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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") ' n: Q' B4 o9 z public double getMeasured pressure() {5 N' A5 |3 c, \, J" `& I9 B, z
return measured pressure# z: ^- b: I2 I3 c4 l
}; Z/ K5 r# G- X. [4 N0 l, r
public void setMeasured pressure(double newValue) {6 j' x4 @( F( _/ J0 ~9 a
measured pressure = newValue# i2 L' @; c7 s3 ~) d T& C
} ' H$ E, w4 {3 u* X, j public double measured pressure = 09 h- p. L: w$ J1 P$ @( _7 c P
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/** 3 u7 E4 |9 V7 J$ o# ]: J& P/ W * 6 @; o# E5 p$ S( H) ~7 v$ z * This value is used to automatically generate agent identifiers.! U- U3 V2 N" n
* @field serialVersionUID: o: f5 A9 e* p. A# R$ e7 u* F% ?- e
*- L3 |8 v: Q, H
*/6 d' {! q7 c# R& p$ u, P
private static final long serialVersionUID = 1L) L$ d& z5 V5 W- g; a! x
7 [/ b, q, v- s5 d* [ /** , Y; [# `! S7 R: d+ `: ? *" E# f9 Z) K! s7 m% G
* This value is used to automatically generate agent identifiers.; ]! R; z F7 s- M( b& ]! X( b
* @field agentIDCounter 7 v$ m9 ~; H' k' L *0 v5 K% `# X5 d, |8 z
*/ ; d! m) M6 M+ W% p8 ~ protected static long agentIDCounter = 1 & H4 C6 t; D7 g- @- \# W2 N7 ]3 o# I& w( ~8 ?3 w# z) K
/**$ @; l0 e6 [2 n+ }4 R) N8 i3 x
*: u- q# ?- E3 c% i9 F* |- m8 C" w
* This value is the agent's identifier.2 _7 j" T2 Y0 M% ~
* @field agentID , L8 \( E5 ]4 L V# h; M& F" y * , c5 E Y( o6 x* B% V) J* N */ ]! |5 n( R" Z7 N4 P& J6 [ protected String agentID = "GasNode " + (agentIDCounter++)2 A8 Y3 ]! b% Z, N7 ]/ u* g+ n8 D
+ ]! J: n1 P5 H) g" p4 I5 ^' Y f /** 1 H! F n, A: @) i4 J; U * 3 S! O8 }- ^: W& O * This is the step behavior. : d! P/ E$ [4 G8 @1 X * @method step9 e% z% d: Y- K7 }1 }1 i' ^
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*/ , t) y- r' q7 M* D; H @Watch() C9 W! ]4 P# [
watcheeClassName = 'infrastructuredemo.GasNode', k% Z) ~# r" P# }0 d9 R: ]' M; r* N
watcheeFieldNames = 'pressure',+ V8 D3 V3 s. D
query = 'linked_from', 6 F% ^4 \& P5 r; p/ g whenToTrigger = WatcherTriggerSchedule.LATER, 8 q* V T6 S4 l+ C( Q% v# ^: u scheduleTriggerDelta = 10d I3 [; ]6 O1 m8 X6 E: ]. b* D3 Z ) a; x6 B* A% j public def step(infrastructuredemo.GasNode watchedAgent) { ' T( i# Q5 k" [ f( Z- n7 b % q% H# K/ Z5 h# G$ ? // Define the return value variable. 4 g, ^9 J5 K5 f2 C: P) ~# @+ V/ _# x def returnValue + r+ g8 T' j3 b' T" e( f. f$ d" D# ~& g. {2 e, E: ^5 p. _$ v
// Note the simulation time. 3 w# l# P! D; c" O. g def time = GetTickCountInTimeUnits() 5 p9 w7 d9 J n/ P+ t! c" k9 b1 v+ @9 W% [$ V) N
`: s3 W7 ?7 Y4 {, H // This is an agent decision.6 S ^9 ~" F. u6 {7 M3 u8 X
if (watchedNode.pressure<200) { ! S1 }5 j+ H" I ~1 h1 C# k) M( p5 X
// This is a task. V5 C" n4 L' O5 o2 ~ T) h0 w
setPressure(watchedAgent.pressure) 3 O6 S/ j/ _0 e% _* P4 ~$ f$ h 9 k: p/ j' k$ i) m* ] } else { ( S3 C" C& S( M" g/ T+ h1 O. b- g- N# ^$ X- B8 d5 I( R+ c7 E( z! l4 M
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// Return the results. ( f# u8 G/ S2 r& s- ~9 O- @% G return returnValue& u* r& X9 r1 E, g/ _
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/** 6 z6 H4 K6 c! D, b" ]8 M3 O * $ J8 X1 O8 @; \. p( A: ] * This is the step behavior. * J) f. w) K, Y+ B * @method step 7 {1 W: m6 M2 R- ^. N2 E+ x * $ |+ X: s1 F# g5 j */' o. v6 U0 M; M( G! D, V
@ScheduledMethod( 9 Q1 S9 e3 N% I) s! d! w- H5 K start = 1d,) E3 C& u+ L" a
interval = 1d, * U1 Z( H$ Z) A$ Y8 ^: I" T shuffle = false- L; h& m: _8 G) X2 m
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public void step() {; Z7 m8 j( Q3 ?1 L4 d6 y
; Q9 D7 K& {5 m3 e; P8 z // Note the simulation time. # F' }7 J# f" E2 { def time = GetTickCountInTimeUnits() , K( Q4 x6 ~9 f. m' y , l$ g& ~& z5 M3 n // This is a task.& X" X6 \1 k' U' R i* U0 ~6 `
measurePressure=pressure+ RandomDraw(-20.0, 20.0)! E+ b) g [$ ^9 H0 |! `
// End the method.6 C* l: b1 d! e( U# Z X# N+ t
return 7 i2 U5 x( c+ a0 D- f7 B 1 T* i- S% D0 Z$ l1 Z c8 E0 T }
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发表于 2009-4-4 12:21:26
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