2 t. o% _; M: C t& \ 2 D, T, q& z$ h@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") ) M( c* {# n: e- I, t' l C- Y9 \- w public double getMeasured pressure() { 4 U. s+ b; E& f return measured pressure% i) ^& u' ~: k8 z( W' B. O7 W
} $ V& M) \$ k+ C: c" ~ public void setMeasured pressure(double newValue) {9 q) p& a, f6 L0 p
measured pressure = newValue : P! r, u$ i5 Q } f9 L# H! |9 Q7 {
public double measured pressure = 0' l8 k. `" C$ i7 S) a* R3 O
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/**1 e, v$ z3 N, d! r( t
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* This value is used to automatically generate agent identifiers.; f, `3 J- g! G
* @field serialVersionUID + R# c( m9 H! W9 j6 x# B+ s * & m* |* \% @+ c2 B! u */4 ^# {, {- T% c4 o% Z6 ~" k
private static final long serialVersionUID = 1L 5 F; _: O5 ?* h7 S) X5 t : {' t+ t5 i1 O- o /** , M8 b7 W! K6 l* B j- m * & N2 g0 y$ a" E5 b z * This value is used to automatically generate agent identifiers. 8 ^2 q: q4 l3 { * @field agentIDCounter 9 Y% L% p1 I2 J/ P g4 @* F * . ~8 W4 {( V. R/ r */ 0 q$ c; n2 v5 V' B7 o! I protected static long agentIDCounter = 1 3 G: n, q7 K# O2 J1 ?% n$ W/ C( M N$ _6 z, N4 G
/**; W" a- J! U4 ^. E. R% k
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* This value is the agent's identifier. 1 _. n ?& f- [6 S" _7 J8 o L * @field agentID 0 u5 }2 v8 a# n9 F' U; C *2 m7 I) V6 d& b7 X
*/5 F- U! x L+ c: g! }. C
protected String agentID = "GasNode " + (agentIDCounter++)7 ~* e& g5 K: {; D% J- h
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/**/ P- l8 f2 A# ~
*- V- p/ `) `6 V" o- V0 X! f' |
* This is the step behavior.3 O2 Y; i' f; n
* @method step y5 F2 ]0 A9 z$ o
* 5 Q7 @& f2 y9 U9 n5 z( Y! t */' T% {1 O' g" r% W m
@Watch( + U' k. {0 o, Z! O0 O1 l# ? watcheeClassName = 'infrastructuredemo.GasNode',7 A1 R+ S( ]. O V
watcheeFieldNames = 'pressure', ' q5 @+ d0 t" `; b. J9 D0 G query = 'linked_from',9 f& q) P" D) K( W: `
whenToTrigger = WatcherTriggerSchedule.LATER,$ a$ Z/ }2 |2 N4 P$ e$ j
scheduleTriggerDelta = 10d ' a) e0 ~" C: L3 y2 |$ _ ) - y! Y; C8 k3 ~1 g1 e1 _4 {# G public def step(infrastructuredemo.GasNode watchedAgent) {4 E/ c L }3 E8 V' d, g# ^
$ P1 k5 l5 n$ ` // Define the return value variable. $ E2 P: H# g+ H0 O+ e, m4 O, [0 O, ~ def returnValue % q1 x5 L5 y& f/ S! l1 P( C ! w, _; l3 y' L // Note the simulation time.! w3 m7 J, g8 @% U
def time = GetTickCountInTimeUnits() $ q6 y( B' s- @* g0 D 5 Q! W/ p* G* i: ] 7 |( @. W3 `4 S0 V) ~6 s+ K+ m // This is an agent decision. L" Z/ B! K) ^- ?. k
if (watchedNode.pressure<200) { 9 P" T) w( G- @" n) g" F; h2 @+ e6 O# R8 U; W
// This is a task. 8 k. V! a" Y) Q$ q! y! ~+ F' Q# x- z setPressure(watchedAgent.pressure)& X. | }% D/ C* _0 u
. b. x. u$ B9 _( K: C } else { % t$ p7 F2 ^ x5 w0 e% b ^7 { + M- w9 m( I8 p1 \/ [3 l5 ]9 m' ^ ) p- ?4 t* n+ W" U7 u2 V) k } & D1 f3 f; v( A) M l7 v( P // Return the results. / i/ X. Z" s" } return returnValue# \ \: J- r* ~) W# _ t
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/**' x9 {) o: v, Q# f7 X. F. D
* + c. _+ J' w; ^ * This is the step behavior. # L' t$ @5 r8 C+ n/ \1 P R) @1 S * @method step/ k& r; p6 W. I2 b9 u& W9 \
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*/ 8 \: v U! Z6 \& o' u @ScheduledMethod(: ~6 \. y$ F6 S: N6 T
start = 1d, 0 W- |' j( ?% l interval = 1d,9 m; a/ @' y5 U' J$ l
shuffle = false) n( n0 Q0 O! ?" v8 X
)6 @: v/ u. f, D
public void step() { 1 S9 B" d. }& r% M9 s( s H4 }, ^) Q( G7 O
// Note the simulation time.* C' I I, e6 C3 m0 O; C* O5 p
def time = GetTickCountInTimeUnits(), f9 p# [) w) s( t7 {5 K
+ ^4 L0 P4 C0 C- [, ] // This is a task. % ~3 m& d0 u2 L* n0 ^6 ?& H$ ^% a9 o measurePressure=pressure+ RandomDraw(-20.0, 20.0)0 t% D: f1 E$ T
// End the method.; ]" ]9 x% I( }% G9 d0 _ X$ a
return1 c( m6 C% x" c! R- c% }, w
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}
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