# K, [* Q4 l0 i, ?% T+ T@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")" `8 h- g' N: i+ N/ n% k# X1 S! f
public double getMeasured pressure() {" E4 @2 @1 G% m" a6 R- o! Z
return measured pressure; s7 S1 X6 g5 j3 [$ r6 v8 X
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public void setMeasured pressure(double newValue) {- g- g8 V; m0 p
measured pressure = newValue7 K- @- \8 |4 d, c& E( K
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public double measured pressure = 0 . B4 N2 L* w* \1 C7 h; M7 a. s5 `+ ]
/**" \1 k) }) I: t8 Y V: y# P) x
* ; ~9 O/ M: V. g' F7 u * This value is used to automatically generate agent identifiers. 8 Y Q* r* x2 N4 P * @field serialVersionUID 7 ^4 K! Y6 A# | h * 5 l! p6 t B. b0 {0 ?5 L) y */ ; L" R! R1 \% o, r/ n# _ private static final long serialVersionUID = 1L ) F8 z9 u8 o7 M: e: O, A& M2 D3 d, C+ |5 p- s" ^
/**/ H0 R, ]( Q6 j1 m7 z4 n, w
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* This value is used to automatically generate agent identifiers.0 f- v" u: M9 `- A
* @field agentIDCounter8 G. p W9 w8 ~5 h
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protected static long agentIDCounter = 1 6 ^% i, |: h/ @, l: S" T" n$ m' A6 o8 p# `
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* This value is the agent's identifier. . v; S# Z8 M8 @* a4 Q * @field agentID: T6 |/ p) F2 w3 T3 |- e
* 8 j; Q& v6 x& y) ^/ }. F" w& _2 @ */ # `# V+ h' }# q. t5 B7 L protected String agentID = "GasNode " + (agentIDCounter++)4 G6 {1 V* o6 t F) [. R7 n7 D G
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/** ; g6 B: R5 V! J4 J6 K7 l/ Y3 X * % W( z0 H2 g7 x0 D7 N8 Q( E4 o * This is the step behavior.' {8 g& s+ N, S& m9 k
* @method step & u' P8 l/ `4 ~) v2 \ * " Z: `2 V) c" J, @/ H$ } */3 U# k; @0 O7 o1 n; q' U7 y- O
@Watch() M4 B7 y+ d$ A8 b3 j6 f8 _9 K
watcheeClassName = 'infrastructuredemo.GasNode',8 ~% v ~+ p" j/ [1 N% K- R5 k" o
watcheeFieldNames = 'pressure', 1 }) y* S/ ?' t9 }8 p query = 'linked_from', _9 a! L" {3 `, Q6 X- D) p; l6 T
whenToTrigger = WatcherTriggerSchedule.LATER, 2 {( b! \ |) w6 }3 u, H7 ~$ j scheduleTriggerDelta = 10d - ?! O1 i9 r& Q+ ]9 t ) * W9 c5 L4 X4 K: W public def step(infrastructuredemo.GasNode watchedAgent) { / ?3 \' x1 C. s! T, y5 m; G5 h3 F6 F/ f3 J* v
// Define the return value variable., }+ I/ W$ J' f" Y. ~- ]" q" H! t
def returnValue7 e& F+ M8 c% ~& t2 p
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// Note the simulation time. ; L4 Z- m4 U4 }8 E7 V def time = GetTickCountInTimeUnits()' v( G8 X( j3 U# R- Z' R9 k! ^
- a% G3 y! n& L# b) S N + t6 y+ O$ q( U7 l! Z // This is an agent decision. 7 a. d7 f* ]& z" a3 U) j7 ? if (watchedNode.pressure<200) { * M Z+ r! t, J# } . p" }' c& D. P$ M // This is a task. , F$ [: y9 T* v$ o& h- ~5 F* d: C setPressure(watchedAgent.pressure)" V2 T. I0 h# d" x
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} else {( L( p) b0 c: D ~! D( J
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// Return the results.4 s0 Q+ y( ]! ?8 q A$ Z2 K
return returnValue3 w' \( p5 ]: {1 y- J
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) U" P, r) h& M5 W /** : E; o* P5 i3 G5 O! w& p, j( C, n * ) J1 \( g, ]* X. y, g2 K& x7 j * This is the step behavior. & W* {! U3 Z* ]; a9 I8 V * @method step$ a! I/ x+ Z! n! O: |% E6 K
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@ScheduledMethod(; H" t) Q3 G I1 K# Z+ z
start = 1d, & f3 n" [/ h, l+ M# Q0 ] h interval = 1d, ; T9 ^/ x, Y, ?/ T% ]) M0 { shuffle = false" s' @9 }8 x4 e" L8 n
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public void step() {) D# g$ n( ~% s) h1 u
; r4 p5 Q* Y) ^ // Note the simulation time.! o& q2 k1 W+ W ~) N! x* V' d
def time = GetTickCountInTimeUnits()$ W9 }. ^* ~3 H5 @7 K
9 i% h3 Z- F p! V, {! x // This is a task. 6 J1 }. X! g' i6 o8 ?' y& o4 h measurePressure=pressure+ RandomDraw(-20.0, 20.0)% y- t! @1 H1 e9 w( ?
// End the method. * K0 X# [6 H6 m7 ` return / d# p0 g; H" O+ ^8 p K! z% N( X& Q$ S W+ q# a0 q+ e
}
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发表于 2009-4-4 12:21:26
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