|
|
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。9 u2 Q. Z# ~/ c
netlogo自带的social science--traffic grid这一例子当中, R! m H- d' c4 H7 V+ u
globals
! u& J$ Q2 T: `! U1 y- o6 h[
) T9 `2 }. R) j& x( V grid-x-inc ;; the amount of patches in between two roads in the x direction3 C% d4 u, d& c
grid-y-inc ;; the amount of patches in between two roads in the y direction' }0 Z2 m. t* |' l( _8 O. Q
acceleration ;; the constant that controls how much a car speeds up or slows down by if8 ?$ V/ w1 c+ T6 ^2 Q
;; it is to accelerate or decelerate5 h* B$ V4 e1 o$ Y1 ^! w
phase ;; keeps track of the phase
- b+ s/ E8 P' b num-cars-stopped ;; the number of cars that are stopped during a single pass thru the go procedure& a' a l; o" h! d
current-light ;; the currently selected light: b3 [) z0 b! y' J1 y2 S. I
, Q1 D3 ~9 w3 ]3 c* Z, T" _: ^ ;; patch agentsets
5 ?# ]! L3 r+ z# I intersections ;; agentset containing the patches that are intersections2 [- F+ K+ P( v! L8 b# G
roads ;; agentset containing the patches that are roads
+ s0 {; T6 k! s7 }, y3 I1 a4 M]
; U) m1 Y, M7 R5 U9 Q# I: Q# Z* ~+ x" B9 I, s
turtles-own, O& s6 j( q; z) ?5 V( G
[
. B( p2 O- p# q$ M speed ;; the speed of the turtle! T' h7 s3 o$ ]9 @. O0 ]8 L+ P. M
up-car? ;; true if the turtle moves downwards and false if it moves to the right
M6 F2 T2 R' z. D wait-time ;; the amount of time since the last time a turtle has moved- P+ |6 H: p. Z; \
]* T: @$ Y. ^ R, ?& u
) y }/ Y' m d% A
patches-own
+ E0 s0 |3 R1 w[( v% l, B* c/ g) R. D9 Y: O/ H- [- X
intersection? ;; true if the patch is at the intersection of two roads
, \, Z' l/ W. _9 ?1 W green-light-up? ;; true if the green light is above the intersection. otherwise, false.
0 T1 \" P) u- j" N# Y f0 s ;; false for a non-intersection patches.: G, G2 i* H8 D8 C: R0 y0 l
my-row ;; the row of the intersection counting from the upper left corner of the( K K) V( N! \0 }: ^; i
;; world. -1 for non-intersection patches.
+ m3 K# v- n' e my-column ;; the column of the intersection counting from the upper left corner of the
7 }# r5 b# ]/ L; ^! v4 _- z+ D ;; world. -1 for non-intersection patches.
7 u. o" p' n+ ~; a5 X( o" s my-phase ;; the phase for the intersection. -1 for non-intersection patches.
3 `5 e" @' Y) T$ h" j' b auto? ;; whether or not this intersection will switch automatically.
0 O8 d r4 E! n: i7 U ;; false for non-intersection patches., W( L+ W; I* i! K) n* j* l
]" p# `2 ?* X) l* M
5 b" A/ O* F. a, u' o: C
6 P/ ~: Z. [8 r5 V& K( ?, T;;;;;;;;;;;;;;;;;;;;;;
2 H3 ^& i* t& n. z3 a;; Setup Procedures ;;
% L1 d% U& T3 n9 l( _% j;;;;;;;;;;;;;;;;;;;;;;
$ t( V* E' d( G7 m
7 J* Q& ~! Z4 f4 b3 @$ L/ x" m;; Initialize the display by giving the global and patch variables initial values.
# H9 L( v5 |9 [5 Y) x' [% e; L;; Create num-cars of turtles if there are enough road patches for one turtle to2 q0 z5 i! g Y/ |- X, e
;; be created per road patch. Set up the plots.1 z$ i5 x: |& ~( ?; \# k: ^
to setup
' x' O5 T# t! H( t6 x ca& R% s2 m- L/ `% B
setup-globals
" F# p* J: ?: V" J5 P$ z( _9 @9 r0 O3 q+ l0 _, T- q5 t
;; First we ask the patches to draw themselves and set up a few variables
* W& }* w7 w1 c4 Z O( q" l setup-patches7 N2 y: m0 F Q$ m& c
make-current one-of intersections% u4 z9 X7 A/ K- @( c
label-current
+ c& V. Q) T* f3 r
' L" A$ r+ ?- R. X/ `. E$ P set-default-shape turtles "car"
- `) h: t- o0 F: k9 B8 C+ B6 F1 X0 Y% p {4 A( ^8 v
if (num-cars > count roads)1 [8 {3 s5 V' Y: L
[7 u) G' S; L$ ]) x* N7 v2 Y
user-message (word "There are too many cars for the amount of "
0 s0 y$ {- @ ~+ [# {7 h8 t; C* z "road. Either increase the amount of roads "
' n1 I' y, J8 q "by increasing the GRID-SIZE-X or "
8 T' U' L8 {- G& d+ ]3 Y0 S "GRID-SIZE-Y sliders, or decrease the "
/ ?# L9 Z _$ x$ Y* P9 y' X9 P "number of cars by lowering the NUMBER slider.\n"
9 W, I: ^; M- c& d# E& x4 F "The setup has stopped.")* K8 d' ~- ]2 O' ~- ~& f. H
stop; C0 j' {( F; j
]
6 l: E$ f+ G! j$ A3 H" Q3 s
- E; A) `' j# S: _& \7 s4 E ;; Now create the turtles and have each created turtle call the functions setup-cars and set-car-color
- m3 x! a7 |; ~5 i4 a- | crt num-cars
" {% @$ Y6 p" g$ o, T: L [
0 s6 C3 T3 L9 `$ u6 |7 y$ G: F$ z1 ` setup-cars% ? I. T$ e% h1 G* ^9 t2 H
set-car-color
e# ~( v/ q1 |4 h, [$ Y record-data! w( t: G [9 r* ^2 J
]# D3 T/ s/ d$ X
% v) T$ @& t+ P* |" S
;; give the turtles an initial speed5 m; V; ~( O0 G/ j- |
ask turtles [ set-car-speed ]
% h: W' I6 `: `- o& \% o P, V% ?
4 B, j/ P( U5 A0 E: n reset-ticks: z% ?! l4 p' D4 p6 @, B6 D
end8 t! F$ {- I3 s: \8 ]3 ]
' a7 u4 r, I% @5 T) G3 B. `% ? g' h" f;; Initialize the global variables to appropriate values
2 {3 m1 t7 h* Y- n$ d# uto setup-globals0 G& v4 H8 \* m+ d( B; B
set current-light nobody ;; just for now, since there are no lights yet
$ k6 ?8 `6 @+ g C+ z set phase 0
5 H! ^3 Z2 t+ v R- I- d# |! [' r set num-cars-stopped 0
' [/ M. U4 ~7 y2 g/ g set grid-x-inc world-width / grid-size-x4 g" K+ j5 L5 d& x7 k4 h6 ~
set grid-y-inc world-height / grid-size-y. u% }5 I* P+ p( F! m
* A6 p+ i* {# l4 K ` ;; don't make acceleration 0.1 since we could get a rounding error and end up on a patch boundary
/ z1 ~) e4 J4 G" k J set acceleration 0.099( t) ^( N4 D- Z
end4 z5 I# I1 {) Z+ D5 G) v2 n) T$ F
- m5 ], `- w# v- l7 t- B) D
;; Make the patches have appropriate colors, set up the roads and intersections agentsets,, ~1 G0 k! k* k# T
;; and initialize the traffic lights to one setting& o; |& w. C1 n7 c
to setup-patches
) b* m$ |7 a3 ]0 M! C9 D# y ;; initialize the patch-owned variables and color the patches to a base-color
/ K% B ?4 ^0 \" U r4 l6 A ask patches
: D B3 E8 y2 G- N% k- @ [
% V* r6 u; H; X3 j$ P9 l set intersection? false
+ V) J, o: X) y. w& U set auto? false H; F& P4 K3 x2 o. X& T6 D
set green-light-up? true
; t$ P. C4 }: T8 Y( k4 T- A) U set my-row -1! U/ t1 l4 ^( n* [2 v
set my-column -1
! W1 W% w9 I9 r1 N2 x set my-phase -1% q0 V! E/ x5 y; C0 ?; p2 j
set pcolor brown + 3
( e, S! w) x* X: a: a ], B& m3 {9 B8 U0 H% J4 G% E' Y6 ?; ]
; X! X1 ]5 I5 k ;; initialize the global variables that hold patch agentsets
% ]4 I% Z5 k% @/ u) L2 p set roads patches with
/ c& e, G4 c; }7 |/ d, ]) R [(floor((pxcor + max-pxcor - floor(grid-x-inc - 1)) mod grid-x-inc) = 0) or
/ R* i' O% `" [1 P2 S+ y (floor((pycor + max-pycor) mod grid-y-inc) = 0)]
( q1 p6 E4 o, X5 Q set intersections roads with# M+ \3 c8 r- G* v
[(floor((pxcor + max-pxcor - floor(grid-x-inc - 1)) mod grid-x-inc) = 0) and% \ O& Z/ H0 P% L$ \
(floor((pycor + max-pycor) mod grid-y-inc) = 0)]2 I- B1 L5 \- R5 T+ A
; q9 \# r L0 Z E9 R ask roads [ set pcolor white ]2 F0 Y' I# O4 w/ @7 M
setup-intersections
- ]" R4 K0 b& Qend
, r7 K5 s+ Y% S其中定义道路的句子,如下所示,是什么意思啊?- M5 ]' c6 \; K! `0 p: |$ i
set roads patches with# v; ?; V7 W6 O1 w6 i" z
[(floor((pxcor + max-pxcor - floor(grid-x-inc - 1)) mod grid-x-inc) = 0) or
8 K' f7 r; C) S4 h$ X" S (floor((pycor + max-pycor) mod grid-y-inc) = 0)]
6 _* x5 |1 h- {5 @6 \# K4 y& D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? |
|
发表于 2012-6-20 08:59:43
