! g" B3 w4 g% t6 s# l' w8 p + p; U d3 [% j1 j% Y2 k5 n@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 2 F, z1 k6 I+ v+ \8 U+ z4 {; c5 ? public double getMeasured pressure() { 6 D6 W* r' E, X9 Y* m return measured pressure6 R/ i* u3 J. u5 |. j' I) D
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public void setMeasured pressure(double newValue) { 4 e, ]2 |5 a; k measured pressure = newValue / f X2 C; ~4 ] } $ T8 U9 t" W" ^ public double measured pressure = 0" {+ c( h' ]& ?3 \
& S3 E5 y5 \2 S. B) j /** . }7 {* W. F5 k7 z$ Q7 K5 f * # t2 v& ~+ _( H, S * This value is used to automatically generate agent identifiers. 2 P* m; l: Q$ q( d2 [, T * @field serialVersionUID 6 O0 t1 ?3 ]4 J; ^- O. A * , s9 }! g% Y8 B1 u' r */ 8 f1 O2 b$ [; O6 ~( l h# S private static final long serialVersionUID = 1L; n- Y9 P m" w. x6 h6 W8 Q# L, Y0 i
- r7 {* s( |/ k* |/ E /** % b6 F; @5 D# _; N) | * * t) t0 k0 y/ o" e/ x * This value is used to automatically generate agent identifiers.9 D( _# F7 C. O4 L8 R9 ~
* @field agentIDCounter- B$ m1 z" W, I5 A
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protected static long agentIDCounter = 1, v" k# s7 H* R( |2 x+ p
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/** 2 z( }! f$ Z6 a/ V* X" S( }# Y: S- ? * . V) p$ F8 }/ w$ f# C8 o" ~ * This value is the agent's identifier. 7 E; R6 }, X( r# h * @field agentID 0 d' ~$ T! C1 Q1 _! @/ H * 3 I; I% Y$ ~, i+ z( V# e */( U+ p( }3 h# o5 M }8 V% _ Y
protected String agentID = "GasNode " + (agentIDCounter++) 7 z! H8 d( y" o" t) P+ @7 ^9 c& {6 \' j- N/ ~/ G
/** . r) E+ P: B' }! `, @; L: X * $ x) q* t4 L5 { g) m * This is the step behavior.3 t/ N& A) s/ |! p! N% \1 B
* @method step % Y( b# f1 p; ^- h @0 s! P( i * 2 }1 z, ]- h3 O4 V; K% a6 e6 _' z */ + s5 b! h2 h6 v X @Watch(* O$ \5 M* A0 m9 q+ w% Z8 M1 a
watcheeClassName = 'infrastructuredemo.GasNode', - o/ Y) Y* J7 B$ P watcheeFieldNames = 'pressure', % n6 X* ~! o0 t7 W: [ query = 'linked_from',* I. L8 ]" X# t1 B7 D! p: @
whenToTrigger = WatcherTriggerSchedule.LATER,' e' Y; T# `* H/ ]5 \) H
scheduleTriggerDelta = 10d4 W( o+ {& w& m8 _- j, X
) k3 d$ S* [8 u! b! W3 G. R public def step(infrastructuredemo.GasNode watchedAgent) { 8 P$ a* H4 I) } v+ q0 T. F& U7 ^) Y6 G" M( C& f
// Define the return value variable.7 ~0 C5 _1 V5 l; F
def returnValue 2 i# h1 Z4 j' e+ `7 m- t- B$ B% h! b , I! T3 y x/ E // Note the simulation time.- n2 {& a9 T+ J T
def time = GetTickCountInTimeUnits() & A% X; ~; G' h# N0 ~5 p1 R) |' V' j: R8 a# O
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// This is an agent decision.. s& u; [, K6 n! ?8 \: t
if (watchedNode.pressure<200) { 2 c" i4 ?/ _8 q2 z' K! b5 q 3 K1 B; c+ R( Y1 J# z1 w- w! J // This is a task. ( f! P7 X( ^( Q; q( u/ t setPressure(watchedAgent.pressure) : F/ l7 t+ g) N1 Z; ?9 e ; E# ]1 r3 `( j7 X } else { / t" K4 m, `! l, v7 |4 B5 f4 G2 x 9 g/ J& J, {# L7 H# R8 @# s' ?- E0 ~" V
} 4 @. K" ~: C2 g // Return the results.( o+ p$ l& H ~- W: W
return returnValue , Q+ T# j* M6 b! r* G7 J 0 X4 K' t5 e t: \ } ! f3 i/ w9 q) x( P $ X2 K- Z2 u; X1 o% `' P, u( ~ /** ( Y% w' i' V8 N3 F. Y! C L * . x6 Q" N- |$ m: P: K7 @2 F * This is the step behavior. ( ^! s5 ~$ t; _3 [! g' y9 ^7 _3 H * @method step+ o) @+ V* S' p& g
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start = 1d, # \' k6 ^7 B% U interval = 1d, ; h7 l$ j; N/ i: m1 Q shuffle = false " d% s3 A! b: u" s, D, M ) 1 h2 f: `6 b1 n8 a; T& J public void step() {- G$ h k9 I7 H
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// Note the simulation time.0 y' o% r, O6 a, z2 q+ i
def time = GetTickCountInTimeUnits()# F, h4 {- h1 e8 c
e- Y/ | g1 ~& H9 M# J( |5 Q+ m4 w // This is a task./ Y; f5 m1 ^: D
measurePressure=pressure+ RandomDraw(-20.0, 20.0) 3 n! ^/ }) _3 C* V# v# r // End the method. 9 }1 q( u8 v' F2 M/ C9 `& _( } return% S6 r- m8 y- R6 q
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发表于 2009-4-4 12:21:26
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