# z1 W& j8 `4 R/ ^+ o@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")/ H. w) P, ~7 E7 M
public double getMeasured pressure() {# Y+ N& a0 [; Q
return measured pressure s% q. k2 u) `! g* V( c* v8 K6 x
} 0 @" ?! R% }# i2 ]/ q9 l public void setMeasured pressure(double newValue) { G b" N8 B- [: ?" M
measured pressure = newValue 4 _1 W4 s* {4 _1 e3 F5 \$ L }, Z* t3 I8 B u' H9 Y; \
public double measured pressure = 0 / U3 D/ \' Q* s$ i" j 1 o; H/ W1 J8 i2 i" o) X% C /** # k3 m: O3 k5 y) @: p *- n' r( T5 A9 @; U) j/ S9 r
* This value is used to automatically generate agent identifiers.$ K; x: W9 w4 w4 \: ~' [2 S5 t
* @field serialVersionUID 7 g3 A6 l7 v; F' g *" i( _, W: M$ p7 u: a' G6 I, b8 o' C
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private static final long serialVersionUID = 1L9 H- g9 F# m* B, C' e& Y
) \. Z" v n v$ `* x; G( g /**3 D5 M6 y7 D$ i( N$ O+ M' t1 \5 f
* 2 {# k9 P2 p/ p' c; F * This value is used to automatically generate agent identifiers.3 k7 F) q9 _& w" ~$ w
* @field agentIDCounter + A7 s$ s% n# L5 m- V; c @ * 9 t6 O% a6 f2 f: R4 O9 o */) a. P# O' }( e1 v' V
protected static long agentIDCounter = 1' [6 @$ i0 F5 K6 W @
# ^: g" X! p# B% `/ y /** d/ O) \1 O4 N0 l6 L * , [, z, f, |: {0 _9 D [! |5 J$ Q * This value is the agent's identifier.! D& z( ?, k0 ~# S( T
* @field agentID" ^; v5 Y3 P7 w; Q% J7 T
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protected String agentID = "GasNode " + (agentIDCounter++) , p. T6 K/ X( k * M7 W3 y9 }. L1 e) J /** : G9 f: N4 l. R; o * ( ~4 P) Y9 c2 V# L7 Z * This is the step behavior. 2 |3 n! P" y! [$ y3 A, i, T * @method step " |2 V1 F+ C( G ** r; V _9 {/ |
*/- K% n" t9 B. f6 m$ h5 s: [4 O& c
@Watch(- W) |8 I8 q% h% |. f, j3 d
watcheeClassName = 'infrastructuredemo.GasNode',+ \; }! }* h$ V; q& x! I
watcheeFieldNames = 'pressure', 0 Q; S! u3 h% {, G query = 'linked_from', , z1 ], H0 |$ J& E5 W6 R3 V; H& E! f2 r( x whenToTrigger = WatcherTriggerSchedule.LATER, 1 c! l3 r- p: r: r3 U- \/ Z scheduleTriggerDelta = 10d , a) p- k: S: c ) 6 I4 T3 X8 z) m. v6 m2 j3 K$ g public def step(infrastructuredemo.GasNode watchedAgent) {+ ]% w. B9 w/ _; Z. {# C
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// Define the return value variable.- `/ w8 [" U( {9 m3 G: J
def returnValue/ {1 i) k! x' Y
8 W$ }, U- O+ r% E3 i" D( J // Note the simulation time. + f! q# s6 ^5 X4 C% D def time = GetTickCountInTimeUnits() 8 |2 L2 c( M) @1 ` # [4 J% }0 z l2 p 7 {7 l# U4 X* O8 J // This is an agent decision.: ^0 S4 z4 G8 y- b7 [
if (watchedNode.pressure<200) {# d3 m, M, d; x3 i: P
+ Y; Y/ a" W `; ~6 ~ b9 z // This is a task. ' s u G, d0 z$ f8 {6 u setPressure(watchedAgent.pressure)/ {5 K7 k! R1 W( A* g- P# N
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} else {" z' @4 w1 R$ W' P) d: A/ t7 P: K
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} 7 B( H8 b, a U) _; e // Return the results. ! ]* X8 |: ?1 c1 G return returnValue 5 u' j% I! x/ W9 f' J: G( ] * b; J8 k! I3 Z } & f! P; ]; E F' l3 P2 O( Q " }% i+ l& [6 D1 M4 \ /**$ C7 x% G. Z: b) k, U" p0 ^+ W& J
* X ?* f- {" g, V7 D" _- J, @: ~ * This is the step behavior." ~% p5 F7 _* i) ]- [+ D# N
* @method step 9 v ~- |9 W( o- L *) k3 R9 z2 K" x$ {) X) h
*/ : e" g% r6 } b. S @ScheduledMethod( # q0 M# @( I( s. Q- `8 i9 Q start = 1d, 0 ?, O$ k# R- v( Q" E interval = 1d,7 @% x. b, [1 h
shuffle = false, c" T5 L2 C: e6 h+ {
) ! Y$ f: u4 d8 G' C, {4 [ public void step() { 8 L' X4 W- m! T( X8 z/ L* i5 h) Y) F: q) Q+ j* J
// Note the simulation time.; D* L: b6 s: b) ?# P
def time = GetTickCountInTimeUnits()4 R3 H8 t% M- L* \5 B! j. I9 _7 e
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// This is a task.* g( e* Z% z3 n$ d8 Z
measurePressure=pressure+ RandomDraw(-20.0, 20.0) $ m' E2 x' J2 z // End the method.' R+ ~! y4 Y) U6 z! _- t
return* o* A5 y# y: w z$ W* {
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发表于 2009-4-4 12:21:26
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