+ A b+ k% R- X/ y6 k /** 5 d/ U9 _" s0 j" ` * ) U# @! M% e% L e* p * This value is used to automatically generate agent identifiers.& U# g% }! r7 P$ E+ `1 c0 W
* @field serialVersionUID ; g: |( O; A: \. ] *6 h5 ^& O N7 n
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private static final long serialVersionUID = 1L% C% D% [% H5 l5 P6 O
3 O! J/ l; G' I5 K9 k. X) X6 y! P /**$ Z. n+ h) }7 ^5 F& _
* 0 Z7 ~. l# S( h) m; | R * This value is used to automatically generate agent identifiers., Q+ Z1 N" Z+ v1 J
* @field agentIDCounter % n% U( L, \( K# n- n+ o * 6 N8 O: y8 m7 m/ N1 ?4 V% A */2 n) n# y4 G! ~# m( O" T
protected static long agentIDCounter = 1 ! h& W/ z- E+ m$ g' ~+ X6 j5 f _- Q: y4 Q
/**0 l; j& U: p; V8 @% X/ l1 n+ [
* 9 X3 g- ~" O, @) k! D * This value is the agent's identifier.* }+ f, w) S2 s1 p5 R" L* X
* @field agentID# ^1 Y1 E; d- N4 J; a: |* s
* 4 R/ S6 s& k9 D$ y& q */1 ~9 |7 N& u) u0 `
protected String agentID = "GasNode " + (agentIDCounter++)" p% c/ C; u% X
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/**( Y4 f! P0 [4 d1 u! V; M! h' Y
* # M5 o0 E- m6 a; Z. n * This is the step behavior.. q- Z7 d( \4 Y$ O
* @method step 2 y% C% l# |$ R7 L1 u *# ^" ^. M. O. Z+ W8 s. f
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@Watch( * A0 V7 o* `/ i/ ?# O/ o1 L2 h) w watcheeClassName = 'infrastructuredemo.GasNode',. }5 b9 H- n2 W" x8 A
watcheeFieldNames = 'pressure',& P! |( P; e8 a' I
query = 'linked_from', / a1 o7 C" r- r, I. D0 b whenToTrigger = WatcherTriggerSchedule.LATER, ( l. F' _4 k% g* o scheduleTriggerDelta = 10d ' F$ o; X5 d9 H1 @ ) & Q8 C: I8 m4 y0 X, K# @9 G public def step(infrastructuredemo.GasNode watchedAgent) { . O+ K" [4 Y3 [1 [ 4 f i( H0 K& u; l9 q6 Q) g // Define the return value variable.- P" g9 H- E7 S" `
def returnValue- G6 t7 J* |5 a! s' b0 o
4 q+ o$ W) q" ]. n // Note the simulation time. " }4 ^4 h+ W: T$ z def time = GetTickCountInTimeUnits()" P% h% ]: e# z& c- @/ ^
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// This is an agent decision.7 u6 _3 T2 C) ]3 m2 ^! { b
if (watchedNode.pressure<200) { 1 f& i7 q0 S1 W- \ 1 t. Y* R% w9 k7 L. E6 |7 S // This is a task.- W5 m6 H+ W/ Q! ~! u
setPressure(watchedAgent.pressure) , Z1 d# G8 R. x/ I& e% i6 ~3 P7 K* o: u8 b0 D
} else {: B. p! ?" E2 q' R j4 S
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) ^% E" X5 Q$ w" p } / S6 R* [7 g4 [1 Q- @8 {# I# X( `9 \ // Return the results. % q+ j. G" R* p- a0 P return returnValue, j9 {, S# [ d2 w9 o. O5 e; D
5 p7 p7 T4 a* g/ ]
} 8 C0 |& m( O; s5 q- M( ]0 g1 I9 S, T# I% X. E
/**. m. _; r6 g+ v: j$ j
* 2 r3 ?; m+ u6 c; v& G5 X. M6 g * This is the step behavior. " u3 C/ s3 [7 `8 R * @method step: F# d! [7 E/ b# J, [4 |
* 0 k3 v: }# c0 p2 ? */0 {, M6 \) F) j# z) ?- a$ y J# m
@ScheduledMethod(* z+ C" E! J8 ` q9 Z; T7 G5 M
start = 1d,* }& @# ~3 o( V( s4 I7 m$ }3 w4 }# Q
interval = 1d,- k+ } c) S# [% { N8 X
shuffle = false 9 F3 X7 j# P7 n6 w )* |+ g/ }) {* D8 R- D; h
public void step() {2 T& b, T2 u1 ^3 E
' Z2 F2 v n" `" d* V. y" t // Note the simulation time. , ~3 [4 |! ^+ i N* B5 [ def time = GetTickCountInTimeUnits(); I% H* E3 ]4 w9 c* L
, x; x1 }! H! _* v5 ^ // This is a task.$ X) ^6 e* K6 N' h9 a z
measurePressure=pressure+ RandomDraw(-20.0, 20.0)9 h' x+ z( S. O' d. C' ?
// End the method. * e8 y, i& z9 i7 y( O# ~ return, P, L" q8 Y5 ~. }3 J( k% x
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}
注意,在函数step中 , T5 c. p- M* u; T4 t4 m: G public def step(infrastructuredemo.GasNode watchedAgent) {7 R! C& A/ Q- n( U
//这里是watchedAgent : I* Y) t, S6 ]; u 但是在语句中,你填的是watchedNode 8 Q) Q: V& r. o. ~( U5 c9 o4 g' u // This is an agent decision. ! I8 C' ]% c! Z( b5 a. ` if (watchedNode.pressure<200) { ! I0 T$ V; u' U
setPressure(watchedAgent.pressure)4 m- J |3 y2 K2 L f2 O
变量名称须统一,可以都改为watchedAgent
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发表于 2009-4-4 12:21:26
,请帮助解决 8 z) `6 Y! j' F( S. ]1 |