mirror of
https://github.com/vrld/HC.git
synced 2024-11-18 12:54:23 +00:00
468 lines
12 KiB
Lua
468 lines
12 KiB
Lua
--[[
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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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local math_min, math_sqrt, math_huge = math.min, math.sqrt, math.huge
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local _PACKAGE, common_local = (...):match("^(.+)%.[^%.]+"), common
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if not (type(common) == 'table' and common.class and common.instance) then
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assert(common_class ~= false, 'No class commons specification available.')
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require(_PACKAGE .. '.class')
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end
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local vector = require(_PACKAGE .. '.vector-light')
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local Polygon = require(_PACKAGE .. '.polygon')
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local GJK = require(_PACKAGE .. '.gjk') -- actual collision detection
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-- reset global table `common' (required by class commons)
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if common_local ~= common then
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common_local, common = common, common_local
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end
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--
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-- base class
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--
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local Shape = {}
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function Shape:init(t)
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self._type = t
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self._rotation = 0
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end
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function Shape:moveTo(x,y)
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local cx,cy = self:center()
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self:move(x - cx, y - cy)
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end
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function Shape:rotation()
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return self._rotation
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end
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function Shape:rotate(angle)
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self._rotation = self._rotation + angle
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end
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function Shape:setRotation(angle, x,y)
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return self:rotate(angle - self._rotation, x,y)
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end
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--
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-- class definitions
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--
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local ConvexPolygonShape = {}
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function ConvexPolygonShape:init(polygon)
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Shape.init(self, 'polygon')
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assert(polygon:isConvex(), "Polygon is not convex.")
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self._polygon = polygon
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end
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local ConcavePolygonShape = {}
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function ConcavePolygonShape:init(poly)
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Shape.init(self, 'compound')
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self._polygon = poly
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self._shapes = poly:splitConvex()
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for i,s in ipairs(self._shapes) do
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self._shapes[i] = common_local.instance(ConvexPolygonShape, s)
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end
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end
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local CircleShape = {}
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function CircleShape:init(cx,cy, radius)
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Shape.init(self, 'circle')
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self._center = {x = cx, y = cy}
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self._radius = radius
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end
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local PointShape = {}
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function PointShape:init(x,y)
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Shape.init(self, 'point')
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self._pos = {x = x, y = y}
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end
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--
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-- collision functions
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--
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function ConvexPolygonShape:support(dx,dy)
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local v = self._polygon.vertices
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local max, vmax = -math_huge
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for i = 1,#v do
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local d = vector.dot(v[i].x,v[i].y, dx,dy)
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if d > max then
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max, vmax = d, v[i]
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end
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end
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return vmax.x, vmax.y
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end
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function CircleShape:support(dx,dy)
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return vector.add(self._center.x, self._center.y,
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vector.mul(self._radius, vector.normalize(dx,dy)))
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end
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-- collision dispatching:
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-- let circle shape or compund shape handle the collision
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function ConvexPolygonShape:collidesWith(other)
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if self == other then return false end
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if other._type ~= 'polygon' then
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local collide, sx,sy = other:collidesWith(self)
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return collide, sx and -sx, sy and -sy
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end
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-- else: type is POLYGON
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return GJK(self, other)
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end
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function ConcavePolygonShape:collidesWith(other)
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if self == other then return false end
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if other._type == 'point' then
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return other:collidesWith(self)
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end
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-- TODO: better way of doing this. report all the separations?
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local collide,dx,dy = false,0,0
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for _,s in ipairs(self._shapes) do
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local status, sx,sy = s:collidesWith(other)
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collide = collide or status
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if status then
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if math.abs(dx) < math.abs(sx) then
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dx = sx
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end
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if math.abs(dy) < math.abs(sy) then
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dy = sy
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end
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end
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end
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return collide, dx, dy
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end
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function CircleShape:collidesWith(other)
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if self == other then return false end
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if other._type == 'circle' then
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local px,py = self._center.x-other._center.x, self._center.y-other._center.y
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local d = vector.len2(px,py)
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local radii = self._radius + other._radius
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if d < radii*radii then
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-- if circles overlap, push it out upwards
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if d == 0 then return true, 0,radii end
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-- otherwise push out in best direction
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return true, vector.mul(radii - math_sqrt(d), vector.normalize(px,py))
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end
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return false
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elseif other._type == 'polygon' then
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return GJK(self, other)
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end
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-- else: let the other shape decide
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local collide, sx,sy = other:collidesWith(self)
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return collide, sx and -sx, sy and -sy
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end
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function PointShape:collidesWith(other)
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if self == other then return false end
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if other._type == 'point' then
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return (self._pos == other._pos), 0,0
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end
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return other:contains(self._pos.x, self._pos.y), 0,0
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end
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--
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-- point location/ray intersection
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--
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function ConvexPolygonShape:contains(x,y)
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return self._polygon:contains(x,y)
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end
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function ConcavePolygonShape:contains(x,y)
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return self._polygon:contains(x,y)
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end
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function CircleShape:contains(x,y)
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return vector.len2(x-self._center.x, y-self._center.y) < self._radius * self._radius
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end
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function PointShape:contains(x,y)
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return x == self._pos.x and y == self._pos.y
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end
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function ConcavePolygonShape:intersectsRay(x,y, dx,dy)
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return self._polygon:intersectsRay(x,y, dx,dy)
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end
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function ConvexPolygonShape:intersectsRay(x,y, dx,dy)
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return self._polygon:intersectsRay(x,y, dx,dy)
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end
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function ConcavePolygonShape:intersectionsWithRay(x,y, dx,dy)
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return self._polygon:intersectionsWithRay(x,y, dx,dy)
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end
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function ConvexPolygonShape:intersectionsWithRay(x,y, dx,dy)
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return self._polygon:intersectionsWithRay(x,y, dx,dy)
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end
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-- circle intersection if distance of ray/center is smaller
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-- than radius.
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-- with r(s) = p + d*s = (x,y) + (dx,dy) * s defining the ray and
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-- (x - cx)^2 + (y - cy)^2 = r^2, this problem is eqivalent to
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-- solving [with c = (cx,cy)]:
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--
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-- d*d s^2 + 2 d*(p-c) s + (p-c)*(p-c)-r^2 = 0
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function CircleShape:intersectionsWithRay(x,y, dx,dy)
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local pcx,pcy = x-self._center.x, y-self._center.y
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local a = vector.len2(dx,dy)
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local b = 2 * vector.dot(dx,dy, pcx,pcy)
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local c = vector.len2(pcx,pcy) - self._radius * self._radius
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local discr = b*b - 4*a*c
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if discr < 0 then return {} end
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discr = math_sqrt(discr)
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local ts, t1, t2 = {}, discr-b, -discr-b
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if t1 >= 0 then ts[#ts+1] = t1/(2*a) end
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if t2 >= 0 then ts[#ts+1] = t2/(2*a) end
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return ts
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end
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function CircleShape:intersectsRay(x,y, dx,dy)
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local tmin = math_huge
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for _, t in ipairs(self:intersectionsWithRay(x,y,dx,dy)) do
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tmin = math_min(t, tmin)
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end
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return tmin ~= math_huge, tmin
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end
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-- point shape intersects ray if it lies on the ray
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function PointShape:intersectsRay(x,y, dx,dy)
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local px,py = self._pos.x-x, self._pos.y-y
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local t = px/dx
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-- see (px,py) and (dx,dy) point in same direction
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return (t == py/dy), t
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end
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function PointShape:intersectionsWithRay(x,y, dx,dy)
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local intersects, t = self:intersectsRay(x,y, dx,dy)
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return intersects and {t} or {}
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end
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--
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-- auxiliary
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--
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function ConvexPolygonShape:center()
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return self._polygon.centroid.x, self._polygon.centroid.y
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end
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function ConcavePolygonShape:center()
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return self._polygon.centroid.x, self._polygon.centroid.y
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end
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function CircleShape:center()
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return self._center.x, self._center.y
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end
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function PointShape:center()
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return self._pos.x, self._pos.y
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end
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function ConvexPolygonShape:outcircle()
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local cx,cy = self:center()
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return cx,cy, self._polygon._radius
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end
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function ConcavePolygonShape:outcircle()
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local cx,cy = self:center()
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return cx,cy, self._polygon._radius
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end
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function CircleShape:outcircle()
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local cx,cy = self:center()
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return cx,cy, self._radius
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end
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function PointShape:outcircle()
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return self._pos.x, self._pos.y, 0
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end
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function ConvexPolygonShape:bbox()
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return self._polygon:bbox()
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end
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function ConcavePolygonShape:bbox()
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return self._polygon:bbox()
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end
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function CircleShape:bbox()
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local cx,cy = self:center()
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local r = self._radius
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return cx-r,cy-r, cx+r,cy+r
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end
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function PointShape:bbox()
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local x,y = self:center()
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return x,y,x,y
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end
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function ConvexPolygonShape:move(x,y)
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self._polygon:move(x,y)
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end
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function ConcavePolygonShape:move(x,y)
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self._polygon:move(x,y)
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for _,p in ipairs(self._shapes) do
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p:move(x,y)
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end
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end
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function CircleShape:move(x,y)
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self._center.x = self._center.x + x
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self._center.y = self._center.y + y
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end
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function PointShape:move(x,y)
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self._pos.x = self._pos.x + x
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self._pos.y = self._pos.y + y
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end
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function ConcavePolygonShape:rotate(angle,cx,cy)
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Shape.rotate(self, angle)
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if not (cx and cy) then
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cx,cy = self:center()
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end
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self._polygon:rotate(angle,cx,cy)
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for _,p in ipairs(self._shapes) do
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p:rotate(angle, cx,cy)
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end
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end
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function ConvexPolygonShape:rotate(angle, cx,cy)
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Shape.rotate(self, angle)
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self._polygon:rotate(angle, cx, cy)
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end
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function CircleShape:rotate(angle, cx,cy)
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Shape.rotate(self, angle)
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if not (cx and cy) then return end
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self._center.x,self._center.y = vector.add(cx,cy, vector.rotate(angle, self._center.x-cx, self._center.y-cy))
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end
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function PointShape:rotate(angle, cx,cy)
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Shape.rotate(self, angle)
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if not (cx and cy) then return end
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self._pos.x,self._pos.y = vector.add(cx,cy, vector.rotate(angle, self._pos.x-cx, self._pos.y-cy))
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end
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function ConcavePolygonShape:scale(s)
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assert(type(s) == "number" and s > 0, "Invalid argument. Scale must be greater than 0")
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local cx,cy = self:center()
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self._polygon:scale(s, cx,cy)
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for _, p in ipairs(self._shapes) do
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local dx,dy = vector.sub(cx,cy, p:center())
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p:scale(s)
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p:moveTo(cx-dx*s, cy-dy*s)
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end
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end
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function ConvexPolygonShape:scale(s)
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assert(type(s) == "number" and s > 0, "Invalid argument. Scale must be greater than 0")
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self._polygon:scale(s, self:center())
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end
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function CircleShape:scale(s)
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assert(type(s) == "number" and s > 0, "Invalid argument. Scale must be greater than 0")
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self._radius = self._radius * s
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end
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function PointShape:scale()
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-- nothing
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end
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function ConvexPolygonShape:draw(mode)
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mode = mode or 'line'
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love.graphics.polygon(mode, self._polygon:unpack())
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end
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function ConcavePolygonShape:draw(mode, wireframe)
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local mode = mode or 'line'
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if mode == 'line' then
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love.graphics.polygon('line', self._polygon:unpack())
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if not wireframe then return end
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end
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for _,p in ipairs(self._shapes) do
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love.graphics.polygon(mode, p._polygon:unpack())
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end
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end
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function CircleShape:draw(mode, segments)
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love.graphics.circle(mode or 'line', self:outcircle())
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end
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function PointShape:draw()
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love.graphics.point(self:center())
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end
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Shape = common_local.class('Shape', Shape)
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ConvexPolygonShape = common_local.class('ConvexPolygonShape', ConvexPolygonShape, Shape)
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ConcavePolygonShape = common_local.class('ConcavePolygonShape', ConcavePolygonShape, Shape)
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CircleShape = common_local.class('CircleShape', CircleShape, Shape)
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PointShape = common_local.class('PointShape', PointShape, Shape)
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local function newPolygonShape(polygon, ...)
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-- create from coordinates if needed
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if type(polygon) == "number" then
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polygon = common_local.instance(Polygon, polygon, ...)
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else
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polygon = polygon:clone()
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end
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if polygon:isConvex() then
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return common_local.instance(ConvexPolygonShape, polygon)
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end
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return common_local.instance(ConcavePolygonShape, polygon)
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end
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local function newCircleShape(...)
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return common_local.instance(CircleShape, ...)
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end
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local function newPointShape(...)
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return common_local.instance(PointShape, ...)
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end
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return {
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ConcavePolygonShape = ConcavePolygonShape,
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ConvexPolygonShape = ConvexPolygonShape,
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CircleShape = CircleShape,
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PointShape = PointShape,
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newPolygonShape = newPolygonShape,
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newCircleShape = newCircleShape,
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newPointShape = newPointShape,
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}
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