& c, ]% k7 y6 ^, l3 v. v@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")0 ?" o) q9 N$ D
public double getMeasured pressure() { % t" K) {1 R4 J+ p, Z; R return measured pressure/ L. \+ X# ?# x) D: l
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public void setMeasured pressure(double newValue) { . A+ e, i* X1 n4 t measured pressure = newValue# p0 q2 x+ `" H% n/ z
} ( M+ H H/ j) X$ l" [% _ public double measured pressure = 04 E% b2 V0 K' l; C4 X
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/**! H# N& n9 f ~/ w5 n
* $ e8 L6 b3 `" N) @1 q% h; j; Y S * This value is used to automatically generate agent identifiers., u+ H# ]3 J# L) w+ ], Z
* @field serialVersionUID + V' ^ B( |* D. e. n( y * 8 U3 a3 k3 u/ U+ b' t */0 H5 E* B0 U7 n: q! K9 ~ v% R+ n
private static final long serialVersionUID = 1L7 h9 s: P* a) w" o, z2 b" J
! s* z" d* x: a3 `6 V5 n. B /**! w( u3 J; P# B# K
* ! i$ z& y* p" i * This value is used to automatically generate agent identifiers. 9 o& a9 k' W$ {- P5 W5 I * @field agentIDCounter / d9 V5 \, `9 Y$ M) e R *5 A( _6 z0 R* f8 A+ Y" V
*/ & k5 U" f% u/ S8 w+ ? protected static long agentIDCounter = 10 G5 Z( k$ H! Y' f; b( z
! z( `, G4 {+ I3 w /**/ Q, ~0 ]0 I8 X: W% ]8 N, X
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* This value is the agent's identifier.* h% V' q* `4 v8 o
* @field agentID : ~: [. m0 B# ?0 i' S * ; F& Q/ |( A3 m# ]) `! [# p q */ * k$ u; A! F* c( B protected String agentID = "GasNode " + (agentIDCounter++) . G' H: Y2 s2 |5 E& G1 {8 [* K- k7 w: s7 q1 \3 L- V
/** ( V* m h2 a, a9 f! a8 P4 F. J2 P0 R9 j4 l *3 n- d! D2 k5 Z% }
* This is the step behavior. . p4 U4 v$ g$ \; N* R% { * @method step : ^4 J# e% A3 B* z, Y- G6 J * / Q9 g& y/ V% ]0 j0 G J */ 5 d1 o# p* ^: G$ Y8 G# o @Watch(/ m+ n) p7 Q4 H/ ?- n( C7 ^
watcheeClassName = 'infrastructuredemo.GasNode',2 A4 l5 _& p# ^
watcheeFieldNames = 'pressure',) H/ v' e) h# l% G4 }' B
query = 'linked_from', 1 s) |6 D9 P3 q whenToTrigger = WatcherTriggerSchedule.LATER, 8 _4 j+ r* M8 Y v3 U! ^3 K/ \' D scheduleTriggerDelta = 10d) r, p# P; U! |
) 6 A2 ]5 ^+ m! U) R+ t1 G- d public def step(infrastructuredemo.GasNode watchedAgent) { * r' d4 l' c4 w+ a* B . G' a; K7 B# ^0 I a+ V; o // Define the return value variable.# X. @% b) i. X1 ?& D6 {
def returnValue " H, [1 x5 z$ Z7 y( ?9 p 6 h* j! ^( f3 \8 L$ h // Note the simulation time. " {) r6 k2 c. Y; t def time = GetTickCountInTimeUnits(); ^) [' G& P8 q5 ^" O
$ _' H' Y5 y% I* J) U/ P: u ; \. r& K8 `* ]( m& ] // This is an agent decision." g7 L# M4 `8 r/ @
if (watchedNode.pressure<200) {3 ?% I2 A1 |( V& M! B$ ~9 O% z2 H
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// This is a task.0 \$ @( F B, G1 G' B0 ^
setPressure(watchedAgent.pressure) * n+ I7 x. w4 L/ ?( v 2 X/ H% L6 p8 @7 P } else { ( s/ |% f# C a( S5 f2 K0 A8 m9 }1 U' A. L
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} 2 v0 ~% f# b" x: }) c // Return the results.+ T. Q" F; p- p( V0 Z8 f
return returnValue8 y6 v" M# A, A# ]* g8 ~/ C. u0 R: {4 R+ z
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/** 3 j! E% y% k* L( v *1 a# V& N' L: y& G
* This is the step behavior.$ z+ Y7 q: _# U+ S0 C
* @method step( `. G# u! @* v# F& |/ d- ^9 }' l
* " b, X7 k" j# m U# G */& G9 [" A/ k2 k# U7 s4 S) Q
@ScheduledMethod( ; X, i8 W/ x8 T) ^" w; O start = 1d, 3 {% y2 h! K6 E$ \) S6 z interval = 1d,( y0 N; f6 T: j+ S' i
shuffle = false3 q% M0 V( Q9 D: q! [8 E3 O4 \1 \4 l g
) 7 K, m: X6 f# x8 ?: G0 T public void step() { . Z& i& s" e* M/ k2 A( k0 O3 ? - _; R3 A4 L" p7 h# C/ e; O" ^ // Note the simulation time.: Q1 R# e, w6 O
def time = GetTickCountInTimeUnits()0 R6 r1 i: Z6 u$ G- G: x
; Z) F; `6 J; [! o3 s$ q8 G // This is a task.# ?* d( x" O! E4 ?( I
measurePressure=pressure+ RandomDraw(-20.0, 20.0)7 o: D1 c) M/ j/ R* [
// End the method. ; V, z! s* Q, Q8 r) T! x return 6 p+ n- ^3 S, ?4 p- z 6 l9 d& r t. {+ v: r' m" `6 q! n }
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发表于 2009-4-4 12:21:26
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