( m7 T- d* q( M/ M) q" m( L. h1 c 5 ?# {, ?" \8 `3 y1 B@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") a, ^" |& r" C O2 F+ w
public double getMeasured pressure() { ) r# y! ~; r6 P% e1 v, ]7 T return measured pressure ) m8 ]" }3 j- b }0 |: p( _# u8 G1 v4 A6 N
public void setMeasured pressure(double newValue) {# i( G8 H u' G* p
measured pressure = newValue/ ]. |" Z5 P6 W. Y- T/ u/ v6 s' X" \) H" \
} # `& j; z4 T5 a+ `9 k3 e( w public double measured pressure = 0% D6 R$ r' o+ h2 r# Z( j
* N+ N" T6 a6 ]) R+ ]0 f* | ] /** 5 S& y) W$ e' E% E) l# W, w8 K& ]8 Z *9 {, t3 |3 G9 R8 G2 ?9 s0 [& F% e
* This value is used to automatically generate agent identifiers.$ M$ b8 h* b2 w- M" H5 O; `
* @field serialVersionUID 1 x% a8 ~; g2 m * # ]3 x* E' }7 v2 m9 i9 [ f# J */ ! h9 W6 l9 S% w$ y/ v: t; _ private static final long serialVersionUID = 1L 9 ]& i& Q; V- H2 U + q7 z! J9 @* v* `' I% q" Z, ~% [- { /** 8 G2 b0 `+ o6 Q6 L3 Y% c% G+ p *9 N" R. f- ?' Y9 R8 ^% s1 w$ C
* This value is used to automatically generate agent identifiers. 8 z4 J+ M& S7 D * @field agentIDCounter4 l: w+ E9 W Z1 e2 c* T% h
*! ~, S* S3 C# s0 Z$ d8 |8 N7 c( Q
*/* ?' h+ Y0 [+ N
protected static long agentIDCounter = 1 7 [" k* J5 ]; C; e4 d8 [5 {/ ^1 N4 N! m& W. ~; G
/**4 ~; G; f& q& L% q, w6 l3 l9 C
* ! Y" A3 F6 I4 K5 X7 j- G * This value is the agent's identifier. 6 y: r" u' b# u0 h* q * @field agentID / c/ S/ a' z0 i1 s& m. N * , c+ @- ?. Y& N; O' n */ 4 d7 {5 ?! e N! i6 e2 i m7 Y protected String agentID = "GasNode " + (agentIDCounter++) 2 z: h- G3 K2 ?, ?' J; H- |. v9 O X1 [& y7 {
/**- W. n. c4 j b% R. S
* Y, d0 t& X/ k* y5 f
* This is the step behavior. * Q6 R5 ^" J" M. A% r. @ * @method step+ M1 t- g* W& x
*' W1 X( m8 a$ E) J4 h9 V; E
*/ 7 v9 M+ ]- g% L. i @Watch(5 Y3 @. r0 Q2 c4 b) G
watcheeClassName = 'infrastructuredemo.GasNode', ( c a3 y- r; ?7 ^, Y' p5 V watcheeFieldNames = 'pressure', 9 [$ @7 c8 v7 E1 J+ F' s- { query = 'linked_from', \; b' }/ Z* [6 D" ^4 M+ v+ Q
whenToTrigger = WatcherTriggerSchedule.LATER,7 G8 Z5 t1 M& O9 y/ }
scheduleTriggerDelta = 10d + Y# r5 k/ W. e# W! O$ r" w ) Q0 p* e5 k3 B( }; n public def step(infrastructuredemo.GasNode watchedAgent) { : E4 |& [9 k- x# ?: B% k/ I/ U$ U5 w R+ }8 X/ V$ S
// Define the return value variable./ k9 Y( N- {2 }# F
def returnValue* F- ?: P! o2 G, o6 m
4 {9 D5 M; e$ j3 Y- h9 A0 Q // Note the simulation time.- E; \3 t) W- w. }
def time = GetTickCountInTimeUnits(): | ~9 V6 D$ \! E$ L( l
3 c- a* \0 t" n. Q0 G, v
/ r% n0 @$ Q$ j; [9 E# l2 g+ u // This is an agent decision.+ V- O, X! e9 }4 w
if (watchedNode.pressure<200) {5 \: P# |5 D# ~9 A% U- I2 L" U
1 ?/ ~- e$ w1 q // This is a task. 1 W4 D6 f3 M! V' ] setPressure(watchedAgent.pressure): D$ v P1 V: G# h2 s8 d
$ w. k- [( g( |& X/ K, a
} else {& m; ~) h9 p2 |1 a' t4 Z
+ F2 }0 ~6 c3 n# q0 i: Q' w6 a3 }. }" i1 X$ [; r
} / R2 u" _; p$ P8 m // Return the results.0 f# e; p9 ^2 `. q1 }0 p- x
return returnValue5 E1 g3 p5 H7 V% {/ h
+ E: n) Z- p4 Q% c8 ]& s
} 8 D- o5 A3 A+ a: s0 a1 r7 I! B6 u! l0 V7 K* I
/**' U) c' B* v& d ]1 t8 V
*) h% S! `# Q5 ~: y3 x+ A: r
* This is the step behavior. $ x$ b. T1 ?. o6 l * @method step4 `4 A7 H8 l8 T4 U3 M4 `5 c( R
* 3 g: L7 z0 I9 X4 x, C: ]9 d */ f3 F+ t& a) e0 x
@ScheduledMethod(3 F; Y. Z: n! \# q5 n% f
start = 1d,: X. w$ o% D& L+ C
interval = 1d, 0 C& f# T! ]7 [: H shuffle = false 0 B& \0 h9 t2 o1 w1 J l, q7 I ) ; U7 J' `( }3 J% R' G! ` public void step() {: Q8 }7 f# w+ r9 P. X
3 B% n6 l+ I+ I$ s5 V // Note the simulation time. 1 |* g$ ^2 l9 F r/ Y3 K def time = GetTickCountInTimeUnits() 2 n3 t/ }5 d- d ; N* x# d* L8 D3 R' k5 K0 [ // This is a task. 8 Z0 D: Z3 P: N8 @8 L: z q$ O measurePressure=pressure+ RandomDraw(-20.0, 20.0)# l: i1 j: D6 k+ p0 _
// End the method.+ z8 [4 ^/ D* j
return; u& Q( ~; ^- x9 D7 C5 E8 z
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