3 a) s" F/ \: ^9 B, N# `# g@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")/ P. d: k8 z0 i, G* A+ @) C
public double getMeasured pressure() { % U. ]0 t( s4 J6 d& u# l$ [ [ return measured pressure! b$ X' J9 x+ w6 Q7 g
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public void setMeasured pressure(double newValue) {) T( @+ v7 b; U9 J1 Z
measured pressure = newValue ) n5 n% c* i: ^, @$ J# Z+ c8 D } 5 N8 s/ e3 e& j/ p3 z* x' j public double measured pressure = 0 ) h7 b. a! G. N. ^ 6 b2 `) k$ P% p( R /**( P$ l) p+ |# f& H) @
* p; h/ v- ~5 u9 V5 u$ ?. P * This value is used to automatically generate agent identifiers. N) ^8 }1 |. s- E, T * @field serialVersionUID # Z( L* o- C8 P3 @9 D *4 }. H& {+ p5 N% j& L5 h% Z7 I4 p, G
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private static final long serialVersionUID = 1L 4 `( @) O9 u# l* I M# k : H& l# W8 ~2 N" ~ /*** i1 J/ W& l/ N
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* This value is used to automatically generate agent identifiers. 0 N6 h. n3 C- u, }- K4 x * @field agentIDCounter 0 j/ U% W" G" V/ M3 q# | *6 ^& u& l" e0 C) l8 G7 A- [
*/ ) b, v( S8 V/ _( x0 \7 ] protected static long agentIDCounter = 1 / ?" p0 e8 ]( P3 A6 R; U. `% K! B7 p
/** . x0 U# K" Y: c: |. {& x9 g/ | * ' ]# g" V; f8 k: G7 ^' K * This value is the agent's identifier. 1 ?) B# o* e, _" J9 g) Z+ J; p" B * @field agentID 9 a E5 Z' z0 {9 b$ o$ J *, N" f3 [' S2 i
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protected String agentID = "GasNode " + (agentIDCounter++)$ @5 c! |' j I( k) ]) E: g
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/** " ^5 ?8 o! F5 f3 K" i# P * $ Q" v2 n6 K7 G3 V * This is the step behavior.* t3 E, z: q. X
* @method step0 j% G5 g- e. _9 W( r* I% E
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@Watch(# ^& B2 Z/ q4 c% }
watcheeClassName = 'infrastructuredemo.GasNode', / C% m: M5 @* |; W watcheeFieldNames = 'pressure', 4 f, J8 M3 K7 Q# e0 [( \# F3 M query = 'linked_from',% u" T a, m1 Y; ~
whenToTrigger = WatcherTriggerSchedule.LATER,1 h l- F- `. G$ K, q# h
scheduleTriggerDelta = 10d 0 N! X* E! i+ ^9 b C: a ) 7 S. M& \; B: _; h) K& | public def step(infrastructuredemo.GasNode watchedAgent) { 6 f. @9 P, T$ a1 I0 c5 w3 z% o & k& s! u8 L( K' F; ?8 ~" Y // Define the return value variable. " Y" W9 `! S8 c3 T def returnValue' j* ?) }9 Z. o8 U0 Q
+ K. ?6 n. x9 i2 n4 `' H // Note the simulation time. G! f. j2 F% v v! d+ ~ def time = GetTickCountInTimeUnits()# j1 T) U3 y0 m' C! P
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// This is an agent decision.. z. e3 P1 f/ P7 |" X
if (watchedNode.pressure<200) {8 q! b" \! G3 m/ _
+ ]# M* n) B8 A/ G1 _5 Y // This is a task. 7 y8 `6 C0 L0 d7 R2 Q9 n" ~2 L( e setPressure(watchedAgent.pressure) u4 V2 Q( [( j' r8 a) {7 A6 a( J" T7 h% m; _
} else { ; M3 f6 M4 R* F9 W9 G4 E" P , D6 w4 C0 L; m% ~) ?, Q: A R( S) E* v/ F. y* k1 a7 I& o7 j8 H
} 5 N1 H, w+ A8 S/ F% f; u0 Q // Return the results. ; P4 ], O) i; C& | return returnValue % p$ T+ o) r0 C- p5 r% G7 t ; P( s& ?5 G5 O2 U! [ } * c* i- b+ o, z2 }: } 4 V% Y: P) O- c4 e1 ] o /** # U6 u# y4 F ^2 ]1 t( J. F C * ; b+ V; r: K9 D8 I * This is the step behavior.9 I6 G, w6 I' y: @! b
* @method step + e5 \9 f! q* r; s+ f *3 Y' m4 Q: _5 u. g
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@ScheduledMethod(5 V2 I6 h" J9 D; Q" k9 l( J
start = 1d,$ C5 H: {; b7 p0 N% r
interval = 1d, % M* B! d4 ]! R9 u5 O shuffle = false 7 L: p* e+ _- I$ C" }' p ) ~" d' i7 n9 f) `
public void step() { , U9 b/ l. b$ E3 b3 ^0 R9 k% K3 E6 f P
// Note the simulation time. j" Z/ Y, N M; g
def time = GetTickCountInTimeUnits() # E0 j' _# ~$ \0 g4 H1 {: V : E- p/ Q% `5 A0 D, n+ u5 M // This is a task.5 i+ l( H9 V3 ]# b7 ~, I
measurePressure=pressure+ RandomDraw(-20.0, 20.0) 0 I% S; o- v p' s // End the method.6 X0 X$ w4 [! O( W' C3 I; H, F
return0 H! d7 l5 E9 _ O# t' w
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}
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