mirror of
https://github.com/kepler155c/opus
synced 2024-12-29 10:00:26 +00:00
413 lines
16 KiB
Lua
413 lines
16 KiB
Lua
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--[[
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The following License applies to all files within the jumper directory.
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Note that this is only a partial copy of the full jumper code base. Also,
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the code was modified to support 3D maps.
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--]]
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--[[
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This work is under MIT-LICENSE
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Copyright (c) 2012-2013 Roland Yonaba.
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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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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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--- The Pathfinder class
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--
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-- Implementation of the `pathfinder` class.
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local _VERSION = ""
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local _RELEASEDATE = ""
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if (...) then
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-- Dependencies
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local _PATH = (...):gsub('%.pathfinder$','')
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local Utils = require (_PATH .. '.core.utils')
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local Assert = require (_PATH .. '.core.assert')
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local Heap = require (_PATH .. '.core.bheap')
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local Heuristic = require (_PATH .. '.core.heuristics')
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local Grid = require (_PATH .. '.grid')
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local Path = require (_PATH .. '.core.path')
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-- Internalization
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local t_insert, t_remove = table.insert, table.remove
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local floor = math.floor
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local pairs = pairs
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local assert = assert
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local type = type
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local setmetatable, getmetatable = setmetatable, getmetatable
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--- Finders (search algorithms implemented). Refers to the search algorithms actually implemented in Jumper.
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--
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-- <li>[A*](http://en.wikipedia.org/wiki/A*_search_algorithm)</li>
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-- <li>[Dijkstra](http://en.wikipedia.org/wiki/Dijkstra%27s_algorithm)</li>
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-- <li>[Theta Astar](http://aigamedev.com/open/tutorials/theta-star-any-angle-paths/)</li>
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-- <li>[BFS](http://en.wikipedia.org/wiki/Breadth-first_search)</li>
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-- <li>[DFS](http://en.wikipedia.org/wiki/Depth-first_search)</li>
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-- <li>[JPS](http://harablog.wordpress.com/2011/09/07/jump-point-search/)</li>
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-- @finder Finders
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-- @see Pathfinder:getFinders
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local Finders = {
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['ASTAR'] = require (_PATH .. '.search.astar'),
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-- ['DIJKSTRA'] = require (_PATH .. '.search.dijkstra'),
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-- ['THETASTAR'] = require (_PATH .. '.search.thetastar'),
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['BFS'] = require (_PATH .. '.search.bfs'),
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-- ['DFS'] = require (_PATH .. '.search.dfs'),
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-- ['JPS'] = require (_PATH .. '.search.jps')
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}
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-- Will keep track of all nodes expanded during the search
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-- to easily reset their properties for the next pathfinding call
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local toClear = {}
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--- Search modes. Refers to the search modes. In ORTHOGONAL mode, 4-directions are only possible when moving,
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-- including North, East, West, South. In DIAGONAL mode, 8-directions are possible when moving,
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-- including North, East, West, South and adjacent directions.
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--
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-- <li>ORTHOGONAL</li>
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-- <li>DIAGONAL</li>
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-- @mode Modes
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-- @see Pathfinder:getModes
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local searchModes = {['DIAGONAL'] = true, ['ORTHOGONAL'] = true}
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-- Performs a traceback from the goal node to the start node
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-- Only happens when the path was found
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--- The `Pathfinder` class.<br/>
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-- This class is callable.
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-- Therefore,_ <code>Pathfinder(...)</code> _acts as a shortcut to_ <code>Pathfinder:new(...)</code>.
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-- @type Pathfinder
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local Pathfinder = {}
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Pathfinder.__index = Pathfinder
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--- Inits a new `pathfinder`
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-- @class function
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-- @tparam grid grid a `grid`
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-- @tparam[opt] string finderName the name of the `Finder` (search algorithm) to be used for search.
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-- Defaults to `ASTAR` when not given (see @{Pathfinder:getFinders}).
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-- @tparam[optchain] string|int|func walkable the value for __walkable__ nodes.
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-- If this parameter is a function, it should be prototyped as __f(value)__, returning a boolean:
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-- __true__ when value matches a __walkable__ `node`, __false__ otherwise.
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-- @treturn pathfinder a new `pathfinder` instance
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-- @usage
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-- -- Example one
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-- local finder = Pathfinder:new(myGrid, 'ASTAR', 0)
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--
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-- -- Example two
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-- local function walkable(value)
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-- return value > 0
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-- end
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-- local finder = Pathfinder(myGrid, 'JPS', walkable)
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function Pathfinder:new(grid, finderName, walkable)
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local newPathfinder = {}
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setmetatable(newPathfinder, Pathfinder)
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--newPathfinder:setGrid(grid)
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newPathfinder:setFinder(finderName)
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--newPathfinder:setWalkable(walkable)
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newPathfinder:setMode('DIAGONAL')
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newPathfinder:setHeuristic('MANHATTAN')
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newPathfinder:setTunnelling(false)
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return newPathfinder
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end
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--- Evaluates [clearance](http://aigamedev.com/open/tutorial/clearance-based-pathfinding/#TheTrueClearanceMetric)
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-- for the whole `grid`. It should be called only once, unless the collision map or the
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-- __walkable__ attribute changes. The clearance values are calculated and cached within the grid nodes.
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-- @class function
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-- @treturn pathfinder self (the calling `pathfinder` itself, can be chained)
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-- @usage myFinder:annotateGrid()
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function Pathfinder:annotateGrid()
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assert(self._walkable, 'Finder must implement a walkable value')
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for x=self._grid._max_x,self._grid._min_x,-1 do
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for y=self._grid._max_y,self._grid._min_y,-1 do
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local node = self._grid:getNodeAt(x,y)
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if self._grid:isWalkableAt(x,y,self._walkable) then
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local nr = self._grid:getNodeAt(node._x+1, node._y)
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local nrd = self._grid:getNodeAt(node._x+1, node._y+1)
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local nd = self._grid:getNodeAt(node._x, node._y+1)
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if nr and nrd and nd then
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local m = nrd._clearance[self._walkable] or 0
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m = (nd._clearance[self._walkable] or 0)<m and (nd._clearance[self._walkable] or 0) or m
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m = (nr._clearance[self._walkable] or 0)<m and (nr._clearance[self._walkable] or 0) or m
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node._clearance[self._walkable] = m+1
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else
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node._clearance[self._walkable] = 1
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end
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else node._clearance[self._walkable] = 0
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end
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end
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end
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self._grid._isAnnotated[self._walkable] = true
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return self
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end
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--- Removes [clearance](http://aigamedev.com/open/tutorial/clearance-based-pathfinding/#TheTrueClearanceMetric)values.
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-- Clears cached clearance values for the current __walkable__.
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-- @class function
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-- @treturn pathfinder self (the calling `pathfinder` itself, can be chained)
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-- @usage myFinder:clearAnnotations()
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function Pathfinder:clearAnnotations()
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assert(self._walkable, 'Finder must implement a walkable value')
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for node in self._grid:iter() do
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node:removeClearance(self._walkable)
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end
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self._grid._isAnnotated[self._walkable] = false
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return self
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end
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--- Sets the `grid`. Defines the given `grid` as the one on which the `pathfinder` will perform the search.
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-- @class function
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-- @tparam grid grid a `grid`
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-- @treturn pathfinder self (the calling `pathfinder` itself, can be chained)
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-- @usage myFinder:setGrid(myGrid)
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function Pathfinder:setGrid(grid)
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assert(Assert.inherits(grid, Grid), 'Wrong argument #1. Expected a \'grid\' object')
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self._grid = grid
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self._grid._eval = self._walkable and type(self._walkable) == 'function'
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return self
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end
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--- Returns the `grid`. This is a reference to the actual `grid` used by the `pathfinder`.
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-- @class function
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-- @treturn grid the `grid`
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-- @usage local myGrid = myFinder:getGrid()
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function Pathfinder:getGrid()
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return self._grid
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end
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--- Sets the __walkable__ value or function.
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-- @class function
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-- @tparam string|int|func walkable the value for walkable nodes.
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-- @treturn pathfinder self (the calling `pathfinder` itself, can be chained)
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-- @usage
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-- -- Value '0' is walkable
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-- myFinder:setWalkable(0)
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--
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-- -- Any value greater than 0 is walkable
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-- myFinder:setWalkable(function(n)
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-- return n>0
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-- end
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function Pathfinder:setWalkable(walkable)
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assert(Assert.matchType(walkable,'stringintfunctionnil'),
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('Wrong argument #1. Expected \'string\', \'number\' or \'function\', got %s.'):format(type(walkable)))
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self._walkable = walkable
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self._grid._eval = type(self._walkable) == 'function'
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return self
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end
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--- Gets the __walkable__ value or function.
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-- @class function
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-- @treturn string|int|func the `walkable` value or function
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-- @usage local walkable = myFinder:getWalkable()
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function Pathfinder:getWalkable()
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return self._walkable
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end
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--- Defines the `finder`. It refers to the search algorithm used by the `pathfinder`.
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-- Default finder is `ASTAR`. Use @{Pathfinder:getFinders} to get the list of available finders.
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-- @class function
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-- @tparam string finderName the name of the `finder` to be used for further searches.
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-- @treturn pathfinder self (the calling `pathfinder` itself, can be chained)
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-- @usage
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-- --To use Breadth-First-Search
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-- myFinder:setFinder('BFS')
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-- @see Pathfinder:getFinders
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function Pathfinder:setFinder(finderName)
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if not finderName then
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if not self._finder then
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finderName = 'ASTAR'
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else return
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end
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end
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assert(Finders[finderName],'Not a valid finder name!')
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self._finder = finderName
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return self
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end
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--- Returns the name of the `finder` being used.
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-- @class function
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-- @treturn string the name of the `finder` to be used for further searches.
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-- @usage local finderName = myFinder:getFinder()
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function Pathfinder:getFinder()
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return self._finder
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end
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--- Returns the list of all available finders names.
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-- @class function
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-- @treturn {string,...} array of built-in finders names.
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-- @usage
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-- local finders = myFinder:getFinders()
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-- for i, finderName in ipairs(finders) do
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-- print(i, finderName)
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-- end
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function Pathfinder:getFinders()
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return Utils.getKeys(Finders)
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end
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--- Sets a heuristic. This is a function internally used by the `pathfinder` to find the optimal path during a search.
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-- Use @{Pathfinder:getHeuristics} to get the list of all available `heuristics`. One can also define
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-- his own `heuristic` function.
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-- @class function
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-- @tparam func|string heuristic `heuristic` function, prototyped as __f(dx,dy)__ or as a `string`.
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-- @treturn pathfinder self (the calling `pathfinder` itself, can be chained)
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-- @see Pathfinder:getHeuristics
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-- @see core.heuristics
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-- @usage myFinder:setHeuristic('MANHATTAN')
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function Pathfinder:setHeuristic(heuristic)
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assert(Heuristic[heuristic] or (type(heuristic) == 'function'),'Not a valid heuristic!')
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self._heuristic = Heuristic[heuristic] or heuristic
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return self
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end
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--- Returns the `heuristic` used. Returns the function itself.
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-- @class function
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-- @treturn func the `heuristic` function being used by the `pathfinder`
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-- @see core.heuristics
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-- @usage local h = myFinder:getHeuristic()
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function Pathfinder:getHeuristic()
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return self._heuristic
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end
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--- Gets the list of all available `heuristics`.
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-- @class function
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-- @treturn {string,...} array of heuristic names.
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-- @see core.heuristics
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-- @usage
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-- local heur = myFinder:getHeuristic()
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-- for i, heuristicName in ipairs(heur) do
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-- ...
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-- end
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function Pathfinder:getHeuristics()
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return Utils.getKeys(Heuristic)
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end
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--- Defines the search `mode`.
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-- The default search mode is the `DIAGONAL` mode, which implies 8-possible directions when moving (north, south, east, west and diagonals).
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-- In `ORTHOGONAL` mode, only 4-directions are allowed (north, south, east and west).
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-- Use @{Pathfinder:getModes} to get the list of all available search modes.
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-- @class function
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-- @tparam string mode the new search `mode`.
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-- @treturn pathfinder self (the calling `pathfinder` itself, can be chained)
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-- @see Pathfinder:getModes
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-- @see Modes
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-- @usage myFinder:setMode('ORTHOGONAL')
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function Pathfinder:setMode(mode)
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assert(searchModes[mode],'Invalid mode')
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self._allowDiagonal = (mode == 'DIAGONAL')
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return self
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end
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--- Returns the search mode.
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-- @class function
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-- @treturn string the current search mode
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-- @see Modes
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-- @usage local mode = myFinder:getMode()
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function Pathfinder:getMode()
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return (self._allowDiagonal and 'DIAGONAL' or 'ORTHOGONAL')
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end
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--- Gets the list of all available search modes.
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-- @class function
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-- @treturn {string,...} array of search modes.
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-- @see Modes
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-- @usage local modes = myFinder:getModes()
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-- for modeName in ipairs(modes) do
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-- ...
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-- end
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function Pathfinder:getModes()
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return Utils.getKeys(searchModes)
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end
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--- Enables tunnelling. Defines the ability for the `pathfinder` to tunnel through walls when heading diagonally.
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-- This feature __is not compatible__ with Jump Point Search algorithm (i.e. enabling it will not affect Jump Point Search)
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-- @class function
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-- @tparam bool bool a boolean
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-- @treturn pathfinder self (the calling `pathfinder` itself, can be chained)
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-- @usage myFinder:setTunnelling(true)
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function Pathfinder:setTunnelling(bool)
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assert(Assert.isBool(bool), ('Wrong argument #1. Expected boolean, got %s'):format(type(bool)))
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self._tunnel = bool
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return self
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end
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--- Returns tunnelling feature state.
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-- @class function
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-- @treturn bool tunnelling feature actual state
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-- @usage local isTunnellingEnabled = myFinder:getTunnelling()
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function Pathfinder:getTunnelling()
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return self._tunnel
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end
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--- Calculates a `path`. Returns the `path` from location __[startX, startY]__ to location __[endX, endY]__.
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-- Both locations must exist on the collision map. The starting location can be unwalkable.
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-- @class function
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-- @tparam int startX the x-coordinate for the starting location
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-- @tparam int startY the y-coordinate for the starting location
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-- @tparam int endX the x-coordinate for the goal location
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-- @tparam int endY the y-coordinate for the goal location
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-- @tparam int clearance the amount of clearance (i.e the pathing agent size) to consider
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-- @treturn path a path (array of nodes) when found, otherwise nil
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-- @usage local path = myFinder:getPath(1,1,5,5)
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function Pathfinder:getPath(startX, startY, startZ, ih, endX, endY, endZ, oh, clearance)
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self:reset()
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local startNode = self._grid:getNodeAt(startX, startY, startZ)
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local endNode = self._grid:getNodeAt(endX, endY, endZ)
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if not startNode or not endNode then
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return nil
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end
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startNode._heading = ih
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endNode._heading = oh
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assert(startNode, ('Invalid location [%d, %d, %d]'):format(startX, startY, startZ))
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assert(endNode and self._grid:isWalkableAt(endX, endY, endZ),
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('Invalid or unreachable location [%d, %d, %d]'):format(endX, endY, endZ))
|
||
|
local _endNode = Finders[self._finder](self, startNode, endNode, clearance, toClear)
|
||
|
if _endNode then
|
||
|
return Utils.traceBackPath(self, _endNode, startNode)
|
||
|
end
|
||
|
return nil
|
||
|
end
|
||
|
|
||
|
--- Resets the `pathfinder`. This function is called internally between successive pathfinding calls, so you should not
|
||
|
-- use it explicitely, unless under specific circumstances.
|
||
|
-- @class function
|
||
|
-- @treturn pathfinder self (the calling `pathfinder` itself, can be chained)
|
||
|
-- @usage local path, len = myFinder:getPath(1,1,5,5)
|
||
|
function Pathfinder:reset()
|
||
|
for node in pairs(toClear) do node:reset() end
|
||
|
toClear = {}
|
||
|
return self
|
||
|
end
|
||
|
|
||
|
|
||
|
-- Returns Pathfinder class
|
||
|
Pathfinder._VERSION = _VERSION
|
||
|
Pathfinder._RELEASEDATE = _RELEASEDATE
|
||
|
return setmetatable(Pathfinder,{
|
||
|
__call = function(self,...)
|
||
|
return self:new(...)
|
||
|
end
|
||
|
})
|
||
|
|
||
|
end
|