2 O6 B' I6 a; ^! [5 Y# I5 S& S * H- F3 k; L. O# ?@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 1 e- d0 c4 Z; B* W& u/ m/ g; O1 M$ y7 [5 [ public double getMeasured pressure() {! W7 z# l7 V5 w* u0 q/ y6 u: l
return measured pressure( W: U3 r( }( L, M5 b+ f
}( _3 A% h4 f, \6 u
public void setMeasured pressure(double newValue) {$ |, D0 ^. V$ F
measured pressure = newValue ( d5 S& k) p6 i& k1 M% B" b } g/ t9 N' v# o3 x1 b
public double measured pressure = 0 # N! Y2 _- e. l+ J + u2 |' L9 A& C8 j9 \ /** . V0 `: T! |2 F: P+ u1 W0 ~. W; K *$ C- s4 v; S1 B3 ~! Y
* This value is used to automatically generate agent identifiers.5 t5 R( }: I2 |. L. C
* @field serialVersionUID J0 Y; X+ N2 ~' ]$ l/ h6 F, Q * 6 \6 }9 j: o& d, {) r */ ! K; R" X9 S y private static final long serialVersionUID = 1L8 w) Z6 C! d& p' ]7 H e
* Z! N% j5 h) C8 Y- a [% p9 n
/** - ]0 |! s7 D3 f4 c3 ] * ' p2 }' H' l5 ?; F& Y$ w3 p- l * This value is used to automatically generate agent identifiers. # I X+ | T) A$ k' E * @field agentIDCounter# z$ k, V4 T C9 K5 r: ?
*/ ?! a+ f6 w& D" n1 w
*/ . t' y: z+ e9 ]4 T protected static long agentIDCounter = 10 i8 G8 Y. W! }9 [
c3 i- c& W& X" N /**, U6 f! I7 C+ Z
* & V% M+ p! R5 ]* b9 R4 t * This value is the agent's identifier. : E% d# G$ X# b * @field agentID5 R" J0 Q2 i6 @) K, F4 y% v
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protected String agentID = "GasNode " + (agentIDCounter++) % v5 {' E3 L7 o2 G* ] 1 X' ]# n! D9 k /** 6 ]$ @% l2 k7 s6 I * 2 v$ H2 d" Z4 r8 B( w * This is the step behavior. $ A0 ^+ z, w4 G9 j: S * @method step ) R/ y- T; g! B * 6 ]# r" [1 k, z */ \" g2 A) ]4 s @Watch( u l* R# O8 U5 l/ v* x
watcheeClassName = 'infrastructuredemo.GasNode', 4 Y; G" S5 \3 c/ y5 y) s$ M+ I watcheeFieldNames = 'pressure',) M! r; V* F! F; X3 j4 G
query = 'linked_from',, U( ^6 e# L% p* ^3 A
whenToTrigger = WatcherTriggerSchedule.LATER,* R" R- ^3 ?" L1 b, E
scheduleTriggerDelta = 10d 5 i# {# O6 f" A ) , X+ X; ?4 U$ V public def step(infrastructuredemo.GasNode watchedAgent) { - e. A; f# }6 s + _1 P! n' _6 b$ s1 t // Define the return value variable. 8 e$ c. q9 f6 k def returnValue# q* ~& o' j- I/ u$ n% p
u. _( D1 W4 ~ s9 x. W) p+ a1 A
// Note the simulation time. 5 W/ F' Y1 y) R; E8 g def time = GetTickCountInTimeUnits()5 g6 d2 a v7 P) C. K* V
7 H, Y: P' ^6 O& v% Q% I8 z" r$ o 2 [. i7 f- `) | // This is an agent decision. , a, B5 x) A6 m3 Y if (watchedNode.pressure<200) {. O+ s' s$ \' q8 i. j
& y9 l; H+ Y4 K // This is a task.7 P- R; z2 w' W
setPressure(watchedAgent.pressure)6 F& M% P; t0 w; X/ m1 w; _
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} else {8 |; u: H- f$ T6 T) Q
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}4 Z2 [2 I, N, I; ?
// Return the results.5 Y" q' z8 V C) }( M3 E5 V) C
return returnValue 5 O, c+ s' \5 i+ j( n) B0 S, x4 H: p/ d: M7 H
} 3 }1 @, a8 @+ i# [" g4 q0 K, D 6 ^/ U) l( L( l, m, e /**! K1 b( P8 h, y& I
* ( m9 K. K5 f; }8 g. ^* R3 b * This is the step behavior. ! W0 L7 W6 b4 `7 s9 A. H2 j * @method step # Q! R' J$ H v6 Q9 ?: r9 A *# m( z9 |, `5 o6 k7 X W: ~
*/1 X2 ], c2 N) x
@ScheduledMethod(3 ]5 P1 s% k$ `8 d4 H8 V* Q, @ w
start = 1d, - O6 U" \) |( t4 ? s) X5 a interval = 1d,0 d, \ ?) c! Z Q5 P
shuffle = false 9 f& N# \5 C( J) g6 X )0 c, b% x/ `) z: I6 D
public void step() {' N2 l: H4 h* k5 `3 X
7 X6 J' [) u3 b2 c. ~" t4 S
// Note the simulation time.& L1 x& a' _9 T5 ^6 |
def time = GetTickCountInTimeUnits() , q% L7 o. r" E9 {9 o 2 b s. I- Y7 o3 t$ z9 `/ K. B4 C // This is a task. % z2 D$ l+ V2 A/ F. A; [ measurePressure=pressure+ RandomDraw(-20.0, 20.0)7 g: h. E- }1 N) f& R `
// End the method. 9 w9 z; E3 S* }7 z return- K* q" L2 Y9 v3 H2 h+ [
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}
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