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楼主 |
发表于 2011-1-26 19:48:30
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本帖最后由 Gu_xl 于 2011-10-12 15:27 编辑
优化算法后的代码:
- ;|为了提高程序构建多边形的运行速度,需要对程序的数据结构和计算方法进行优化,下面我逐步详解我程序的思路:
- 1、根据处理后的直线、圆弧选择集生成的图元列表entList,数据结构:(图元名 图元名 ...),建立图元和各图元之间的节点对应关系数据表,
- 数据结构:'((图元名 起点的节点编号 端点的节点编号)...),表中图元名的排序和表entList的顺序一致,再建立节点和坐标数据对应表,
- 数据结构:'((节点编号 坐标)...),这样方便后面构建拓扑邻接表时,搜索只需要搜索节点编号进行比较,不需要在进行比较端点坐标,这样能大大提高运算速度。
- |;
- ;;;(gxl-ent->Nodes entList jd)根据弧段图元表建立弧段节点表,参数:图元表 精度值 返回值:图元名--节点编号表 '((图元名 首节点编号 末节点编号)...) 节点--坐标表 '((节点编号 坐标)...)
- (defun gxl-ent->Nodes (entList jd / ent ent_nodes Nodes n k p1 p2 flag flag1 flag2 bh coord p11 p21 nodes1 sortI1 sortI2)
- (grtext -2 "整理弧段节点表...")
- (setq n 1 )
- ;(setq t1 (getvar "cdate"))
- (setq ent_nodes (list (list (car entList) 0 1)))
- (setq Nodes (list (list 1 (vlax-curve-getendPoint (car entList))) (list 0 (vlax-curve-getStartPoint (car entList)))))
- (foreach ent (cdr entList)
- (setq flag1 t
- flag2 t
- )
- (setq p1 (vlax-curve-getStartPoint ent)
- p2 (vlax-curve-getendPoint ent)
- k 0
- )
- ;;;===========
- (while (and (setq node (nth k nodes)) (or flag1 flag2))
- ;(foreach node nodes
- (setq bh (car node)
- coord (cadr node)
- )
- (if (equal p1 coord jd) (setq bh1 bh flag1 nil))
- (if (equal p2 coord jd) (setq bh2 bh flag2 nil))
- (setq k (1+ k))
- ;) ;_ foreach
- )
- (if flag1
- (progn
- (setq bh1 (setq n (1+ n)))
- (setq nodes (cons (list bh1 p1) nodes)
- )
- )
- )
- (if flag2
- (progn
- (setq bh2 (setq n (1+ n)))
- (setq nodes (cons (list bh2 p2) nodes)
- )
- )
- )
- ;;;============
- (setq ent_nodes (cons (list ent bh1 bh2) ent_nodes))
-
- )
- (grtext)
- ;(GXL-SYS-TIMEOUT t1)
- (list (reverse ent_nodes) (reverse Nodes))
-
- )
- ;|
- 2、根据生成的段图元名--节点编号表'((图元名 首节点编号 末节点编号)...),构建一个二维坐标表,
- 数据结构:'((图元起点的节点编号 图元起点的方向点 图元弧段编号 图元末端点方向点 图元末端点节点编号) ...)
- 其中:图元起点的方向点指图元起点到终点的方向上任一点,如果图元为圆弧,则该方向点为切线方向任一点,
- 图元末端点的方向点指图元末端点到起点的方向上任一点,如果图元为圆弧,则该方向点为切线方向任一点,
- 图元弧段编号为图元在表段图元名--节点编号表中的顺序位置,顺序号从1开始
- |;
- ;;;(gxl-ent->Coordinates enlst) 根据线段图元名--节点编号表'((图元名 首节点编号 末节点编号)...) 构建二维坐标表
- ;;;返回值: 二维坐标表 '((首端点节点编号 首端点方向点 弧段编号 末端点方向点 末端点节点编号) ...)
- ;;;(gxl-ent->Coordinates enLst)
- (defun gxl-ent->Coordinates (enLst / rtn index a b jd n k )
-
- (setq index 0)
- ;(setq jd 3)
- (setq rtn
- (mapcar '(lambda (x)
- (list (cadr x) ;_ 首端点节点编号
- (COND
- ((= "LINE" (GXL-DXF (car x) 0))
- (list (car (setq a (vlax-curve-getendPoint (car x))))
- (cadr a)
- ) ;_ list
- )
- ((= "ARC" (GXL-DXF (car x) 0))
-
- (list (car (setq b (polar (setq a (vlax-curve-getStartPoint (car x))) (GXL-GETCURVETANGENT (car x) a) 1))) (cadr b))
- )
- ((WCMATCH (GXL-DXF (car x) 0) "*POLYLINE")
-
- (list (car (setq b (polar (setq a (vlax-curve-getStartPoint (car x))) (GXL-GETCURVETANGENT (car x) a) 1))) (cadr b))
- )
- ) ;_ COND 首端点方向点
- ;(gxl-dxf x 5) ;_ 图元句柄
- ;x ;_ 图元名
- (setq index (1+ index)) ;_ 弧段编号,从序号1开始
- (COND
- ((= "LINE" (GXL-DXF (car x) 0))
- (list (car (setq a (vlax-curve-getstartPoint (car x))))
- (cadr a)
- ) ;_ list
- )
- ((= "ARC" (GXL-DXF (car x) 0))
-
- (list (car (setq b (polar (setq a (vlax-curve-getStartPoint (car x))) (GXL-GETCURVETANGENT (car x) a) -1.0))) (cadr b))
- )
- ((WCMATCH (GXL-DXF (car x) 0) "*POLYLINE")
-
- (list (car (setq b (polar (setq a (vlax-curve-getStartPoint (car x))) (GXL-GETCURVETANGENT (car x) a) -1.0))) (cadr b))
- )
- ) ;_ 末端点方向点
- (caddr x) ;_ 末端点节点编号
- ) ;_ list
- ) ;_ lambda
- enlst
- ) ;_ mapcar
- )
- rtn
- ;_ vl-sort
- )
- ;|
- 3、根据二维坐标表 '((首端点节点编号 首端点方向点 弧段编号 末端点方向点 末端点节点编号) ...) ,
- 建立弧段拓扑邻接表,'((弧段序号 (首端点关联表 ...) (末端点关联表 ...))...),
- 建立弧段拓扑邻接表的方法:
- 若某一弧段N 的首端点与另一弧段
- 相关联, 则在弧段拓扑邻接关系表中标记为N ; 若
- 末端点与另一弧段相关联, 则标记为- N
- 如果拓扑表中有nil,则表明线段端点没有邻接边
- |;
- ;;;(gxl-Toupu-LineList Coordinates) 根据二维坐标表 '((首端点节点编号 首端点方向点 弧段编号 末端点方向点 末端点节点编号) ...)
- ;;;建立弧段拓扑邻接表,'((弧段序号 (首端点关联表 ...) (末端点关联表 ...))...)
- (defun gxl-Toupu-LineList (Coordinates
- / toupulist nn
- n k pstart pend
- pl new old t2
- Coordinates0 Coordinates1
- flag flag1 index pl to bh
- xh1 xh2 coord
- ) ;_ Coordinates
- (if (not *jd*) (setq *jd* 0.00001))
- ;;;点表倒置
- (setq Coordinates1 (mapcar 'reverse Coordinates))
- (grtext -2 "拓扑邻接表...")
- (foreach coord Coordinates
- (setq xh1 (car coord)
- xh2 (last coord)
- )
- (setq toupulist
- (cons
- (list
- (setq bh (nth 2 coord))
- (vl-remove-if
- '(lambda (x) (or (equal x bh) (equal x (* -1 bh))))
- (append (mapcar 'cadr (GXL-MASSOC xh1 Coordinates)) (mapcar '(lambda (x) (* -1 (cadr x))) (GXL-MASSOC xh1 Coordinates1)))
- )
- (vl-remove-if
- '(lambda (x) (or (equal x bh) (equal x (* -1 bh))))
- (append (mapcar 'cadr (GXL-MASSOC xh2 Coordinates)) (mapcar '(lambda (x) (* -1 (cadr x))) (GXL-MASSOC xh2 Coordinates1)))
- )
- )
- toupulist)
- )
- )
-
- (grtext)
- (reverse toupulist)
- )
- ;|
- 4、检查生成的弧段拓扑邻接表,如果有断头的弧段,将其删除,返回处理后的弧段拓扑邻接表和已经删除的弧段表
- |;
- ;;;(gxl-check-Toupu-LineList toupulist) 参数:弧段拓扑邻接表
- (defun gxl-check-Toupu-LineList (toupulist / delnil toupulist1 dellist)
- (setq toupulist1 toupulist)
- (defun delnil (toupl / tmp tmp1 dellist1 a b)
- (setq tmp toupulist1)
- (foreach a toupl
- (if (member nil a)
- (progn
- ;(setq dellist (append dellist (list (abs (car a)))))
- (setq dellist (append dellist (list (car a))))
- (setq toupulist1 (vl-remove (assoc (abs(car a)) toupulist1) toupulist1))
- (setq toupulist1
- (mapcar
- '(lambda (b)
- (list (car b)
- (vl-remove-if
- '(lambda (x) (= (abs (car a)) (abs x)))
- (cadr b)
- ) ;_ vl-remove-if
- (vl-remove-if
- '(lambda (x) (= (abs (car a)) (abs x)))
- (caddr b)
- ) ;_ vl-remove-if
- ) ;_ list
- ) ;_ lambda
- toupulist1
- ) ;_ mapcar
- ) ;_ setq
- )
- )
- )
- (if (not (equal tmp toupulist1)) (delnil toupulist1))
- )
- (delnil toupulist1)
- (list toupulist1 dellist)
- )
- ;|
- 5、根据建立的弧段拓扑邻接表,按照最小角法则搜索多边形,返回 弧段与多边形拓扑关联表 '((多边形序号 (弧段号 ...))...)
- 一条弧段可作为一个或两个多边形的组成边而
- 存在, 亦即从一条弧段出发最多可以搜索出两个正确
- 的多边形. 如图2 所示, 若从弧段A 1 的一端O 出发,
- 并把它作为起始弧段, 把与A 1 的O 端拓扑关联的其
- 它弧段作为中止弧段, 然后比较并找出与A 1 夹角最
- 小的中止弧段A 2, 并把A 2 作为新的起始弧段, 再从
- 它的另一端点出发重复以上过程继续搜索, 直到回到
- 出发弧段A 1 的另一端为止, 则所有搜索出的弧段就
- 构成了一个多边形. 同样, 从A 1 的O 端开始, 并把它
- 作为中止弧段, 把与它拓扑关联的其它弧段作为起始
- 弧段, 然后比较并找出与该弧段夹角最小的弧段, 并
- 把找出的弧段作为新的中止弧段, 再从新弧段的另一
- 端点出发重复以上搜索过程, 直到回到A 1 的另一端
- 为止, 则所有搜索出的弧段就构成了另一个多边形.
- 这样, 从一条弧段出发可以跟踪出两个多边形, 此方
- 法可称为多边形搜索的最小角法则.
- 多边形的搜索按照最小角法则进行. 从编号为
- 1 的弧段的始端出发, 查找弧段拓扑邻接表中与该
- 端点关联的弧段, 按照最小角法则可以搜索出两个
- 多边形. 依照上述方法, 依次把其它弧段作为开始弧
- 段, 共可找出2N (N 为总弧段数) 个多边形. 搜索过
- 程中, 记录构成多边形的弧段编号(一弧段首端与上
- 一弧段关联用正边号, 否则用负边号) 和弧段数, 即
- 形成多边形与弧段的拓扑关联表.
- |;
- ;;;(gxl-MakePolyList toupulist Coordinates nodes) 最小角法拓扑多边形,返回多边形数据表
- ;;;参数:
- ;;; toupulist 弧段邻接表 '((弧段序号 (首端点关联表 ...) (末端点关联表 ...))...),从 1 开始
- ;;; Coordinates 二维坐标表 '((首端点节点编号 首端点方向点 弧段编号 末端点方向点 末端点节点编号) ...) 按顺序从1开始
- ;;; nodes 节点--坐标表 '((节点编号 坐标)...)
- (defun gxl-MakePolyList (toupulist Coordinates nodes / PolyTouPuList nn
- n xh pstart pend flag p0 p1
- a0 a1 a2 B1 B2 polytoupu
- toupu0 next t2 kk ExitNum ExitFlag Nodestart
- NodeEnd node
- ) ;_ toupulist
- (if (not *jd*) (setq *jd* 0.00001))
- ;;;测试时间
- (setq t2 (getvar "cdate"))
- (setq nn (length Coordinates)
- n 0
- to nn)
- (GXL-SYS-PROGRESS-INIT "拓扑多边形" to)
- (repeat nn
- (setq xh (1+ n)) ;_ 弧段序号
- ;(setq bak xh)
- (if (assoc xh toupulist)
- ;;;如果该边在拓扑邻接表里
- (progn
- (GXL-SYS-PROGRESS to -1)
- (setq Nodestart (car (nth n Coordinates))
- NodeEnd (last (nth n Coordinates))
- Pstart (cadr (assoc Nodestart nodes))
- pEnd (cadr (assoc NodeEnd nodes))
- flag t
- ) ;_ setq
- ;;;首端点搜索多边形
- (setq p0 pstart
- p1 (cadr (nth n Coordinates))
- a0 (angle p0 p1) ;_ 首端点弧段角度
- toupu0 (cadr (assoc xh toupulist)) ;_ 首端点弧段拓扑邻接表
- polytoupu (list (* -1 xh))
- )
- (setq ExitNum 0 ;_ 循环次数
- ExitFlag nil) ;_ 陷入死循环标志
- ;;;移除重合的线
- (setq toupu0 (vl-remove-if
- '(lambda (x)
- (if (> x 0)
- (equal a0 (angle (cadr (assoc (car (nth (1- x) Coordinates)) nodes)) (cadr (nth (1- x) Coordinates))) *jd*)
- (equal a0 (angle (cadr (assoc (nth 4 (nth (abs (1+ x)) Coordinates)) nodes)) (nth 3 (nth (abs (1+ x)) Coordinates))) *jd*)
- )
- )
- toupu0
- )
- )
- (if (not (> (length toupu0) 0)) (setq flag nil ExitFlag t))
- (while flag
- ;;;toupu0与a0按最小角度排序相邻边
- (setq toupu0
- (vl-sort toupu0
- '(lambda (e1 e2)
- (if (> e1 0)
- (setq a1 (angle (cadr (assoc (car (nth (1- e1) Coordinates)) nodes)) (cadr (nth (1- e1) Coordinates))))
- (setq a1 (angle (cadr (assoc (nth 4 (nth (abs (1+ e1)) Coordinates)) nodes)) (nth 3 (nth (abs (1+ e1)) Coordinates))))
- )
- (if (> e2 0)
- (setq a2 (angle (cadr (assoc (car (nth (1- e2) Coordinates)) nodes)) (cadr (nth (1- e2) Coordinates))))
- (setq a2 (angle (cadr (assoc (nth 4 (nth (abs (1+ e2)) Coordinates)) nodes)) (nth 3 (nth (abs (1+ e2)) Coordinates))))
- )
- (if (>= a0 a1) (setq B1 (- a0 a1)) (setq B1 (+ 2pi (- a0 a1))))
- (if (>= a0 a2) (setq B2 (- a0 a2)) (setq B2 (+ 2pi (- a0 a2))))
- (< B1 B2)
- )
- )
- )
- ;;;判断Next边是否已经在polytoupu里了
- ;(if (member next (mapcar 'abs polytoupu)) (setq exitflag t))
- (setq polytoupu (append polytoupu (list (setq next (car toupu0))))) ;_ next 下一邻接边序号
- ;;;验证next 下一邻接边序号的方位角是否和首端点弧段角度a0重合,如重合,找下一边,未找到,结束组多边形
- (setq falg1 t
- kk 1)
- (while flag1
- (if (> next 0)
- (setq a1 (angle (cadr (assoc (car (nth (1- next) Coordinates)) nodes)) (cadr (nth (1- next) Coordinates))))
- (setq a1 (angle (cadr (assoc (nth 4 (nth (abs (1+ next)) Coordinates)) nodes)) (nth 3 (nth (abs (1+ next)) Coordinates))))
- )
- (if (equal a0 a1 0.000001) (setq next (nth kk toupu0))(setq flag1 nil))
- (if (not next) (setq flag1 nil))
- (setq kk (1+ kk))
- )
- ;(if next (setq polytoupu (append polytoupu (list (setq next (car toupu0))))))
- (if next
- (if (> next 0)
- (progn
- (setq p0 (cadr (assoc (setq node (nth 4 (nth (1- next) Coordinates))) nodes))
- a0 (angle p0 (nth 3 (nth (1- next) Coordinates)))
- toupu0 (caddr (assoc next toupulist))
- )
- (if (equal node nodeEnd) (setq flag nil))
-
- )
- (progn
- (setq p0 (cadr (assoc (setq node (car (nth (abs (1+ next)) Coordinates))) nodes))
- a0 (angle p0 (cadr (nth (abs (1+ next)) Coordinates)))
- toupu0 (cadr (assoc (abs next) toupulist))
- )
- (if (equal node nodeEnd) (setq flag nil))
- )
- )
- (setq flag nil)
- )
- (setq ExitNum (1+ ExitNum))
- ;;;搜索边界次数超过2000次,程序陷入死循环,退出
- (if (> ExitNum 2000) (setq flag nil ExitFlag t))
- (if (and flag (not ExitFlag))
- (progn
- ;;;移除重合的线
- (setq toupu0 (vl-remove-if
- '(lambda (x)
- (if (> x 0)
- (equal a0 (angle (cadr (assoc (car (nth (1- x) Coordinates)) nodes)) (cadr (nth (1- x) Coordinates))) *jd*)
- (equal a0 (angle (cadr (assoc (nth 4 (nth (abs (1+ x)) Coordinates)) nodes)) (nth 3 (nth (abs (1+ x)) Coordinates))) *jd*)
- )
- )
- toupu0
- )
- )
- (if (not (> (length toupu0) 0)) (setq flag nil ExitFlag t))
- )
- )
- );_ while
- (if ExitFlag
- (setq ExitFlag nil)
- (setq PolyTouPuList (append PolyTouPuList (list polytoupu)))
- )
-
- ;;;末端点搜索
- (setq p0 pend
- p1 (nth 3 (nth n Coordinates))
- a0 (angle p0 p1) ;_ 起点角度
- toupu0 (caddr (assoc xh toupulist))
- polytoupu (list xh)
- flag t
- )
- (setq ExitNum 0 ;_ 循环次数
- ExitFlag nil) ;_ 陷入死循环标志
- ;;;移除重合的线
- (setq toupu0 (vl-remove-if
- '(lambda (x)
- (if (> x 0)
- (equal a0 (angle (cadr (assoc (car (nth (1- x) Coordinates)) nodes)) (cadr (nth (1- x) Coordinates))) *jd*)
- (equal a0 (angle (cadr (assoc (nth 4 (nth (abs (1+ x)) Coordinates)) nodes)) (nth 3 (nth (abs (1+ x)) Coordinates))) *jd*)
- )
- )
- toupu0
- )
- )
- (if (not (> (length toupu0) 0)) (setq flag nil ExitFlag t))
- (while flag
- ;;;计算最小角度相邻边
-
- (setq toupu0
- (vl-sort toupu0
- '(lambda (e1 e2)
- (if (> e1 0)
- (setq a1 (angle (cadr (assoc (car (nth (1- e1) Coordinates)) nodes)) (cadr (nth (1- e1) Coordinates))))
- (setq a1 (angle (cadr (assoc (nth 4 (nth (abs (1+ e1)) Coordinates)) nodes)) (nth 3 (nth (abs (1+ e1)) Coordinates))))
- )
- (if (> e2 0)
- (setq a2 (angle (cadr (assoc (car (nth (1- e2) Coordinates)) nodes)) (cadr (nth (1- e2) Coordinates))))
- (setq a2 (angle (cadr (assoc (nth 4 (nth (abs (1+ e2)) Coordinates)) nodes)) (nth 3 (nth (abs (1+ e2)) Coordinates))))
- )
- (if (>= a0 a1) (setq B1 (- a0 a1)) (setq B1 (+ 2pi (- a0 a1))))
- (if (>= a0 a2) (setq B2 (- a0 a2)) (setq B2 (+ 2pi (- a0 a2))))
- (< B1 B2)
- )
- )
- )
- ;;;判断Next边是否已经在polytoupu里了
- ;(if (member next (mapcar 'abs polytoupu)) (setq exitflag t))
- (setq polytoupu (append polytoupu (list (setq next (car toupu0))))) ;_ next 下一邻接边序号
- ;;;验证next 下一邻接边序号的方位角是否和首端点弧段角度a0重合,如重合,找下一边,未找到,结束组多边形
- (setq falg1 t
- kk 1)
- (while flag1
- (if (> next 0)
- (setq a1 (angle (cadr (assoc (car (nth (1- next) Coordinates)) nodes)) (cadr (nth (1- next) Coordinates))))
- (setq a1 (angle (cadr (assoc (nth 4 (nth (abs (1+ next)) Coordinates)) nodes)) (nth 3 (nth (abs (1+ next)) Coordinates))))
- )
- (if (equal a0 a1 0.000001) (setq next (nth kk toupu0))(setq flag1 nil))
- (if (not next) (setq flag1 nil))
- (setq kk (1+ kk))
- )
- ;(if next (setq polytoupu (append polytoupu (list (setq next (car toupu0))))))
- (if next
- (if (> next 0)
- (progn
- (setq p0 (cadr (assoc (setq node (nth 4 (nth (1- next) Coordinates))) nodes))
- a0 (angle p0 (nth 3 (nth (1- next) Coordinates)))
- toupu0 (caddr (assoc next toupulist))
- )
- (if (equal node nodestart) (setq flag nil))
- )
- (progn
- (setq p0 (cadr (assoc (setq node (car (nth (abs (1+ next)) Coordinates))) nodes))
- a0 (angle p0 (cadr (nth (abs (1+ next)) Coordinates)))
- toupu0 (cadr (assoc (abs next) toupulist))
- )
- (if (equal node nodestart) (setq flag nil))
- )
- )
- (setq flag nil)
- )
- (setq ExitNum (1+ ExitNum))
- ;;;搜索边界次数超过2000次,程序陷入死循环,退出
- (if (> ExitNum 2000) (setq flag nil ExitFlag t))
- (if (and flag (not ExitFlag))
- (progn
- ;;;移除重合的线
- (setq toupu0 (vl-remove-if
- '(lambda (x)
- (if (> x 0)
- (equal a0 (angle (cadr (assoc (car (nth (1- x) Coordinates)) nodes)) (cadr (nth (1- x) Coordinates))) *jd*)
- (equal a0 (angle (cadr (assoc (nth 4 (nth (abs (1+ x)) Coordinates)) nodes)) (nth 3 (nth (abs (1+ x)) Coordinates))) *jd*)
- )
- )
- toupu0
- )
- )
- (if (not (> (length toupu0) 0)) (setq flag nil ExitFlag t))
- )
- )
-
- ) ;_ while
- (if ExitFlag
- (setq ExitFlag nil)
- (setq PolyTouPuList (append PolyTouPuList (list polytoupu)))
- )
- )
- )
- (setq n (1+ n))
- )
- (GXL-SYS-PROGRESS-DONE)
- ;(princ " \n多边形拓扑 ")
- (GXL-SYS-TIMEOUT t2)
- ;;;删除多余多边形
- (gxl-dumpPolyTouPuList PolyTouPuList)
- )
- ;|
- 6、多余多边形的消除
- 由于按照最小角法则搜索出的多边形, 其中部
- 分是重复的(例如“岛”被搜索了两次) , 部分是错误
- 的(例如外围轮廓多边形) , 因此这两种多边形需要
- 去除. 其中重复多边形的去除是从多边形与弧段的
- 拓扑关联表中按照边数相等, 且边号绝对值相等的
- 原则来进行; 而错误多边形的去除则按照下面原则
- 进行: 一个多边形与另一多边形有公共边, 同时它又
- 包含另一多边形的非公共边上一点, 则该多边形是
- 错误多边形.
- |;
- ;;;(gxl-dumpPolyTouPuList PolyTouPuList) 删除多余多边形,本函数仅消除重复的多边形,
- ;;;外包多边形在实际生成多边形后再予以删除
- (defun gxl-dumpPolyTouPuList (PolyTouPuList / rtn pl nn n a)
- (setq pl PolyTouPuList
- nn (length pl)
- ) ;_ setq
- ;(grtext -2 "\n处理多余多边形...")
- ;(princ)
- (GXL-SYS-PROGRESS-INIT "处理多余多边形" nn)
- ;;;测试时间
- ;(setq t2 (getvar "cdate"))
- (while (setq a (car pl)
- rtn (cons a rtn)
- pl (vl-remove-if
- '(lambda (x)
- (if (= (length a) (length x))
- (if (equal (vl-sort (mapcar 'abs x) '<)
- (vl-sort (mapcar 'abs a) '<)
- ) ;_ equal
- t
- ) ;_ if
- ) ;_ if
- ) ;_ lambda
- pl
- ) ;_ vl-remove-if
- ) ;_ setq
- (GXL-SYS-PROGRESS nn -1)
- ) ;_ while
- (GXL-SYS-PROGRESS-DONE)
- ;(GXL-SYS-TIMEOUT t2)
- (setq rtn (reverse rtn))
- (vl-remove-if
- '(lambda (x) (/= (length x) (length (GXL-LISTDUMPATOM (mapcar 'abs x)))))
- rtn
- )
- ) ;_ defun
- ;|
- 7、根据生成的多边形拓扑表绘制多边形
- ;;;(gxl-DrawPolyLine PolyTouPuList ssl Coordinates closed)
- 由弧段与多边形拓扑关联表绘制多边形,参数 多边形拓扑关联表 图元名列表 坐标值列表 是否闭合 返回值:多边形选择集
- ;;;PolyTouPuList 多边形拓扑表
- ;;; ssl 图元名--节点编号表 '((图元名 首节点编号 末节点编号)...)
- ;;; nodes 节点--坐标表 '((节点编号 坐标)...)
- |;
- (defun gxl-DrawPolyLine (PolyTouPuList
- ssl nodes closed / Polytoupu pts
- _bulges mn ml mk num p1 p2
- np1 np2 en en1 rtn coords n
- gxl-DelOutPolyline La_LineType_Color Lay LineType Color xh1 xh2
- ) ;_ PolyTouPuList
- ;;;(gxl-DelOutPolyline ss) 删除拓扑出poly选择集中外边框,返回删除后的选择集
- ;;;(gxl-DelOutPolyline pss)
- (defun gxl-DelOutPolyline (ss / ssL ssL1 ent flag en1 rtn)
- (setq ssL (GXL-SEL-SS->LIST ss)
- rtn (ssadd)
- flag t
- )
- (setq ssL (vl-sort ssL '(lambda (e1 e2) (> (GXL-GETAREA e1) (GXL-GETAREA e2)))))
-
- (while flag
- (setq ent (car ssL)
- ssL (cdr ssL)
- ssL1 '()
- flag1 nil
- )
- (while ssL
- (setq en1 (car ssL)
- ssL (cdr ssL)
- ) ;_ setq
- (if (PolyInLwpolyLine en1 ent)
- (setq flag1 t)
- (setq ssL1 (cons en1 ssL1))
- ) ;_ if
- ) ;_ while
- (if flag1 (progn (ssdel ent ss)(entdel ent)(setq flag1 nil)))
- (if ssL1
- (setq ssL (vl-sort ssL1 '(lambda (e1 e2) (> (GXL-GETAREA e1) (GXL-GETAREA e2)))))
- (setq flag nil)
- )
- ) ;_ while
- ss
- )
- (setq rtn (ssadd))
- (if (not *jd*) (setq *jd* 0.0001))
- (foreach Polytoupu PolyTouPuList
- (setq pts nil
- _bulges nil
- mn (length Polytoupu)
- mk 0
- )
- ;(if closed (setq mk 0) (setq mk -1))
- (foreach num Polytoupu
- (setq mk (1+ mk))
-
- (setq en (car (nth (1- (abs num)) ssl))
- xh1 (cadr (nth (1- (abs num)) ssl))
- xh2 (caddr (nth (1- (abs num)) ssl))
- ;coords (nth (1- (abs num)) Coordinates)
- entype (gxl-dxf en 0)
- )
-
- (if (> num 0)
- (setq p1 (cadr (assoc xh1 nodes))
- p2 (cadr (assoc xh2 nodes))
- ) ;_ setq
- (setq p1 (cadr (assoc xh2 nodes))
- p2 (cadr (assoc xh1 nodes))
- ) ;_ setq
- ) ;_ if
- (cond ((= entype "LINE")
- (if pts
- (setq pts (append pts (list p2))
- _bulges (append _bulges (list 0))
- )
- (setq pts (append pts (list p1 p2))
- _bulges (append _bulges (list 0))
- )
- ) ;_ if
-
-
- )
- ((= entype "ARC")
- (if pts
- (setq pts (append pts (list p2))
- _bulges (append _bulges (list (cond ((> num 0) (gxl-GetArcBulge en)) (t (* -1.0 (gxl-GetArcBulge en))))))
- )
- (setq pts (append pts (list p1 p2))
- _bulges (append _bulges (list (cond ((> num 0) (gxl-GetArcBulge en)) (t (* -1.0 (gxl-GetArcBulge en))))))
- )
- )
- )
- ((= entype "LWPOLYLINE")
- (setq data (gxl-get_poly_data en))
-
- (if (> num 0)
- (progn
- (if pts
- (progn
- (setq pts (append pts (cdar data)))
- (setq _bulges (append _bulges (reverse (cdr (reverse (cadr data))))))
- )
- (progn
- (setq pts (append pts (cons p1 (cdar data))))
- (setq _bulges (append _bulges (cadr data)))
- )
- )
- ) ;_ progn
- (progn
- (GXL-REVERSELWPOLYLINE en)
- (setq data (gxl-get_poly_data en))
- (if pts
- (progn
- (setq pts (append pts (cdar data)))
- (setq _bulges (append _bulges (reverse (cdr (reverse (cadr data))))))
- )
- (progn
- (setq pts (append pts (cons p1 (cdar data))))
- (setq _bulges (append _bulges (cadr data)))
- )
- )
- (GXL-REVERSELWPOLYLINE en)
- ) ;_ progn
- ) ;_ if
- )
- )
-
- )
- ;(if (= entype "LWPOLYLINE") (setq _bulges (append _bulges (list (last (cadr data))))) (setq _bulges (append _bulges (list 0))))
- (if closed
- (vla-put-closed (GXL-AX:ADDLWPOLYLINE1 *MODEL-SPACE* (list pts _bulges )) :vlax-true)
- (GXL-AX:ADDLWPOLYLINE1 *MODEL-SPACE* (list pts _bulges))
- )
- (setq app pts
- bus _bulges)
- (ssadd (setq en (entlast)) rtn)
- ;;;修改多段线图层
- (setq La_LineType_Color (gxl-GetToupuPolyLayer_Linetype_color Polytoupu (mapcar 'car ssl)))
- (setq lay (car La_LineType_Color)
- LineType (cadr La_LineType_Color)
- Color (caddr La_LineType_Color)
- )
- (gxl-CH_Ent en 8 lay)
- (if LineType (gxl-CH_Ent en 6 LineType))
- (if color (gxl-CH_Ent en 62 color))
- (gxl-DumpPolyPoint en)
- ;(vla-put-closed (GXL-AX:ADDLWPOLYLINE *MODEL-SPACE* pts) :vlax-true)
- )
- (if closed (gxl-DelOutPolyline rtn) rtn) ;_ 返回删除外框后的选择集
- )
- ;;;测试
- (defun c:mkpoly ()
- (SETUNDOERR)
- (if (not *jd*) (setq *jd* 0.00001))
- (princ "\n基于方位角计算的拓扑多边形自动构建快速算法测试")
- (princ "\n****程序作者:Gu_xl 2010年8月****")
- (princ "\n选择直线、圆弧、圆:")
- (setq ss (ssget '((0 . "line,arc,circle"))))
- (gxl-makepoly ss)
- (reerr)
- )
- ;;;至此,基于方位角计算的拓扑多边形自动构建快速算法 的主要算法思路的函数功能全部完成,
- ;;;附件是打包的测试程序,调用命令:mkpoly
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