' h2 E4 a5 J4 |5 y7 F0 ?1 M 0 M- f. o' [# Q/ M9 r@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")' A# i# p* F$ m
public double getMeasured pressure() { ' a6 v6 D0 c+ N! h4 v! C' [: Z0 r9 k return measured pressure 9 b- h# |' y6 M4 D }" x& U) I2 D9 l$ `2 H; h7 E! f$ N
public void setMeasured pressure(double newValue) { x- L8 F4 b8 A) q
measured pressure = newValue 1 L: d" q7 b- e9 G- |8 J6 ^ } # K; }; W# @. S public double measured pressure = 0 ! c k& g7 ^1 u/ G: J% ~7 t' L# }: ~4 [3 [3 Q1 A# a. l' F
/**9 p& e2 y$ c) f0 A# p2 e# M
* ( H) F q1 \1 [! T * This value is used to automatically generate agent identifiers.' D3 F3 W, K8 f# h) H# X0 @% j
* @field serialVersionUID! z# X0 l9 W1 g& K
*$ r2 M/ B5 v/ ~9 D0 Q( H
*/ 2 q1 w2 V6 s, M4 b private static final long serialVersionUID = 1L: S; j0 D/ M% `3 z$ O# V' B
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/**# p' D9 J; _- B' i$ m2 o
* ' f* p8 [/ [. m: Z* I6 v * This value is used to automatically generate agent identifiers. y3 i) K# `% s* { * @field agentIDCounter4 q1 ?1 _9 B8 Z/ e
* . k- f% t i& K8 J */ / U6 e! m& P4 I) D) { protected static long agentIDCounter = 1 ( {+ e$ U* N/ T, g3 g7 q# i 9 q3 }# N* }& d e0 ?& \' O) K! W7 | /** 3 h- o) B' d! R; l) F9 s2 Q+ K * / j# N. `6 B5 e1 A# x * This value is the agent's identifier.' e: M0 m) @# Q; `/ f# R" g: }
* @field agentID : I% T- N0 ^0 @& h; v: p1 ]1 D * + C$ p5 @* {7 J& n4 R4 { */& l) R5 P) v. |0 y
protected String agentID = "GasNode " + (agentIDCounter++); S* t: B/ @2 x1 F) m9 I
z. }% N8 |0 h
/** 7 j1 A* R% X1 o! I" ?" g *9 m. \$ b8 _/ [7 l
* This is the step behavior.6 v% U* Q& |( W" b( @; o% C) \5 ?
* @method step; @* x3 U0 L5 T
*; a8 I6 ], W7 \4 S# @
*/+ a: l9 Z T3 ~% M1 g( {
@Watch() p3 k& I, \9 W; B
watcheeClassName = 'infrastructuredemo.GasNode', ( S/ t) r" D' B+ m8 ` watcheeFieldNames = 'pressure', 4 V$ f o, {# b6 H3 L' e query = 'linked_from', + `7 y6 ~; ^ ]5 x whenToTrigger = WatcherTriggerSchedule.LATER, 0 F* m9 ~+ }# @" D h3 h3 X$ ~% U& e% D scheduleTriggerDelta = 10d! B7 H' P6 E0 m
)9 } G% K0 |1 ^. W% ^% l
public def step(infrastructuredemo.GasNode watchedAgent) {" X% j' C, N( N
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// Define the return value variable.6 h! y+ e% U: v& }8 [
def returnValue4 d2 a' ~6 _0 d, [2 U/ N- F
) { `; n7 I3 h) R // Note the simulation time.; y! K( J# `; S4 R* q
def time = GetTickCountInTimeUnits() * h( }+ g; y; i ^! n- U 0 O3 e H6 ]: K8 F ; X( \7 Q% P3 q& z( n% c // This is an agent decision.6 G& l. q: B' Y8 x
if (watchedNode.pressure<200) { 9 [: x* O( _/ p+ i H' v6 K9 L- Z/ x( b // This is a task. , w; E" O7 b# K/ K0 Q I$ N setPressure(watchedAgent.pressure) % s3 _; z7 A+ v2 n" d) O. R8 a 7 E: w) E+ y2 p, J } else {0 E3 q3 t$ J W# l
j0 a# a* H, B1 \ : r" k: v( w0 t5 h }4 S5 d* [! s4 X$ F1 i6 h7 \
// Return the results. 5 T6 C2 S2 S% Y; \/ [' ] return returnValue8 C' T( l- o* r5 N$ K
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/**2 ~: `4 K8 u' n2 S( G% S
* T; D2 k$ \- \3 s' s4 x% h9 L. I
* This is the step behavior. 5 E! @6 I: ?) T; q, ]" L * @method step% I% i: Y) e& L
*$ f+ m. }5 u3 v
*/ 9 S! X" A8 b% w- r @ScheduledMethod(6 Q0 O: o$ o6 R% g# r u
start = 1d,4 G9 w% U. T0 f( z1 I' ^4 R
interval = 1d, 7 k( F B+ V2 s* D. u4 H shuffle = false + B5 @% ^5 ^" m3 e) O# I( } )* [8 z1 I) M, B# @
public void step() { : ~% F$ x5 ~' ?# H( y* s+ E; s/ M + J( d* m- x& x. Y' b3 B // Note the simulation time. " h, U' B9 P" L def time = GetTickCountInTimeUnits()- w8 k9 x% u! b& i p% E. v
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// This is a task.: l; ]$ M4 ?/ R& A
measurePressure=pressure+ RandomDraw(-20.0, 20.0) / {7 l ]; u+ D8 Z // End the method.: @% L; N1 p5 z5 ]; q
return4 E7 F8 ]" ?/ i ]8 b% G
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}
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发表于 2009-4-4 12:21:26
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