; @4 D. u8 V, u # \! q! S7 A+ }# f; w6 ]4 L# E@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")6 ~$ i f/ M2 `# f) p/ ?
public double getMeasured pressure() { : o& p+ p6 f$ {1 Y" r5 r5 l0 L return measured pressure/ Q4 J+ X. c4 {. I9 p
} 6 ~0 B2 u0 x0 I' {' X1 j) p public void setMeasured pressure(double newValue) { 5 z* ~& b: q8 @ measured pressure = newValue; V9 [! [3 D7 Q- d! i
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public double measured pressure = 0 + P( M4 ?* P5 L7 J H0 f9 P a7 |9 b* |, C I4 d# |
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* This value is used to automatically generate agent identifiers.5 O- t5 {1 V% m2 {: ^/ V, C
* @field serialVersionUID) ?1 I& j h' b7 I2 u
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*/ ' M- o0 D" T. d6 i3 g4 y+ E1 @! F private static final long serialVersionUID = 1L % Q/ ]" L" m% c% }: B: S$ r* w* d" |- y# B T- P* x/ W
/** ) [0 ~" z# o. B# { Z! l *1 O \+ [6 O6 v$ l/ h8 q2 d
* This value is used to automatically generate agent identifiers. 0 f) b1 O2 m8 Q * @field agentIDCounter 9 t+ J+ n2 I$ i) B& E *4 _) J% I' I, e4 P) v% @1 z
*/ 6 m1 g, B0 s* b3 Y+ K8 D& f6 |8 y protected static long agentIDCounter = 1. U& E* w% w6 D7 f% ?7 t8 o3 L
# b1 }- a$ @* C& s /**9 A$ o9 ~2 `" I, T# P7 b C. R
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* This value is the agent's identifier. ! z% A- L' ?9 v" j& p) Y) } * @field agentID0 v( _" r+ y: W4 q6 t6 D, \7 k
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protected String agentID = "GasNode " + (agentIDCounter++), R; F) B- i, D1 x
0 T0 Z' z$ f* x4 {& ^; r& i8 S1 v; ? /** * X+ g8 N( N: [- G$ m. w *6 O4 B$ j; m" V X2 S P5 `+ I# j
* This is the step behavior.$ e) {9 F0 _; I% Y' S
* @method step$ Z3 K, } T7 C1 I/ t
* ( ?, j A- X! w */ `# q2 D4 z7 l+ M
@Watch( * J( h, y1 k7 c* a8 [ watcheeClassName = 'infrastructuredemo.GasNode', / z4 }% \+ v D- X! ~8 Q watcheeFieldNames = 'pressure', ) z4 H# [* O3 @! S query = 'linked_from',. d0 D _. D) {9 {3 P$ _
whenToTrigger = WatcherTriggerSchedule.LATER,- o t" S0 I, P. K5 y; T
scheduleTriggerDelta = 10d2 I) [" D: B x& B1 Z
); ~+ O+ r& V4 z; s
public def step(infrastructuredemo.GasNode watchedAgent) { ?& G1 O* N3 s' N/ i
1 O1 @/ f4 t9 v // Define the return value variable. 3 M G0 Z3 E/ f: P0 [' k def returnValue# S' H2 I: i7 K X* `2 I2 G2 a
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// Note the simulation time.9 N1 ^+ J* b2 g3 o
def time = GetTickCountInTimeUnits()5 R2 l! [- i0 n' [- Y
) A6 I/ U1 @5 S3 @- k ' d% Z$ c+ f* o U // This is an agent decision. ! f+ r* b4 {- |9 k& m4 w& g if (watchedNode.pressure<200) {! ^: ]7 y. c; Z3 `" F4 W& `
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// This is a task. $ _) D7 R6 r5 M3 V+ k setPressure(watchedAgent.pressure) $ ?7 e% H, W6 ]3 w2 }6 y( x: s$ G ! h, L4 C6 _- z0 k @( Z } else { / y7 v$ I1 a7 T' P, a7 \) \: K; b9 v( U# F: t0 M9 A
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} 2 e4 P9 v, l4 m // Return the results.* g0 A$ P/ ~1 T6 _ `. I; F6 i O8 \
return returnValue# r/ {) I9 h1 D' Q0 J* V2 h
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/** 5 P3 L) V# Q: e; _: e+ G O8 v *" t6 ~ f! N [ Z& O" G
* This is the step behavior./ `9 \6 d I6 w3 g
* @method step" z7 l! I! L5 ~+ a$ G( x
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@ScheduledMethod( 1 K* } P1 ^3 }! r* F start = 1d,+ o1 q# T' p2 w6 P, p
interval = 1d,2 C$ M$ s. i- [% O3 E8 g6 U) z
shuffle = false, M! V8 c) }1 _; ]4 Q
) 4 ]% n+ l) B( I8 `9 V( c0 [ public void step() {( h2 ^2 M2 Q9 p+ z7 R s
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// Note the simulation time. - h& Z$ n& q% ^% u4 a$ w. v def time = GetTickCountInTimeUnits()* J/ Y1 ?# q" j U0 v( G+ o0 F7 y
4 s( Z3 z4 l' |- W9 f // This is a task.3 p6 z K5 b6 D
measurePressure=pressure+ RandomDraw(-20.0, 20.0) $ c% r! ^+ G, O* t) f l // End the method.9 K/ f; A. W$ k5 v$ T8 t
return5 @/ V# I) }+ F6 F2 N
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