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新手,在看netlogo自带的例子时,有几行程序看不懂,希望高手能够指点。. u1 l' [+ d C& |2 f
netlogo自带的social science--traffic grid这一例子当中,
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/ _6 o2 r9 h- T" D5 Z* N {- a& A grid-x-inc ;; the amount of patches in between two roads in the x direction
# z0 F9 z0 w7 }+ Y grid-y-inc ;; the amount of patches in between two roads in the y direction4 }8 ~. f1 ]" e9 S' Q" {6 T
acceleration ;; the constant that controls how much a car speeds up or slows down by if
! \+ P. q/ |# I, X ;; it is to accelerate or decelerate
5 p1 r3 d5 l9 [ phase ;; keeps track of the phase
- l2 f5 w% ?: T3 [2 g' c- J num-cars-stopped ;; the number of cars that are stopped during a single pass thru the go procedure( H/ v# l( ~* k$ m( N) S- q, U2 n: t/ k
current-light ;; the currently selected light2 D" t1 d: {' l
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;; patch agentsets5 s/ R2 d$ x1 r; X& P3 L3 j
intersections ;; agentset containing the patches that are intersections
2 S; e1 M" Q4 P9 ]1 _ roads ;; agentset containing the patches that are roads
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% }% G& B& [4 ? \0 K9 R; oturtles-own
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" a, R4 q# x- n7 k+ K speed ;; the speed of the turtle4 k. ?9 W- G: t- C, `6 l' Q6 f
up-car? ;; true if the turtle moves downwards and false if it moves to the right# M! F+ P0 C% U, M) C0 p* M
wait-time ;; the amount of time since the last time a turtle has moved
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patches-own! p3 h! O1 j, R/ t4 ]( \& h: w
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intersection? ;; true if the patch is at the intersection of two roads
* y/ c3 c a8 A- a3 P* j# r9 ~& i green-light-up? ;; true if the green light is above the intersection. otherwise, false.( O8 p* i" A, j5 y% A
;; false for a non-intersection patches.
; ?1 n" f3 A: S0 c( S my-row ;; the row of the intersection counting from the upper left corner of the
C* `" b/ h, x ;; world. -1 for non-intersection patches.1 ?6 \7 ], j) X |5 z) ]) V
my-column ;; the column of the intersection counting from the upper left corner of the
# Y6 ]) n( ^; @ ;; world. -1 for non-intersection patches.
# Z' l% j) X! X my-phase ;; the phase for the intersection. -1 for non-intersection patches.
* P+ s4 ^- I4 p. C6 } u auto? ;; whether or not this intersection will switch automatically.
8 h/ t8 u7 r$ G5 i ;; false for non-intersection patches.
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) r1 p1 Z; s; C: I& P# ?+ O;;;;;;;;;;;;;;;;;;;;;;) d9 W! w% q' E/ f* \
;; Setup Procedures ;;1 ^: O& ^9 n5 u: h
;;;;;;;;;;;;;;;;;;;;;;
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;; Initialize the display by giving the global and patch variables initial values., E; `- s! u J& q; Y0 s
;; Create num-cars of turtles if there are enough road patches for one turtle to
$ B! P: u2 r! r7 V: ]; v5 L! t* X) g;; be created per road patch. Set up the plots.
% Z$ [% Q- \, f3 I4 gto setup. _: }3 E, R8 K$ z
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setup-globals
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& e K, H. l, M! a ;; First we ask the patches to draw themselves and set up a few variables
& p! n* A: p, w setup-patches
3 X# K+ Z0 S C* Y! e" t make-current one-of intersections' d" W! v( F* Y- p i4 @
label-current
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B) m }& q* o/ F7 X set-default-shape turtles "car"$ G( w: A) P3 T8 [
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if (num-cars > count roads)1 g: \ H# a' u: b9 d6 N' a
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user-message (word "There are too many cars for the amount of "
/ T2 a! J) d2 j7 L; x9 [ "road. Either increase the amount of roads "8 P! H h- V' b& K% }' x# h
"by increasing the GRID-SIZE-X or ", A+ e1 z9 P3 D: i- f4 O
"GRID-SIZE-Y sliders, or decrease the "1 [) M2 h2 u, T/ E2 }
"number of cars by lowering the NUMBER slider.\n"
" B& P) s: }7 Q: |0 a "The setup has stopped."). I, ?) o6 m6 Q2 X! Q7 u" q
stop5 m' m' ]5 }7 X' C v
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;; Now create the turtles and have each created turtle call the functions setup-cars and set-car-color
4 ^% c7 c0 R! @! b2 B* a crt num-cars- l" _- _2 h9 V/ |4 g& i# W' d+ {
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- u1 Q$ ~( A, Q5 w1 k F# L% U% f setup-cars
4 `" q: g1 n1 N" _# P set-car-color
1 m* n* }/ \1 a" d7 O8 e1 X- { record-data
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+ K- L) V. r2 \* j0 } ;; give the turtles an initial speed
$ l$ I/ I" T3 r$ |+ w. B ask turtles [ set-car-speed ]
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reset-ticks
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;; Initialize the global variables to appropriate values
6 p4 a$ w/ U% F4 f4 {+ Jto setup-globals. v4 z& v5 H# G& v
set current-light nobody ;; just for now, since there are no lights yet
; r7 I3 B7 [4 o3 ?$ P set phase 0' P4 }: d" ?( B+ y$ |
set num-cars-stopped 0
! J- r2 G( V0 C4 t- Z7 u: U set grid-x-inc world-width / grid-size-x
( w7 p% A+ u. ~4 Z: S3 O set grid-y-inc world-height / grid-size-y/ G& ~1 e4 F8 k2 I
' U( a' c6 \* n6 n" j& }$ ` ;; don't make acceleration 0.1 since we could get a rounding error and end up on a patch boundary
. `$ F1 k- R1 L; t6 ` set acceleration 0.099
- E9 G) `( V" l" q8 l. cend
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;; Make the patches have appropriate colors, set up the roads and intersections agentsets,
5 P6 s% {7 p$ g;; and initialize the traffic lights to one setting5 v; C$ ` A0 q4 w; | b5 O% h; \# m
to setup-patches# Y4 u- _$ M: O3 J# }4 g9 N
;; initialize the patch-owned variables and color the patches to a base-color
^0 X& V9 r8 [5 ^8 q7 P) C H ask patches, r( a4 i0 _& g+ M/ u g
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set intersection? false' o# |7 D* d; d: ]) y& a; p
set auto? false
9 X6 l6 L4 \8 i# G- b set green-light-up? true
' A) `8 l; I3 d, B5 R% I# } set my-row -14 E4 T8 X! n) o4 w: K
set my-column -14 k5 E* M! s! m L( h, |
set my-phase -1
( S3 v5 |: A+ y7 B" N+ F0 _5 X set pcolor brown + 3
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;; initialize the global variables that hold patch agentsets" ?8 L% P1 u7 i& j L9 O5 E$ X, t
set roads patches with
8 w2 c( G( g. b& {1 c [(floor((pxcor + max-pxcor - floor(grid-x-inc - 1)) mod grid-x-inc) = 0) or
( C* F2 T4 \1 \. p+ t2 U6 F (floor((pycor + max-pycor) mod grid-y-inc) = 0)]3 W" u: G% r! g x) T o( O
set intersections roads with
\% i6 R; n1 X+ k' A& Q. [8 H [(floor((pxcor + max-pxcor - floor(grid-x-inc - 1)) mod grid-x-inc) = 0) and
6 v* N* Q# {+ I* M* h1 B (floor((pycor + max-pycor) mod grid-y-inc) = 0)]2 N, h+ u! \% O0 ]3 \' y( c+ K
0 ?: ^+ f( J% W4 j ask roads [ set pcolor white ]
3 {+ w- r. N' U. R setup-intersections
; @* ?( [5 S+ u* y0 |0 {, F: cend
. R' o3 x+ E2 d. P" p; |其中定义道路的句子,如下所示,是什么意思啊?" f1 t+ [, w( [+ Q& G
set roads patches with$ q$ p: {8 T4 y( `# D
[(floor((pxcor + max-pxcor - floor(grid-x-inc - 1)) mod grid-x-inc) = 0) or
1 Q5 Y7 i+ C& r" C% y2 W+ `8 R" g (floor((pycor + max-pycor) mod grid-y-inc) = 0)]: I, p5 v& Y8 }
谁能帮我解释一下[(floor((pxcor + max-pxcor - floor(grid-x-inc - 1)) mod grid-x-inc) = 0)是什么意思吗? |
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发表于 2012-6-20 08:59:43
