]6 Z3 k8 h# q; s /*** a, S& ? r) @& G9 o1 ]3 I: p
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* This value is used to automatically generate agent identifiers. * @& ~4 P- w# z. b7 o! F * @field serialVersionUID5 _8 L' X$ M. ^8 z5 O
* / K( W) T# g) X7 I# p */! ~- F& { U; d7 d, H
private static final long serialVersionUID = 1L$ o# [" X; ]9 w7 ]7 { A' t
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/**: P( I& K9 E9 a
* ; {$ q) C: a* |0 p * This value is used to automatically generate agent identifiers. 8 t5 ]1 w+ T1 c, I& E * @field agentIDCounter0 G' }% P& j" l- C' }1 X
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protected static long agentIDCounter = 1 ( L: c+ v. N" Y" m+ e* F3 D/ ~2 a+ O. j% ?" F) r5 l
/** ; S0 C$ X, N) H% P7 l7 b) O6 L+ O * ' Y: e# ^ ~5 M5 \6 G4 t( |/ q * This value is the agent's identifier. 9 j w& A4 V. V- Y * @field agentID 4 C* v& e. N5 c * ! Z! K9 l) @- |0 [; ]9 h+ L4 j& G *// T! v; T4 l# |. x
protected String agentID = "GasNode " + (agentIDCounter++) - S' o+ Z2 ]$ y) U0 ?' X) ~$ c4 m8 M" [; N& F- j" r* N7 }- X
/**3 `6 t6 t; V6 p; O; T
* 5 I& B% o( p1 K1 ]0 w) c# K8 A * This is the step behavior.' }( q$ F7 w6 L8 q
* @method step , Z/ X4 H5 o8 z+ b7 L1 Y *! \0 z- v9 d/ }' t2 ]: n; S
*/ ! n7 ^2 B9 Y+ W/ Z& L' [6 M @Watch(; o& a* a" d; b. Q. G5 r5 N
watcheeClassName = 'infrastructuredemo.GasNode',2 Q# y! v, {1 \, S# @! y0 h
watcheeFieldNames = 'pressure', W1 a' C/ i% f. s# Q8 M* | query = 'linked_from', * V" H7 E0 Q2 T9 n# Q; H: } whenToTrigger = WatcherTriggerSchedule.LATER, + e: O2 x0 E9 y# ^" K/ Q7 b8 x scheduleTriggerDelta = 10d " V1 j3 x8 j1 l, ? )3 e d! [ {% i6 W2 N
public def step(infrastructuredemo.GasNode watchedAgent) {# l5 A+ M- t& L
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// Define the return value variable.5 s& A7 _; _! i1 b
def returnValue # T0 i- M; J1 M * z( n1 J& M9 P2 |# O // Note the simulation time. * n2 E# f, U3 C1 I" r: L def time = GetTickCountInTimeUnits() 4 e9 K! N- ^1 d f# j; q% y' |1 d, G! K4 X$ D( h2 f# o! Z2 r
9 l# o. T- C4 i // This is an agent decision.2 i$ g" V3 Z' k- r8 ~7 j
if (watchedNode.pressure<200) { ! t/ N) n8 K! R6 e, L: J* ?3 b/ e) D. W! R. m& W
// This is a task.! S6 H% u: ?: C- U% F, p4 A' W0 r K+ n
setPressure(watchedAgent.pressure)' | v H5 E! d! {$ U
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} else {! x6 D# i, M: I1 t$ R7 A s0 W
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// Return the results.: c8 D4 m# ]: @3 i. s
return returnValue * [8 N7 W! K M O- F* O- j9 U+ F/ B& L
} ) k9 k* T* d* L6 ]4 n: N: ` $ S ~# Z5 j0 [3 Z. F9 }+ ~ /** / x2 R( l4 p4 _7 @ * 2 U2 ~4 R* @2 v3 X8 D$ X8 T3 T * This is the step behavior.) R2 ^, n& ^" G# V' r8 _+ J$ s
* @method step" j1 G. U* ~9 W- ]8 F# s
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*/ : g0 @. _- f& r0 `( G @ScheduledMethod() M. A, G3 o1 s f+ n' l6 s& Y; T
start = 1d, - e0 k6 P& @& w4 S* A7 f7 k1 {$ O interval = 1d,/ y; c: K3 P0 @8 @( C y
shuffle = false 3 m4 @! ^% i5 M. b ) % t9 A1 l* R f# r! A. L public void step() { ; j0 ~9 j0 o% U, W' \ 1 p# Z9 Y' W2 p7 ^, K1 x. N // Note the simulation time.3 b, M% z4 r0 n( y
def time = GetTickCountInTimeUnits()% |' \2 ~2 ~2 e) q+ o0 O
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// This is a task. ) Y6 w: A: |% Q6 l0 e' y% I measurePressure=pressure+ RandomDraw(-20.0, 20.0)/ e' y: e; K4 |4 j) s: ^+ ]
// End the method.- W! f+ n4 J7 R
return / F$ K, f2 m, T0 l3 i. Z% \8 V3 {7 S6 ~+ q
}
注意,在函数step中. c$ R: `3 h$ x. w. U7 P7 r/ i
public def step(infrastructuredemo.GasNode watchedAgent) { 0 B0 J; @9 K- w& f, d //这里是watchedAgent 5 i5 j( c6 v* ~# T E. ~4 R 但是在语句中,你填的是watchedNode 6 g7 E/ V; k! f. k // This is an agent decision. 6 P9 z2 s u) w& X$ x) \' p if (watchedNode.pressure<200) { & X, p% p: ? m) K0 F, s
setPressure(watchedAgent.pressure); R: O g7 c; N! j" j
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 