' p* k7 z+ G; B5 O: A6 ` $ E5 z2 H% v( }! Q$ n8 t@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")* G X! H$ \) u0 n9 c/ w" s: T$ W
public double getMeasured pressure() {8 g3 G* Q& D' U& E0 e
return measured pressure 6 T% U2 T- {% v7 k' h5 C* t6 n } ( \6 Q' c$ d$ B0 k public void setMeasured pressure(double newValue) {/ m& [: H Z6 h0 R) z- a% l& _$ S& i
measured pressure = newValue 2 X# ^6 `6 Q7 ] } + p. P/ |8 a& l' p; t public double measured pressure = 06 u7 c$ Y) |& Z4 i" n7 _/ A. \. @
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/** 9 o0 J( w. P! {9 E! a+ ?. g4 O *8 B/ b8 }- E3 d, n' W7 B0 Y
* This value is used to automatically generate agent identifiers. . c+ i: K: r; L; o* W * @field serialVersionUID 3 ?0 H3 f X5 [) G$ j * Z4 z( a1 x8 v0 N# n1 X */ C0 P ^' P/ a$ ?% T6 s! f F1 G
private static final long serialVersionUID = 1L, f( P9 P1 R' G6 i$ i
U( W+ P: G' } /**/ _# O& f/ N7 l# @1 t/ H' F
** ~2 {; P/ Z7 k" N @
* This value is used to automatically generate agent identifiers.+ [2 a% p" g8 a' y9 b2 \% d
* @field agentIDCounter . b( ?7 {& u3 `. b5 q0 b *' f# k" F& x9 a
*/ : B# J, [9 ^4 U% i' K: ~% F" l7 M protected static long agentIDCounter = 1 ( [- r, _! J1 ^( [& E0 ~ z s / R3 R- }# [$ s /**) v( g1 S* n, h
* 0 j# }: v" l7 C- d9 f; P/ d * This value is the agent's identifier. : r$ W! X! P/ Q8 ~ * @field agentID* c# a+ {2 P/ B+ B+ E" b
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protected String agentID = "GasNode " + (agentIDCounter++)- O" p! P1 x, H/ [8 h5 l4 N% r
/ ]8 g$ c8 A- v /** O& G! S k' B
*( a8 g7 A5 b* Q4 Z$ C
* This is the step behavior. & z; y6 X$ G8 R: Q4 P* o, f+ U * @method step% c% D B4 u4 n
* 5 J" n. i7 ^& i$ l+ ]' d */$ h9 U5 D3 O4 W
@Watch( 7 ?: v4 q3 ]( J, ]4 g- i watcheeClassName = 'infrastructuredemo.GasNode',- m# K& j9 X' [& u
watcheeFieldNames = 'pressure',7 [9 o- ^1 X; ^; ~. J
query = 'linked_from', 6 q' D; F% N: Q whenToTrigger = WatcherTriggerSchedule.LATER,- k @& m8 g9 @8 c
scheduleTriggerDelta = 10d% M8 \; h4 B; X! z/ g9 G8 e
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public def step(infrastructuredemo.GasNode watchedAgent) {% c6 x0 G& L0 e& K3 q6 k7 O
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// Define the return value variable. ( ]- Y0 z, D2 Q% E0 }& }, _ def returnValue * @8 F' X, Z8 W. u" E% k5 W3 L5 h4 C( l
// Note the simulation time. 2 ~) H2 \7 I# \( D+ M6 `/ V def time = GetTickCountInTimeUnits()% h; c2 z7 K+ i5 k% B
5 Y/ n' _& y# U/ y3 o0 } & W* G* l4 z' A3 [ // This is an agent decision.9 B) M/ `% F( i5 h
if (watchedNode.pressure<200) { ' D( E k" W% j. G 8 B* N: U: {4 U _. V/ g- e // This is a task.) I+ j! H& w4 C! o# {/ x
setPressure(watchedAgent.pressure); t$ @) B& t% P/ B. B2 ]
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} else {5 {( I, @8 p' j" Z" [9 F4 o: j
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e, X# `9 [+ { }. }8 g" s0 s/ m! t9 M: \/ H
// Return the results.9 g: h0 u8 g5 @. a' H& L
return returnValue 8 _* w+ c- u5 x Z( ]/ `; t2 U; j6 c ~. T0 D. |" @
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/**5 d: V+ O: ?; ~( O! ^5 L+ Q" `
* 6 R* @- V5 [ }/ G' l. [ * This is the step behavior.2 x3 b7 o, O5 o; {! G: K
* @method step1 i6 ]" b* ^# d" a( `2 q
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@ScheduledMethod(# d V1 ^; ^$ H" r( q6 c
start = 1d, # }4 L, R: T1 R) G* u) [( q interval = 1d,7 O+ a1 x* |2 Q4 ^' e @6 p; L
shuffle = false2 c D0 ?2 K! J& m) Y# a" j
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public void step() {4 W5 E, V$ x0 S" ?# K/ D
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// Note the simulation time. \$ [( U3 p6 v7 N% o# M def time = GetTickCountInTimeUnits()% [/ u& b' O2 m+ K. j8 \3 ?) z: x
1 T1 k3 }" J& i: b$ [1 C& Y3 T // This is a task.0 x, h% c; Q& l6 `/ s' ^
measurePressure=pressure+ RandomDraw(-20.0, 20.0)1 A; F; \) J! G0 S0 U
// End the method.' D/ U- }3 ^: X, N9 j. ~( h( q7 v9 ^
return W5 B6 D/ Q( c+ a2 Q$ r( U ' U( u8 Q6 s$ E5 p6 O2 j' s }
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发表于 2009-4-4 12:21:26
,请帮助解决 5 U! o; {1 X% ?