0 m2 e, P" Y" D' z@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") C* i- P1 d6 R2 ?1 X4 s5 ], d
public double getMeasured pressure() { ) N) P; `9 d* ?; a) |: X, [ return measured pressure 1 w+ G0 k# D# w! u/ H5 x } 7 D5 B" B6 e( a% I. G public void setMeasured pressure(double newValue) {7 I4 V# _+ H! P0 H C
measured pressure = newValue& p3 @ g. k3 }4 I8 Y9 @- [. P
} o7 H" K0 q2 T6 m3 Q- U% O1 n public double measured pressure = 0 6 @# L, D J0 g, z4 I7 l p. o# Z" R5 e- c* G* P; w+ q; X9 r: i9 T
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* This value is used to automatically generate agent identifiers. - R/ U/ D1 J7 f6 ^& z5 [! x, m) h * @field serialVersionUID- {4 X( j0 }3 w5 k
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*/ , r* _7 h1 e( x$ R( m+ X' g private static final long serialVersionUID = 1L 9 h; b+ ]$ x" S5 e& n; z- c; v1 D( L9 K* j8 i
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* This value is used to automatically generate agent identifiers. , R/ h+ e I: r- f6 N; R * @field agentIDCounter , X- X u( h2 t. a4 X * J; Z0 t6 O4 |/ a* l% a */% x; Y% x. Q! }: s
protected static long agentIDCounter = 10 \6 t3 T3 p! |; {8 ? y' D7 i
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* This value is the agent's identifier.$ S9 r: J- T7 Z/ T/ l" c$ p
* @field agentID2 c' Q. o" S: v4 [+ c" M
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protected String agentID = "GasNode " + (agentIDCounter++) & m! y! i' n& v: F/ V1 V" K! U: ^; N! Z' C% M* k$ N
/** 5 @9 _! x, u' u4 K% B$ k! P; b, l *2 _' m) [+ p5 F5 i6 S8 C
* This is the step behavior. i/ n9 c- _9 O v8 ^ O4 W1 E
* @method step; Z R: J. O3 }: { ^2 u
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*/ 9 s' h/ [+ T$ A" h: ]6 o @Watch( . U1 t* }1 s, S/ |3 b9 T8 h+ ~ watcheeClassName = 'infrastructuredemo.GasNode'," _% l( X' U$ n
watcheeFieldNames = 'pressure', " m1 i' g2 f- F( U query = 'linked_from', / o+ |# U4 u' d, d8 i whenToTrigger = WatcherTriggerSchedule.LATER, ) L; o) }8 c: ` f# s. r' m scheduleTriggerDelta = 10d; Z8 X: }1 d5 E" t# Y' ]
) 9 k3 h% a$ g& S+ Y( w: g- o public def step(infrastructuredemo.GasNode watchedAgent) { % s3 \. ^$ |' v2 G! U5 ?. w: J$ X2 C # Q- S$ p; F/ t& K' a) W, @; k // Define the return value variable. ' M7 P" N0 H* o3 V r7 } C def returnValue # Q# s ~5 V. g3 g$ G8 y3 B; R4 |, d
// Note the simulation time. 6 C4 c4 P6 u( [( w& d9 ` def time = GetTickCountInTimeUnits() & q9 c5 Y8 H$ M" v4 T5 T) Z - U$ l2 _! [0 ~5 e& `/ L$ a D6 \2 w( M$ J( P# N // This is an agent decision. 8 ^9 A: z3 [' E. }; `# Q# |9 Q4 g4 ] if (watchedNode.pressure<200) {6 `" R5 M5 E5 p4 \/ w
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// This is a task., C8 V7 q: i6 }) C* s3 i/ n1 s' t
setPressure(watchedAgent.pressure) 3 R3 u4 p# e6 Z7 m, k5 H7 N7 F# t7 @* H6 ?
} else { / }5 w' F( V3 `0 v3 w4 C 2 D: v! G" X* L; K8 V0 ? 1 U# M0 H9 J' X9 K; t- Q } 5 `7 V7 r( U4 ^! |8 P // Return the results. - p. f2 T+ K8 u, Y' _ return returnValue ' _8 J1 N6 S- l& X+ k! Q) b) d# ]0 e3 O0 U4 g0 W: \
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* This is the step behavior. 4 A: J* ~5 P* K9 d * @method step $ D: E& ~( }0 w3 A! G/ b% b( a0 P9 \ ** z* X( ^0 m$ ^- n/ p( N
*/ 2 n& e* m- R$ F& ]% O @ScheduledMethod($ ]+ E" p6 L% _
start = 1d, 2 k. K$ V9 h% } interval = 1d, # F U7 J7 V$ g* I" j shuffle = false / I% W9 v! q% W' r2 v )* f- A: x I" M1 F/ n
public void step() {' A# G8 q5 V7 I- t; |
) h1 j$ P4 E; X, t // Note the simulation time.' k' ^+ Z- s2 k4 E+ r) `- P4 U
def time = GetTickCountInTimeUnits() 1 v9 E6 h/ P7 l% U3 c% a |5 j& d6 a+ `: [( m9 j7 [
// This is a task. 5 C' f1 ?9 T o* u measurePressure=pressure+ RandomDraw(-20.0, 20.0) z% p, c, n, ? // End the method.* ~& r0 {9 ^) r9 s3 g* Y
return, l1 `, _. O$ T3 n8 [, J6 u' Q
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发表于 2009-4-4 12:21:26
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