. r+ u: }0 ]& M/ U- e . z* l- k8 y) r3 z, }* [@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")8 B. A+ `6 O& {5 R! u( k
public double getMeasured pressure() {4 U- K0 m( H- c, c8 s2 t
return measured pressure" w7 K2 N) _- Q, q F* ^% M3 l
} . a; U) Y- P0 x% y0 `# A- m" t public void setMeasured pressure(double newValue) { # } ]# [- O- W! s& N measured pressure = newValue 2 P- B, z# ]7 ]$ E } 0 p' T2 n+ }/ j/ p: g" D/ K3 _ public double measured pressure = 0 ; l$ q# @8 ]; _. E6 y/ P 6 `5 B! b" x# w2 y" W& ?" Y /** 1 M7 H* r: w( R0 d- L' Y */ p% ^. R& \! G
* This value is used to automatically generate agent identifiers. / p# ^( y# M, o! F5 t * @field serialVersionUID ; d$ M! D/ z0 ~! W+ m */ _+ x1 M) y% r( Z
*/ 8 C+ w0 L$ h9 j) Z% w, T private static final long serialVersionUID = 1L \8 i) r% B' m$ {6 d. p% N6 @4 o
: n3 y% i( W- T. q# { /**( T: L8 o6 Y+ K: C
* ( v* p% C5 A5 D+ u4 F. [' t * This value is used to automatically generate agent identifiers.2 ~7 x5 K+ J& @7 _% I
* @field agentIDCounter % f" p- |% I, L# i5 D * ) Y) _# g- }+ D: I0 j+ E */+ \( j# ^8 {, U, A" n: {) h- R4 _
protected static long agentIDCounter = 1 6 P' _" s/ Y0 ^ 7 L# c; c* H: M, d /*** R( O# K# W# l1 ]- b! [9 `
*- n- u- R5 u" U2 X r
* This value is the agent's identifier.7 x9 v. B4 j3 A9 c) h
* @field agentID" ^/ ^( A H2 z0 n& d5 z) R5 N0 Y
*' {0 @. v, m% ~& T8 N
*/ 3 ~& t" s' N% f, x- ]9 A) S protected String agentID = "GasNode " + (agentIDCounter++); Q2 b; `4 D8 A( {4 p Z
* R5 `% \$ a4 v8 s" V% I7 v
/**& d" y' f& f* X; E
* . R n$ i$ r4 _5 \ * This is the step behavior.5 W% [& r1 K* y( Z
* @method step6 K! `) |3 N3 w+ x# {
* 3 _# v) V8 Q* T! K* c */ 5 [6 t# x- {' v' k @Watch(9 Q6 h- M2 |3 {; j3 R3 J. C
watcheeClassName = 'infrastructuredemo.GasNode', |9 X# I/ S4 u1 C6 J& b5 | watcheeFieldNames = 'pressure', ) ^' j/ u# H' ]" A2 M w9 z query = 'linked_from', 0 D1 j# k) t+ g8 Z1 }( Z s, W% a whenToTrigger = WatcherTriggerSchedule.LATER,/ \: h' _2 }# }. s$ x5 ]$ `
scheduleTriggerDelta = 10d 1 q6 W Z& B/ W' f6 S6 M ) ( d4 \0 G& r; I/ B& Y public def step(infrastructuredemo.GasNode watchedAgent) { / X. m) T9 I; E' o& ]7 L; V+ N4 X9 N0 F; ^/ F
// Define the return value variable. ' s6 b; C$ V7 ?4 E- S7 p def returnValue% k) Q$ k6 g$ }# u) n. S* L
. C: M. \2 a7 ~0 C6 y. K // Note the simulation time.% M- G4 n; \4 K6 j( L) l9 i4 E1 ]
def time = GetTickCountInTimeUnits(); e: o1 O- H: M* q h3 N% n
' U. u: v* _+ ~4 h. S& d0 O9 ]/ u- b, x
// This is an agent decision. 8 Q, @* ^3 _5 t# ?( w: Y+ \ if (watchedNode.pressure<200) {6 r8 U) k2 l% D( r* j# |; Y; ], N8 V
% Q9 ?6 j0 T& b7 U0 |! h, t // This is a task. - s2 R2 X8 p7 x# h9 p0 n; J! v5 n setPressure(watchedAgent.pressure) - W( u W* r( Y6 ?' E& s 4 p7 t, C) l1 J9 x. |2 o } else { # C* f! \ C* ^6 |2 I w, ]: G; i4 n7 g3 l! ?) k
& k% Z. P0 E( M& y; g+ q } " Q" B1 {2 g1 h( [3 h- N" N: r // Return the results. ! S3 d8 t3 V, p' m return returnValue% }0 L3 O* l2 }, K) @/ s
+ a: g8 K' K6 B) I& V } 9 L3 V: ~% k! h( v: J. v7 D( O
/**; n( o( Q3 X$ s; x3 j
* - D( A( y+ Q, Z * This is the step behavior. ! K; ~1 X. I) T * @method step5 \0 X8 U b6 o a6 I2 ~. }) \' X& B
*, j: ~1 P# n: C( L" g! W
*/ ! _4 T' S8 J% ]/ c, n @ScheduledMethod( 6 U# L+ P7 ?( a! B( ^$ G' S start = 1d,, ~/ Z/ k9 Y+ u! k+ [
interval = 1d,; z5 M2 i2 ? z8 v7 L1 P+ x
shuffle = false" Q; W& ]& F8 s8 P2 G' L
) 2 C& y3 ~8 q7 Z9 J8 D+ z l! [- A public void step() { / ?4 |8 d; w) _7 P# M$ {9 B$ v4 k. }1 L5 U* Z* p0 ~/ x
// Note the simulation time. % L9 x+ D/ @6 o7 Y5 _; ? def time = GetTickCountInTimeUnits()3 x! o( ^4 F& X: U2 i
+ B4 K2 ^( ]+ |8 D" _# H7 e1 X
// This is a task. P# q( c3 |; U8 Z! j7 j! I5 R0 ~8 ^
measurePressure=pressure+ RandomDraw(-20.0, 20.0) ! j$ P7 l8 x* q5 W4 v( R$ H. a // End the method. ! }! ]* l& L2 b$ }* f return9 ?& \& M$ \- |0 u5 m
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