local p,q = getSharedEdge(self.vertices, other.vertices)
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if not (p and q) then return nil end
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local ret = {}
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for i = 1, p do ret[#ret+1] = self.vertices[i] end
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for i = 2, #other.vertices-1 do
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local k = i + q - 1
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if k > #other.vertices then k = k - #other.vertices end
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ret[#ret+1] = other.vertices[k]
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end
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for i = p+1,#self.vertices do ret[#ret+1] = self.vertices[i] end
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return Polygon( unpackHelper( unpack(ret) ) )
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end
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-- split polygon into convex polygons.
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-- note that this won't be the optimal split in most cases, as
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2011-01-14 22:25:43 +00:00
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-- finding the optimal split is a really hard problem.
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2011-01-13 13:38:36 +00:00
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-- the method is to first triangulate and then greedily merge
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-- the triangles.
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function Polygon:splitConvex()
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-- edge case: polygon is a triangle or already convex
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if #self.vertices <= 3 or self:isConvex() then return {self:clone()} end
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local convex = self:triangulate()
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local i = 1
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repeat
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local p = convex[i]
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local k = i + 1
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while k <= #convex do
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local _, merged = pcall(function() return p:mergedWith(convex[k]) end)
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if merged and merged:isConvex() then
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convex[i] = merged
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p = convex[i]
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table.remove(convex, k)
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else
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k = k + 1
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end
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end
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i = i + 1
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until i >= #convex
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return convex
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end
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2011-01-18 17:55:51 +00:00
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2011-02-06 16:40:06 +00:00
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function Polygon:contains(x,y)
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-- test if an edge cuts the ray
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local function cut_ray(p,q)
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return ((p.y > y and q.y < y) or (p.y < y and q.y > y)) -- possible cut
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and (x - p.x < (y - p.y) * (q.x - p.x) / (q.y - p.y)) -- x < cut.x
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end
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-- test if the ray crosses boundary from interior to exterior.
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-- this is needed due to edge cases, when the ray passes through
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-- polygon corners
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local function cross_boundary(p,q)
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return (p.y == y and p.x > x and q.y < y)
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or (q.y == y and q.x > x and p.y < y)
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end
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local v = self.vertices
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local in_polygon = false
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for i = 1, #v - 1 do
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|
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if cut_ray(v[i], v[i+1]) or cross_boundary(v[i], v[i+1]) then
|
|
|
|
in_polygon = not in_polygon
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|
|
|
end
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|
|
|
end
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|
|
|
return in_polygon
|
|
|
|
end
|
|
|
|
|
2011-02-06 23:08:02 +00:00
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|
|
function Polygon:intersectsRay(x,y, dx,dy)
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|
|
|
local p = vector(x,y)
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|
|
|
local v = vector(dx,dy):normalize_inplace()
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|
|
|
local n = v:perpendicular()
|
|
|
|
|
|
|
|
local vertices = self.vertices
|
|
|
|
for i = 1, #vertices do
|
|
|
|
local q1, q2 = vertices[i], vertices[ (i % #vertices) + 1 ]
|
|
|
|
local w = q2 - q1
|
|
|
|
local det = v:cross(w)
|
|
|
|
|
|
|
|
if det ~= 0 then
|
|
|
|
-- there is an intersection point. check if it lies on both
|
|
|
|
-- the ray and the segment.
|
|
|
|
local r = q2 - p
|
|
|
|
local l = r:cross(w)
|
|
|
|
local m = v:cross(r)
|
|
|
|
if l >= 0 and m >= 0 and m <= det then return true end
|
|
|
|
else
|
|
|
|
-- lines parralel or incident. get distance of line to
|
|
|
|
-- anchor point. if they are incident, check if an endpoint
|
|
|
|
-- lies on the ray
|
|
|
|
local dist = (q1 - p) * n
|
|
|
|
if dist == 0 then
|
|
|
|
if n:cross(q1) > 0 or n:cross(q2) > 0 then
|
|
|
|
return true
|
|
|
|
end
|
|
|
|
end
|
|
|
|
end
|
|
|
|
end
|
|
|
|
return false
|
|
|
|
end
|
|
|
|
|
2011-02-06 16:40:06 +00:00
|
|
|
|
2011-01-18 17:55:51 +00:00
|
|
|
-- module() as shortcut to module.Polygon()
|
|
|
|
do
|
|
|
|
local m = getmetatable(_M)
|
|
|
|
m.__call = function(_, ...) return Polygon(...) end
|
|
|
|
end
|