. d3 s( P. n6 t- b9 o3 C) O# B( s 2 ]- a8 X: v% a@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")( X6 O1 m) U# v! |: ~9 v0 Z1 \
public double getMeasured pressure() { ; \$ ~+ R |4 E7 z7 [/ f# {3 w return measured pressure, C$ U7 ]9 w+ N8 s
} " X* V3 E* l4 \ public void setMeasured pressure(double newValue) { + J' I! m% m/ t. Q; C5 p. I measured pressure = newValue 2 D# Y9 ^. f/ e/ X4 V O } + w" f* I0 ]$ L# F public double measured pressure = 0 8 ^4 E1 L L5 x, H2 m8 J5 x+ n- t- k: v$ h+ V
/** X% Y* `* Q; U# G/ i6 k$ r3 Z$ | * 8 r9 e- f; v0 o* v5 w2 M * This value is used to automatically generate agent identifiers. ! r4 y+ X. G8 A1 V * @field serialVersionUID' q$ ]# z7 |$ Y& d6 Y+ K6 C
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private static final long serialVersionUID = 1L% A( D; l' b1 u% V4 `$ q% p8 ~( }
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/** ; H9 b, }7 t/ s * 3 E6 b) W/ h% [; g, d; O * This value is used to automatically generate agent identifiers. 8 |) U; P1 C$ _ v0 w9 N/ q * @field agentIDCounter 6 x( i. c2 o' t% S1 M; q. x+ _ *" }) h% ]4 w6 z$ I, P+ \
*/ 6 q, j; U- ~7 @8 {0 J protected static long agentIDCounter = 1$ G4 y4 {, ~# T2 {+ c# n) p' Y
; ]/ F& M- }: m' z) s+ B ~0 P4 V /** 4 R" {! D Z6 U" z- M# A8 `* F( v * % c( t5 z$ \, e" E& v * This value is the agent's identifier.3 r1 @7 N! ^4 x4 P" d; z
* @field agentID * |" i: a6 y) K- z E& w9 l * & E9 o0 C6 K' @' [ */ & s& |3 g' _& {5 Z- B- S protected String agentID = "GasNode " + (agentIDCounter++)/ f2 v4 H+ y1 x/ r! @ v
% {/ v7 s% \. n0 e: E" o- C /** " k: h! z8 \# ?2 h * 3 V2 S1 f# A8 I: P8 ?3 v5 u * This is the step behavior.& c) p2 X% z5 s Q% {) q
* @method step ( z3 {) C* H- I. t- B! D' K * h& n: v2 T" x a4 g */* i2 @+ ~' v0 k R6 J& ~+ g9 Q1 V. z3 A
@Watch( : M k; _+ J+ A( C watcheeClassName = 'infrastructuredemo.GasNode', ) K# q+ m( x2 G, T( t watcheeFieldNames = 'pressure', `) x x% Z8 y query = 'linked_from',/ w, n# x# V! v/ T) U8 A
whenToTrigger = WatcherTriggerSchedule.LATER, 6 o! j) z& {* B; `; W% e) e$ C8 \ scheduleTriggerDelta = 10d 2 g- y3 E8 O! X )7 T' `3 [5 B: y$ J# ^
public def step(infrastructuredemo.GasNode watchedAgent) { 2 J, e% v) j) s5 } " Q, b8 X2 N: ]- I% E5 c7 ` // Define the return value variable. . o3 i- {, d' c def returnValue4 ^+ X! i/ V4 e6 D! x3 Z+ f
# b ~8 G4 b5 x* U7 R6 r' B$ X/ R9 g // Note the simulation time.9 w/ @$ x% X0 ^4 y" @
def time = GetTickCountInTimeUnits()8 T7 ]2 R* D& Y
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// This is an agent decision. 7 H+ y4 J$ a. \: d$ [ if (watchedNode.pressure<200) {$ Z) z( z+ D0 O
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// This is a task.7 A ^( c+ V: o# u/ ~5 O/ W* O" c
setPressure(watchedAgent.pressure)6 S. B. |! g1 W& K, o
0 ^8 }! \3 ^. y+ b8 B- y } else {9 k( E: g( E, R1 `% O
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// Return the results./ b; g" @" R6 Z% ^: g4 g. j! m
return returnValue" l/ G" O6 P0 _& M9 k( ?7 r
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} 7 S2 y2 d3 }' } 8 ]0 E; l& y! W2 X /** % F/ E; h- P3 Q * . ]; a' p8 U+ _( C1 { * This is the step behavior. * e9 G5 Z1 \# e" _* ? * @method step$ u) R( w' w; e- ?
* 4 c* W3 o. ], r9 v9 h4 h9 B */ & S4 w; }# O3 c) u) e: `/ x% ] @ScheduledMethod(" [' S1 p5 h# B- @
start = 1d,9 M. R) M& \" F
interval = 1d, 8 X# B2 E2 w2 e2 ]: C0 | shuffle = false5 d2 m% B6 B) z- V8 q: T; L
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public void step() { $ R/ ~7 d8 d: U. T, j1 \ + K8 P3 y) Z- C" h, M3 t. ` // Note the simulation time. 0 k: O. k4 f. o# g8 r6 W; w def time = GetTickCountInTimeUnits() * p& A; ?* f7 L3 W+ S 9 Z/ O* X% u+ G+ R. Z5 Q7 [3 E // This is a task.: Y& [8 O# n8 \0 M8 y. X* j
measurePressure=pressure+ RandomDraw(-20.0, 20.0) 5 v2 t ^1 R. u+ u- C: n // End the method. , g5 S. ]/ F' \$ ?# m5 P; r @ return- F; r4 h; W% s$ T9 |5 L
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}
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