& O; U9 r- L2 W@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")* z& g) c% N) Z6 n- e& I
public double getMeasured pressure() {4 c0 G5 q9 k8 Z: |/ ~" s
return measured pressure , M- `) d6 ]$ {& U. Z B. {, b# p } 2 l5 ?* V1 N" S7 E9 M) ~3 f* A public void setMeasured pressure(double newValue) {6 X# G- L2 {. B1 [6 Y6 l
measured pressure = newValue - y: s4 z6 W4 C } " A+ b0 F; Z2 d! K: G public double measured pressure = 0 ( l W, p5 H7 h u& d / I# b" c, o* W /**1 I# N) }, _1 @: y/ G) z8 }" M, m
* ! p' B# Y" Q' b# k6 n4 a * This value is used to automatically generate agent identifiers.8 z/ l8 x6 g+ b1 S3 i, s4 m5 X
* @field serialVersionUID 4 B" f, |1 d: B/ C9 T! m *; e8 @9 P+ b7 @4 A0 _9 o& O
*/: T' [' a2 H& k* y9 o! f% X
private static final long serialVersionUID = 1L8 x/ l( e6 Q" w* I# |# s
9 K+ a& }9 N5 E( i9 O* N$ T /**0 v7 { `" s# D( b
*) g' ~6 Y- Q' q3 b9 i; J* I
* This value is used to automatically generate agent identifiers.. j, p$ a" u. j* U- e
* @field agentIDCounter; i! y+ N3 i' \& y9 ]
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*/3 \- h" K* u! i4 T" B- ]
protected static long agentIDCounter = 1 : l m) N8 u) r+ d1 [ U E5 t8 a% w8 o. ~- \
/** 0 X3 M+ M9 M, U+ [2 _* E& f * 4 ~' A w _9 A8 b) s * This value is the agent's identifier.( {. ~& {& A8 A9 c% H
* @field agentID1 m0 d1 R0 f+ S5 u1 l9 j3 L
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*/ + b5 H7 f6 U% ~, h protected String agentID = "GasNode " + (agentIDCounter++)( U+ U6 T% n; C9 N3 i
: G) k3 `, Y4 {
/** / r& H. ~+ S- Q& C6 {; g( D7 V * + g% W3 L( g8 v9 v. f, l7 B: i6 Z * This is the step behavior. $ F- c* z" k6 l0 @9 L * @method step 6 W1 d' H; F- w% f * * q' }0 L; V4 `' S- v2 e */; K- N5 B! w3 f3 b) u
@Watch(" S) P3 w* n2 ^; }1 F4 m3 }
watcheeClassName = 'infrastructuredemo.GasNode', ; V6 K0 ^- ?% q. A' B5 I watcheeFieldNames = 'pressure', , y" c& ^2 c8 l1 N8 Q' J! E query = 'linked_from',- [8 e; d- z# p% V
whenToTrigger = WatcherTriggerSchedule.LATER, ! _( l W5 t& B. Q& c8 p+ ] scheduleTriggerDelta = 10d1 a6 z5 Z' f4 i& R# c
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public def step(infrastructuredemo.GasNode watchedAgent) {; Z; ]$ {$ X/ M: V( x
# l, F6 u! b* [9 P // Define the return value variable.1 f1 j7 z/ @5 g$ I% `
def returnValue . I8 j/ u# N0 C" E& d6 e) p7 e# o) h, I+ P7 c: x) N- Z- u, O
// Note the simulation time. % ?) S* E n9 S( s* b- M5 ]! b def time = GetTickCountInTimeUnits(). Q9 B% q8 n4 c) P2 Z4 c+ g( ?
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// This is an agent decision. % O {, w8 o+ P$ I9 a" X if (watchedNode.pressure<200) { - S0 E( S: |6 Q1 S5 I: ~- @1 a# t5 Y- p' J P1 ~8 q
// This is a task.; O; z9 B7 l; J8 `+ L8 p8 v
setPressure(watchedAgent.pressure) 1 a, u! B! U3 S$ W! h% i + R* k5 Q! X& Z4 t7 g9 [% \9 ^ } else { # L9 t+ @. X& V" H' F! _/ @6 F3 g# F: Q; N$ Q7 F: }
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// Return the results.+ t8 o6 q+ P5 [$ l6 c2 K* [
return returnValue ) @6 J p8 }! f& f1 V: R5 c' t( S x9 O6 d# d, x
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/**% O" n8 R% Z% g# X# K
* # F0 W/ D8 T: p * This is the step behavior. - H$ p) G8 e/ f+ W# | * @method step! ?9 l6 p9 b4 J: J$ ]+ K6 N
*8 s% a& x# e4 N
*/ 6 x& _; n3 ^" u: x, c @ScheduledMethod( * d% A; P7 f2 V3 ]; a) @ start = 1d, # ^3 ]& L* x2 A4 @; m' g0 w interval = 1d, / K5 A A" K% H( E shuffle = false" H, G% m1 x" a& H B/ Z1 t
) 6 |, [5 F: Z8 u+ k& @; {7 V public void step() { 7 p: q6 Z7 {. c2 N/ s 0 y P( T7 L5 E. ? // Note the simulation time. 9 E# f! x) R. b( X8 m! U def time = GetTickCountInTimeUnits()' |! U" v$ S( ], ?6 Q
$ p( `7 F- C1 Z% p; Y // This is a task. ) z9 E9 b9 ?1 r measurePressure=pressure+ RandomDraw(-20.0, 20.0)1 [% W; p# y( K8 f0 ^1 y
// End the method." E* g: q$ a! W' k
return9 y* D O4 e) d ^. ]: f3 k
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}
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