$ m3 H$ Q0 [- m' H" H@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") % ^% G" f5 N* j5 A6 y5 { public double getMeasured pressure() { # |. \- F( p2 a, C. u: N+ |' R return measured pressure / m5 _9 L" e* e! e6 K4 x } 5 j2 D/ V- _3 K9 d& h public void setMeasured pressure(double newValue) { 8 n4 F$ r' F1 r; _/ j' o9 z u measured pressure = newValue - F4 _* F n3 ?; T } * l" w: c9 s t c7 ]$ c public double measured pressure = 0 " O: }0 e$ o7 q2 V- Q $ v8 `7 ^# H z$ E /** ; ^8 X% W+ m4 f$ P1 K * ( T: X, N& G: u. \ * This value is used to automatically generate agent identifiers.% C& W/ J9 ~2 c
* @field serialVersionUID( }' A. I4 s9 R3 c
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*/ : R" V( A K. |5 M private static final long serialVersionUID = 1L& O7 ]' L, C! W! ~& D! `$ x0 u
+ [' Y9 T" e: q/ W5 ?6 Q D3 X /**; w, `5 V+ L2 t; g! H3 m; l2 g& e% H
* . B+ O/ I O! P. V1 D7 q& {+ ?0 b1 _ * This value is used to automatically generate agent identifiers.3 W6 K& ?) F9 y2 w9 W6 L3 v: V8 o
* @field agentIDCounter( x4 I2 j D, r0 f i& e5 W) z2 ~
* t$ W: R' D7 h& m! a$ n& l
*/ & ~- N" t# t% { protected static long agentIDCounter = 1 0 V$ j9 ?1 f: s$ m6 E1 K0 q. U% d7 y, X% J1 i ?$ \8 Q' }' K. X
/**! o2 J* w' h" M& n2 X
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* This value is the agent's identifier.6 C7 L( m, ~4 A& X: i6 j
* @field agentID & e7 v3 L) {' ?! F# C" x! t5 P * ' h) W; l* L8 [1 y* K1 ^ */5 l; C& S, ~- L5 b8 }
protected String agentID = "GasNode " + (agentIDCounter++)" [7 B" }5 e& Y9 q3 h( b9 r i" R: e
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* This is the step behavior. 5 r5 y! k" L7 r( B8 e: j * @method step # M- q* q# N E/ p2 F; d$ V *9 J! o# @, `, y% r2 e5 I1 q T" K
*/# \# ?0 y" _" j+ @
@Watch( C# ^0 H- o9 M. F- { watcheeClassName = 'infrastructuredemo.GasNode', 3 E+ R# o* N' ~, l" j# k [ watcheeFieldNames = 'pressure',* }0 s C9 b; G+ P
query = 'linked_from', : G( p* _8 i7 r% |5 n whenToTrigger = WatcherTriggerSchedule.LATER, " Y& c) A( F" d% G5 ], k scheduleTriggerDelta = 10d 6 ?" w" Q9 E) Z5 k' W5 [$ z ): t( a9 O6 y6 s2 H8 q; |
public def step(infrastructuredemo.GasNode watchedAgent) { 2 Y0 i7 { @4 Y; O' v- T j7 X- P/ \, M. Z
// Define the return value variable.9 A, v% {- u9 u1 R! ]
def returnValue & S* {& a& a' a9 B& ^: \. O, _, J) r
// Note the simulation time. 5 ?" F5 k6 u6 E: R def time = GetTickCountInTimeUnits() ! z- B0 \% |9 q ) D ]8 L" h2 M; Y4 C2 F" H( `3 o1 R( j" Z' O/ c! C
// This is an agent decision. 7 }4 L% ~& w4 I, A% w if (watchedNode.pressure<200) {& t _' w8 n5 Z0 Q, k' |; J
* I3 `* V" u5 M4 f // This is a task.2 b; Y# h2 \( I* |
setPressure(watchedAgent.pressure) 9 M7 c x/ B7 F0 W ( r& J+ v6 i3 s2 Q* D } else { 0 B" p! r6 k; ~ * I4 k7 z& S: E; K! K N; r% b% R; a0 ~: T" H- Z- a
}2 M9 a/ }9 [* A8 N
// Return the results.9 `) M. `% e+ A
return returnValue % u: y$ L/ }1 e/ V1 U 4 C' m2 l1 q6 C! C }2 c) ^, I4 Y9 W; p
3 f6 B u% I$ S. X" Z0 T /** $ f6 r) {( B$ z* R *! _- _+ P* H& u& ]6 x2 m% _
* This is the step behavior. ! X b6 D" A( a d/ v" K * @method step J2 X) _; y1 U( V- k0 z! u6 X
* % v& B) \' A5 h# {( ` */6 I3 A4 P1 [, e- ?1 k4 l: I
@ScheduledMethod(1 l( ^4 A; f3 q9 Y7 x% e
start = 1d, , B% B9 c4 a1 c% f/ N9 G9 N interval = 1d,1 ^6 K' w7 V2 i% m
shuffle = false( Y2 E' C } C9 t8 u
) 2 u2 ~% q. }8 C. n7 W) S public void step() { % p" \4 V! E* f$ Y 7 J" A3 D4 I, ^, d" x- ~ // Note the simulation time. 1 @' i3 {" G# v def time = GetTickCountInTimeUnits(), u- Z# @" u' \/ G- A5 b
& V9 V& n M Q7 N // This is a task.8 t2 y4 b- ~3 X8 U& i5 | t
measurePressure=pressure+ RandomDraw(-20.0, 20.0) ! U% P9 q& Q ~: t: r1 d // End the method. $ g& ^# X0 Z4 u1 ? return5 P1 h' J/ t% W& s% p
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}
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发表于 2009-4-4 12:21:26
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