0 `( Q% }: D" @8 Y3 |0 b) l, E# ]@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") # \ v! z) N \/ P: |, z public double getMeasured pressure() { ! ^& x7 P# S0 y3 X$ {4 W return measured pressure 3 y! p" }$ s1 x5 Z: a6 e+ l3 | } 8 Q5 @4 |; B) c. W, y# q( } public void setMeasured pressure(double newValue) { 1 B5 T" T; D, w7 F" G measured pressure = newValue 4 e( h7 f, m4 d$ I: l$ B } 4 n# L; |6 v& w$ }, e public double measured pressure = 0 % {3 o* u- R% Q: X* ? , N( u% t1 C. \1 N/ B8 n /** 8 o) a" a3 e; h4 n( A *& s3 h7 f6 k% G7 `" S1 p9 `% u
* This value is used to automatically generate agent identifiers. : a7 p5 |: U$ v. q4 B3 a * @field serialVersionUID ' r8 g+ a" ^1 u4 U4 J5 W *! C3 O e) e8 @; N8 l9 y
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private static final long serialVersionUID = 1L " [0 _, Y! H# k. \; S 3 d; D' W5 }4 _. _ /** ) H/ y! `7 V" y: L2 c2 K! j * # v) q. H& e& r* H) r+ _* _4 g- ~ * This value is used to automatically generate agent identifiers. * \7 t% U. A r * @field agentIDCounter5 i2 P j+ c) }
* 8 K8 z: t/ ?- ^( x */0 r0 s% h( i. Y) \% k* s# O7 N8 C* R. I
protected static long agentIDCounter = 1& z* X9 h H( q/ w
# { A5 X: V, y7 l. f* ~ /** ! g& C2 x( |2 K" d5 Z1 b, e9 U4 D7 W * ; V! @$ R* K: q( v* X * This value is the agent's identifier.# x" F: v$ H9 G: x* h
* @field agentID) k7 D0 L6 b+ L
* 6 Q$ G) f9 o3 Z R */: B: [" ~9 r' U% N7 j
protected String agentID = "GasNode " + (agentIDCounter++)$ V7 ]8 N% O, |; l$ ?$ D1 H" p
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/**6 B' k" H( U* b4 c' l) c% ]/ t
* ) R4 j# ~0 [" A' F* t * This is the step behavior.) S, n5 |. S$ ~2 r0 _
* @method step; Z9 O4 n; M7 d0 `& C: M8 m
* ' }* w3 ^4 @) f# t* F */ * @0 w# } C5 Z- g* t @Watch( % h2 f5 S2 o4 a% t+ o- F watcheeClassName = 'infrastructuredemo.GasNode', " D' N" a2 {1 G i watcheeFieldNames = 'pressure',: u( v% h' K/ ~3 l
query = 'linked_from', . l$ x$ f" D! ~ W. h6 u whenToTrigger = WatcherTriggerSchedule.LATER, : c4 ^6 g/ W, E b* P3 j+ Z scheduleTriggerDelta = 10d # ?, c: e9 L& I$ b )& F4 B5 ^4 s, s! G: u3 G1 |
public def step(infrastructuredemo.GasNode watchedAgent) { 5 G1 t J8 G7 c) [: x3 b' M 4 ]+ l3 R; s* [4 ^$ ~+ k5 T' L // Define the return value variable.- R2 t5 E" i+ d% `! W
def returnValue% r8 k' w. m; \$ v/ e$ S
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// Note the simulation time. ; q2 ~1 V2 e7 g; g def time = GetTickCountInTimeUnits() % V( f7 {. `' ~ D+ H 1 j: z) S e! {/ B0 V$ {( I. l " S1 p; N& L1 ?2 g4 V // This is an agent decision.: A* S* k, T0 ~1 H
if (watchedNode.pressure<200) { 9 i; B$ v8 M6 t3 O9 e- } 1 \5 C) ?5 A, V7 o$ \ // This is a task.: A; w9 l5 q! y4 c: m- Q2 D/ z0 s
setPressure(watchedAgent.pressure) 3 D# v7 h s! d6 Q2 Q0 _* J& G% X8 r; o& C* ~
} else {. r7 H7 Z: u6 o7 S
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// Return the results. , y( U& e- A& R( [+ u. t return returnValue: R. [: |- g1 t" O
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/** / X& G6 v X0 R/ A * 3 e$ C2 }: S$ d6 u7 j# g9 ~! @" A * This is the step behavior.% x( m* `1 b6 B4 L) G
* @method step 3 z# A/ i0 E% j0 P* x1 \ * k$ T6 {; |3 N( S8 Y* t1 C
*/ f, A8 K0 d. [! t @ScheduledMethod( ' L0 F8 s8 n- v/ w: L( A# Z+ i start = 1d, " L: ?) F. c" Y+ c& f5 j interval = 1d,9 s0 @# g/ R8 K: d; Q* V4 K
shuffle = false, w+ v4 V& q8 J2 Z8 b
) ! F1 w9 b% D! x$ ` public void step() {) X- @# I+ ]' ^9 {- M
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// Note the simulation time. 0 N9 G- c* x& L1 M3 e( Y def time = GetTickCountInTimeUnits()9 N0 ^8 f3 B2 j9 y/ M2 K* G
7 s1 W$ ?: h( |6 v // This is a task.& X3 X, c# ^5 |2 y" Y0 F L
measurePressure=pressure+ RandomDraw(-20.0, 20.0) * a( o: U' {5 M; v0 N# l, ]& o2 u- \ // End the method.+ h$ o" @5 M/ Z5 T
return ; r, D& M, X1 t" Q $ F* Z' I& z0 W6 b. R }
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发表于 2009-4-4 12:21:26
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