, U6 }$ ~% E) n* ~9 a7 A 9 i2 A" e& ]0 h+ c6 R@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") " Y# d, s, ^, m# [- c public double getMeasured pressure() {+ M9 ?2 K" O$ H( o2 k
return measured pressure 1 d7 T9 D8 l- E; \ O } + \. M( E1 l* W5 G* a/ B2 E( d Q5 e public void setMeasured pressure(double newValue) { ) j, v% B7 d5 `6 j2 {6 @' M! L measured pressure = newValue6 v, v& `3 X: Y- H9 x
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public double measured pressure = 0/ a% p; B: m {- ~; t
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/** 0 t; U/ \' u R: R * / e' C6 f8 n: z. J! b7 n * This value is used to automatically generate agent identifiers. 0 U; g( G7 n# I! [% u * @field serialVersionUID + j6 e$ G. G* d; y * . q5 N1 Z g% V& E" P4 \+ I' o' q% S# | */, D+ i# r2 {5 y: ^* ?$ G; _9 |
private static final long serialVersionUID = 1L ( Z) Y p9 ]5 N# V+ d$ ^( i# ]# ^3 U+ E, o. O, P0 b5 x
/** 2 h! b+ {5 {( y+ t) e: i * % e5 D) k, B8 G$ P% k( w * This value is used to automatically generate agent identifiers. 5 o) e5 c9 Z" S0 X+ b8 ~ * @field agentIDCounter7 E5 Y) P6 I Y- w4 Y6 ^! g
* f. E+ N. G' f1 K9 c( N5 Z: F5 n s */ 0 m3 X5 o; ] G" Q2 P8 F/ C protected static long agentIDCounter = 1 3 O8 E1 {5 n- O' U* [ }$ N 6 N5 i1 b+ B3 U9 a( d+ Z8 P /**, z2 ~! {% N% P) B
* , v0 C7 }" z2 f( } * This value is the agent's identifier./ b6 U( M, J8 @$ q# }
* @field agentID) p, U* z/ e7 ? [& Y
* 9 T7 r9 M9 K7 M `# @. S, t0 ? */5 y, n: P; N' }- C
protected String agentID = "GasNode " + (agentIDCounter++)7 p5 z) D* k9 h) v$ o% ~% v
% g, Z) [5 |2 z7 |# N /**6 _: k, ], Y( x+ }# Y& C
* # g* q" I+ R: B d Q4 d K * This is the step behavior. ) v3 z: v0 ]2 j: l * @method step i) o% J. \6 m" e
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@Watch( 0 w9 K. S5 [, L/ b4 h4 @ watcheeClassName = 'infrastructuredemo.GasNode',, d J0 J" o1 [, T% [% n4 w
watcheeFieldNames = 'pressure', ' j; U& J9 @0 D# ]3 Y query = 'linked_from',3 F5 I; E" E/ X& h$ R
whenToTrigger = WatcherTriggerSchedule.LATER, 2 u' f) Y$ Q! Z; Z% Z2 } scheduleTriggerDelta = 10d b' c% F4 l' H: u ? ) 0 t8 K8 i! j: j0 \# A8 \$ s public def step(infrastructuredemo.GasNode watchedAgent) { 2 @5 L# a. |5 i% H7 x5 b0 R3 D& y1 O, q7 D& \' j
// Define the return value variable. H, \1 h: a4 ?- Y, U& \8 ^
def returnValue9 b3 {9 l. X$ ~ \
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// Note the simulation time. 2 z# V C# k" G def time = GetTickCountInTimeUnits()1 q7 o& y8 p, Z
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// This is an agent decision.2 B6 c6 ?+ u! j
if (watchedNode.pressure<200) { D! O+ ?) E8 |) I 2 o. K8 p9 y1 x) T // This is a task. 5 {1 a8 M4 `. A% _ setPressure(watchedAgent.pressure) : r* J2 l Y% X* f3 i" e : @5 T0 ?# D. E: |6 c } else { * T3 H# ~% G$ m q: P6 D! V O+ r% ?' N% E3 M7 B M. S8 S
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} # N; r, p8 f; O# p y g& C8 x% W // Return the results. * D6 |1 N) q2 U& c& }9 x return returnValue1 l0 Q$ q6 r( r1 A# R& B# x4 b4 U
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/**8 y3 K2 ~& G7 h2 M& @; |
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* This is the step behavior.& S [: W% R$ B! c [& R( }
* @method step5 {* F S* I$ u$ ~ a, f2 D
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*/ 5 g! M1 A* X/ H, A @ScheduledMethod( - |$ J; c2 z: S start = 1d, # C3 ?, O; x9 W interval = 1d,4 X& ^" |' K4 @; F. |+ G4 R
shuffle = false) ~ d. U( }. j& _
) 7 _; W' K* M8 _ I public void step() {! o( F7 F5 X8 q. j) K
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// Note the simulation time.& C9 X2 a9 v7 R g; D1 d( e
def time = GetTickCountInTimeUnits()/ H- ~: P* a$ r: g, y
8 l V+ r6 c8 v' B4 k8 z // This is a task.7 h' V, C# M. Z. l; ~6 O
measurePressure=pressure+ RandomDraw(-20.0, 20.0) ) M2 A3 r' g/ D) V r // End the method. ! f& ~; f d ^0 S) T6 b0 g return 2 ^! I' y- n; ^! Q) \! C: s3 n: b) p
}
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发表于 2009-4-4 12:21:26
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