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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") + r4 Z; g+ s8 `3 _" Y public double getMeasured pressure() { $ \1 j" F* s$ A) E return measured pressure, A0 @7 x% D* J9 V* Z; Q8 q
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public void setMeasured pressure(double newValue) { ' r" ^% m: ?3 n+ J" d measured pressure = newValue" a% |% F8 |2 E' U& W% Y* g. {8 {
} ! j5 y: _; q1 p( T% D9 M6 x public double measured pressure = 0# H P, `7 }0 G; G4 S
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/** 8 b) ^1 L. k3 a2 |) h * L: W2 K2 y% w) f! ^3 t+ \ U
* This value is used to automatically generate agent identifiers. 2 \+ j& T3 p. d) X& K$ W * @field serialVersionUID 6 x$ T- H0 X5 Z+ f1 d *, i$ @/ B% F9 a$ Z
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private static final long serialVersionUID = 1L, C4 j# M8 N3 ~9 Y$ t0 Z+ G
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/**+ G# d, J3 `/ h! H! b3 X
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* This value is used to automatically generate agent identifiers. ! k6 _" b1 ?# n( n4 ~ * @field agentIDCounter 6 N$ _9 ^* }6 D5 t * , y( T3 y5 g) k! n& S1 O P/ V! c7 j! p */6 E) {/ t9 x1 y; {8 V1 Q
protected static long agentIDCounter = 17 L4 {* l9 B: z) N
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/** # f1 d* p* ~' W; q: @3 K6 @, L *- k+ g9 b8 Y8 {+ f4 g: y
* This value is the agent's identifier. j7 X" u/ G* @' n! e4 S
* @field agentID - ~3 p& B- G4 G, p6 V+ i3 O- U$ U * 7 l! L; a7 O: m */) B7 Z. a0 v2 J: K0 h3 a: U9 Z
protected String agentID = "GasNode " + (agentIDCounter++) * [* h4 ^& z! ?7 m9 C2 c# R1 `; {+ I% w/ t! e
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* ; j4 H8 t% E5 `2 r * This is the step behavior. 1 ~/ r5 W' G: s9 s * @method step& v, j* H5 _) b) @! g! m
* 1 q" o1 E5 ?( Q$ Z: {) D */ , @; ^* @; V* u/ d* q @Watch( " k2 h7 q" s% T8 H& ~8 m+ \ watcheeClassName = 'infrastructuredemo.GasNode',6 m* _+ g. S9 U3 E+ R7 K6 b" o
watcheeFieldNames = 'pressure', - m5 T9 K1 g5 [) |: k6 f# | query = 'linked_from',2 C; v" B# j' i- ]1 E+ d
whenToTrigger = WatcherTriggerSchedule.LATER,* C' C- [+ f7 l: v" H% O; b6 k3 W1 S
scheduleTriggerDelta = 10d ) ]& Q3 D$ |1 ^* j8 r! ] ) 2 E6 n$ U, U$ {# {4 J8 ]0 C public def step(infrastructuredemo.GasNode watchedAgent) { . ^" |, M3 o- b" G+ v/ {! v C ) o1 V: b( U1 c% ^; E // Define the return value variable. + Z% V% K/ m# y4 h* \& v; W, S def returnValue" F2 Q5 h+ q w- Z! g4 @: L
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// Note the simulation time. $ @, K/ `: w$ E) n: c def time = GetTickCountInTimeUnits()5 {/ x4 R+ h/ T. W }
* f2 I" \- c1 ]- v$ ~0 O9 J5 }7 r9 ~ ) e# g3 D0 z9 P) B' b n // This is an agent decision.1 \) U" r" E1 C
if (watchedNode.pressure<200) { 7 h- B# j! w( H; Q$ Z0 a; |/ N$ L, O2 L1 a
// This is a task.* Q0 e* s: l3 T. ?4 S0 J Q
setPressure(watchedAgent.pressure)* N' a; m0 N H! Y
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// Return the results. , @7 a, t' Y, Q return returnValue ! d: z! Y- `7 y6 K R/ b+ m+ o3 Z* V% @" o1 d; f
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* |2 y$ J$ I" i; K /** 2 m4 g# g2 N9 c' `+ z O6 W* W *2 U i& i) }& K, M
* This is the step behavior. 9 r, J+ _5 x+ @% p1 M! Y; g: L * @method step2 L% D x& x+ u3 q/ ?
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@ScheduledMethod( ! d9 d, b5 |8 F4 m& C8 Q2 L+ y- N7 V start = 1d, s9 \0 z5 ~$ e interval = 1d,5 m/ E9 ~& l$ S' o% a& o3 c7 F$ M
shuffle = false / k' V0 g2 i$ r$ h1 m ) / s. M" X# u8 k9 O; u public void step() {. Y# t5 F, ~+ f( S
2 B T, y& i2 j // Note the simulation time.# ~1 N' [0 f+ B0 b" H) i" R7 a
def time = GetTickCountInTimeUnits() 2 r- O! A$ ~# Y9 `0 o1 L6 A 0 p: z' q) L# I" Y4 f // This is a task.7 ^( p: @1 n3 O- i! c/ ]* f0 N
measurePressure=pressure+ RandomDraw(-20.0, 20.0)% g) q% ?& T$ {% q5 r
// End the method.. K$ w& T# T5 \% m5 m) d
return9 Q0 G8 q( ?( O- p" V% F: E/ t
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发表于 2009-4-4 12:21:26
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