; d, r0 X' S2 e/ Y* A 1 K9 ^: y$ c/ E b8 U' @. I" } {1 H+ l" n@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")2 W6 k, `7 A- ~4 K
public double getMeasured pressure() {4 g1 y4 w1 U) [- O# m/ B
return measured pressure - ]2 q$ M# L# r }9 F. d5 |- w* a' L `% R
public void setMeasured pressure(double newValue) { 7 x1 N. _0 F% }& P/ R measured pressure = newValue c. o' F5 L. B2 u1 K( p: P- E } * V. E: @4 c* N4 d) ~ public double measured pressure = 0 6 J Z O/ G. H( r . }9 b' k" [; W; v /** ' _0 b3 k/ M( y# R! T *6 _* {: b$ I2 R! O. x, j5 m' |+ \1 \
* This value is used to automatically generate agent identifiers.: D" n/ i' n* k) g
* @field serialVersionUID4 [& E+ Z) C4 w5 b# p. _4 U: T
* % k9 ?( r: ] A) T: T */ 5 x3 b$ t+ T" B% G, @ private static final long serialVersionUID = 1L8 z$ {. {* k. Z1 D& x5 u! z( L2 x% s
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* This value is used to automatically generate agent identifiers. 7 ^3 i# r o" T) v * @field agentIDCounter" I3 Z7 f" l6 h1 u
* / r" J j/ k' c# w0 G; Z; J7 p" d */) B# Q$ J9 d2 S3 R5 j1 |
protected static long agentIDCounter = 1 ) j& b6 F8 @1 r. E! ~$ E/ v* U" a/ T: @ ~* j6 l
/**! L1 Y8 H, s* c X
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* This value is the agent's identifier.# n3 g: F6 F2 `5 V
* @field agentID1 {( q, g6 _% M/ u6 ~: i
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protected String agentID = "GasNode " + (agentIDCounter++)9 Z+ X. N& i3 f" T4 q O
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/** " r2 M. f1 d) e * ) c& K- J/ ]" I * This is the step behavior. , ^/ A/ u* Y7 L3 h0 Y2 z9 ]0 s: Z * @method step . Y: j {/ }/ m. d$ v* b7 d *+ [* c+ e. }% z6 l1 {
*/ " X5 ~- {0 ]5 A) d1 b8 ^2 I @Watch( / I V& O! I" t9 G) c4 o watcheeClassName = 'infrastructuredemo.GasNode', 7 o, o/ w1 s( ~& l$ F watcheeFieldNames = 'pressure', ! z5 u6 y( n0 e query = 'linked_from', 0 I; A1 d' N% [' ? whenToTrigger = WatcherTriggerSchedule.LATER, : {& r( g) M4 p scheduleTriggerDelta = 10d% o* G3 o) u8 M
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public def step(infrastructuredemo.GasNode watchedAgent) {0 M9 R |. q8 I6 h1 z
: A$ z5 r% i3 o" q& U# I) _ // Define the return value variable. 8 E8 n2 ?) N z, Y/ E0 [$ Z4 N def returnValue $ W. V$ w/ O7 k, d# B# q8 _9 ]) {( Z2 ~0 q6 O$ o) E) j
// Note the simulation time.1 g, Q/ ]* @& X# I4 p
def time = GetTickCountInTimeUnits() 2 D( k1 w1 {5 `7 f5 c. f8 c# r, s7 S; E$ p" R
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// This is an agent decision. ; s3 ?$ v# X' z/ \: O4 s if (watchedNode.pressure<200) { : c% U# m8 F" O9 h0 w" A9 F1 H j0 D' e3 |- i/ H. k
// This is a task. 3 v; n3 n" z# ]9 Q" G2 b3 }2 I setPressure(watchedAgent.pressure)# j2 L+ l: V; c- X4 I4 O
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} else {4 a; s" E. k/ O$ m( J$ O
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// Return the results. . \( l f1 l/ `0 E( s5 i return returnValue 4 p, @" f: A* m( w$ f: ~' C7 ]( l/ L
} ) M( N, X. I8 p9 l7 ?2 t 8 i- o. ]) {" V/ |8 @9 t: m: F /**" D' N% k! W& r1 o$ ?$ l4 k
*( R$ T0 e6 _' {% N6 }
* This is the step behavior.' ~8 H9 X! ^7 b
* @method step4 b. P8 S* \, d( j. y* b/ |
* - P6 F8 y/ q+ \( T- n p3 L& _ H8 u */ 1 F0 v. z# J# E7 e @ScheduledMethod( 6 _( d5 s: q# } start = 1d, : B' }: i% M, b; B# k* d interval = 1d,, \( h( F0 l E2 M' I- c4 f5 K
shuffle = false, _9 q) i# m |5 ^
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public void step() {5 ?* ^2 W# x5 X, A0 B+ G
" q( z8 V% t. Z3 m // Note the simulation time. + d) d5 }3 y/ M) r; F def time = GetTickCountInTimeUnits() ! [: Z3 b. V$ h3 j4 b$ ` |/ }# L( y; E7 c. u' n# F( ~
// This is a task. % C% l+ t: a9 e+ ~& a* p( @) c measurePressure=pressure+ RandomDraw(-20.0, 20.0)% N# }8 c: i, ~; o$ B. G+ a6 c
// End the method.4 [; V' f2 E0 K' s d
return9 W1 L. r2 f% }/ [3 d. A6 g
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}
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