( n4 \$ o# j1 C9 |5 r% R1 V@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") ' G9 }4 p+ p0 Y1 f$ P public double getMeasured pressure() { $ U' J; w9 y' Z return measured pressure + o. m1 ]/ ^) W# \! o4 N } 2 p; C: a$ s- c# F0 V( ~ public void setMeasured pressure(double newValue) {" s( ?* a. Y& A" Y( u
measured pressure = newValue) G7 m9 Z! Z; w7 V) @% N" T
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public double measured pressure = 0* ]% x# u' g( D( e' a$ j8 h& K
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/**7 W/ i! \# u+ y. g
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* This value is used to automatically generate agent identifiers. - `, w2 V1 \4 A% x l! p' C * @field serialVersionUID- C+ j8 v- k& z+ H4 ` {- G
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*/ ' f% R$ A8 e1 q. r8 e; d& O1 M private static final long serialVersionUID = 1L0 U) a E$ U! ?* i
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* 2 y. |& B9 x: } * This value is used to automatically generate agent identifiers. 8 P. a' P. L. K. R * @field agentIDCounter & J, z: A+ J3 J1 j2 E *) y; n& J! ~% o0 O2 _4 }4 @3 D
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protected static long agentIDCounter = 1) b/ _7 g8 D1 A: r- G# {
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* + N& L4 A. c6 J" n# _6 P * This value is the agent's identifier.# g) y; e$ h+ o+ @7 R7 q
* @field agentID " |) J/ g8 K0 Y *5 x% N3 E& w& r9 Q/ x
*/ " e; R2 k4 E! G4 [ protected String agentID = "GasNode " + (agentIDCounter++) . q5 @! j8 g# [. r8 e% @( P6 X' W5 C; N3 h, W
/** 2 V8 a$ w- b! `7 @2 o* p. O4 L9 I * " H4 p+ K6 B- c9 ] * This is the step behavior. " }3 \7 o& v: d7 M# S5 v4 v * @method step 5 }: X) \8 c6 m$ z: ~ *5 c4 V3 o" m; w
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@Watch( ( h4 {- Z8 N. G& m watcheeClassName = 'infrastructuredemo.GasNode', : t/ B" Q, P" K9 T, M watcheeFieldNames = 'pressure', ) P. V7 [; r4 h. c/ _ query = 'linked_from', 7 N M" k' i7 A) J+ L m whenToTrigger = WatcherTriggerSchedule.LATER,! ?+ i( @) z: h- C0 v
scheduleTriggerDelta = 10d, l' i$ l! k4 L7 w* V
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public def step(infrastructuredemo.GasNode watchedAgent) { : ]: d$ q" R6 F8 q& f + A1 C% U' x$ a // Define the return value variable.4 x1 a1 J0 K! _/ \' d9 v7 Y# @
def returnValue1 W1 m) l, }( ^, A+ b" d1 z6 W
/ z& T1 S. M: z/ n$ e // Note the simulation time.) }' a* M3 t. @& L/ O
def time = GetTickCountInTimeUnits() : J& K# B! ^' D$ [! o/ u1 b* `) k$ ^ \1 l9 m
/ |# v- a4 X* }9 K; U3 m // This is an agent decision. + @/ k, ?2 T$ C+ q1 v7 c if (watchedNode.pressure<200) { ' p0 l; H. q. N+ g0 X6 N" k& ?: L # F+ E# N5 m, ?% p8 K: K3 F# X // This is a task. 3 h6 T3 E& X ^/ S* F1 u9 B$ s setPressure(watchedAgent.pressure) 5 y$ G. y9 v" I* i 0 D3 v1 S& p0 w U# C! L* w4 ] } else {) x/ s) k8 {3 J8 Y- F# b- F
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// Return the results.; K. b- g {2 y: m# x7 P% C
return returnValue* W+ v3 w1 o1 c3 ?+ W! Y
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* This is the step behavior. ) X3 k; c. N# ] * @method step * n9 n o5 M4 [3 y/ D: O9 x *. Q' |) L. m1 B4 x D$ @
*/ 0 Q7 J* n0 K9 a* {* M: P. _ @ScheduledMethod( 9 a$ ]! G9 \: \- a9 s4 } start = 1d,2 e: \$ l8 K$ [- y# h* D/ r1 Z
interval = 1d, # O7 m( t |1 w& V1 O6 y shuffle = false 3 f d- i( \: p7 Y' m6 v )$ S7 e3 A0 }2 Z% Y3 h
public void step() {6 z) P1 J& h' v1 ?4 O
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// Note the simulation time." D+ ]* k$ S5 y8 c3 ~) X& \' U9 X
def time = GetTickCountInTimeUnits() 8 b/ c. K E$ ]/ F! s1 |* A% F* }* o0 b4 f3 B; | B! P' ^- Q
// This is a task. & y: ^4 X/ D: e r9 y# z measurePressure=pressure+ RandomDraw(-20.0, 20.0) . E2 ^4 J, P$ @ // End the method. : s% D$ H ?% R4 { return6 d z) T% p8 {
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}
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发表于 2009-4-4 12:21:26
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