2 n0 G Y8 E# R3 v) J- L' a! d+ d@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") / s }' [! u6 X- G+ Z6 |4 [$ N+ p public double getMeasured pressure() {% C9 \$ s. l! X* ?0 C' ^
return measured pressure + k( @6 |; V6 J( J q& o" c% M } 2 Z$ v4 `/ P* E# x9 ?' ]: T; B public void setMeasured pressure(double newValue) { 7 ]$ L% m& W. ] G0 k9 ~/ d measured pressure = newValue1 `" X/ l" u7 x
} ' J0 p7 ]% G8 A N public double measured pressure = 0 9 E0 r, c6 K3 g* Z. v. ]6 \/ u! A8 S' m3 m, _
/** 1 d/ i7 U0 d+ {/ S * . Q b) B5 p9 g) k U9 V * This value is used to automatically generate agent identifiers.+ a2 J* u- L. x/ A8 O+ v
* @field serialVersionUID 6 X; C9 |* N+ R- X. q3 ]. o8 Q8 w *9 A9 C f5 A& h0 ~& ?
*/ 5 x: a0 x2 ^( A2 N( S private static final long serialVersionUID = 1L 0 f1 u1 i6 N, a# r0 L- T0 z% K4 g/ b/ D: W9 a
/**6 w4 \0 f/ K2 W; m9 j) k' O) J! E
* ; |; T1 t0 S& K9 J. C" g3 n" P * This value is used to automatically generate agent identifiers. % V% y# Z3 N7 n, _* X6 N * @field agentIDCounter $ X% U5 n) ^* p3 b$ Z" f- e) ^ j * 2 h& a& m1 ?5 Y N# H6 e, A */ + C) T' t+ B0 b8 J- Z# V0 t1 Z# z protected static long agentIDCounter = 1- x) k& [2 G8 i6 l/ b9 Z2 y8 T
0 D' |- x' a. E* f6 T /** 9 o7 ?; _2 {% C5 ~: d *) s+ f( w2 z& q& M
* This value is the agent's identifier. " }0 Y6 J$ w! X. | * @field agentID ) G6 x% F& b& C" U * x3 N1 Z' e+ q9 ]; d, m
*/% [. q& m" W1 l- `) I4 K" [
protected String agentID = "GasNode " + (agentIDCounter++)8 q6 l* B) _# ]( D
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/**) f) R# p0 A; I& D5 a- Z
* ; E: j2 s/ _2 t * This is the step behavior.2 O+ o7 U$ t( q- J8 ~5 L" s
* @method step 9 M0 L: {1 P& W% N+ s *8 O) y2 s/ e5 G" _4 |: `5 A0 i
*/8 M! l4 [, _( B) _ y8 s2 M4 I9 U
@Watch( ! \1 f) O: \( l8 P# E: ]* L watcheeClassName = 'infrastructuredemo.GasNode',$ ~+ _& G( `! F0 T
watcheeFieldNames = 'pressure', ) ?1 p1 L% w7 V query = 'linked_from', ! {8 }0 R& T8 x- Q' R" D whenToTrigger = WatcherTriggerSchedule.LATER, - a( Z' H( x; J- S \ scheduleTriggerDelta = 10d9 o- P: P' t. G
)8 Y a5 Z2 t) F, F h3 m& w
public def step(infrastructuredemo.GasNode watchedAgent) {1 X; q0 d) }$ G
& c& m) O9 S2 M& l4 `) {7 R // Define the return value variable.5 q0 r) R0 u. \( O$ Y5 H# L" z
def returnValue 0 i. D- I, @% J$ ~7 b# X 3 u$ E7 B% O- z- C: h // Note the simulation time. 5 I j+ F* h, J! y5 p def time = GetTickCountInTimeUnits()* J8 b" l2 A3 t9 t+ L
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// This is an agent decision. u* u* X# M- I, f" p if (watchedNode.pressure<200) {6 f9 t0 @' [& E( [0 N% Y
' B; M) T% P* y3 s) m" w // This is a task.) ^: g, a! w* @; H5 L5 l6 n% j% Y0 N% j
setPressure(watchedAgent.pressure)0 W* w( |* t$ e+ ^
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} else {' u8 T! m' i y% Z7 p
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} ; A7 w* o' _& p$ C3 X1 d4 j // Return the results.2 i- F8 N- Q, [* ?/ _1 ]. g
return returnValue . u8 U6 m% i, V# D2 s* f9 ^ $ Z9 D! s5 ]6 Q, Y } 6 x6 z5 m5 N+ x; I4 K2 v' W+ v* y; }( Y i
/**+ x }: S& J: l
* ! ~) y5 i0 _8 z k * This is the step behavior.& ^$ n- C" z5 W
* @method step8 d9 X: N- c% w3 X8 X1 i/ ?5 I
*& K6 i L, ]" H
*/ 2 ?" p G6 X+ f" w @ScheduledMethod(3 ]% q* ]5 u' s g1 T1 @
start = 1d, 1 M1 ]" z" V% Z interval = 1d," v5 M' ~: J) Q- A
shuffle = false. [; k4 y6 I O8 F0 _
)# {: g$ ?& Y' P& m3 o7 Q7 |9 p
public void step() { " S0 w9 P3 i$ K " c1 l N$ {: w/ |" N* H( d // Note the simulation time. 4 G/ k: P: ]- m! b# C def time = GetTickCountInTimeUnits()+ R1 [# s7 c8 z
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// This is a task. # f/ ]2 p1 F" u$ |. w; J3 q6 ^ measurePressure=pressure+ RandomDraw(-20.0, 20.0)% y2 e0 _$ Y9 s8 A' U9 {' R- O
// End the method.2 S: J0 |& q3 `+ p
return 6 K$ j; K: X% m# z 0 Y C1 J0 O T$ [% V& m& z% a2 l9 F }
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发表于 2009-4-4 12:21:26
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