& f& a: }# y% |1 g7 R3 X" H@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") - \$ @ M7 _% u+ p) |) @ public double getMeasured pressure() { 9 [* f* r9 W& ^/ j$ F8 V) k return measured pressure P0 q7 p* u- ^2 B4 x3 N }. k: W8 x. d; ]2 I: s8 D
public void setMeasured pressure(double newValue) {2 X e, @' f5 @3 S- T: x: k2 o* b
measured pressure = newValue # ?( L2 B0 }% R3 }1 j% Z }7 f+ B. Q8 W9 A3 \. e# v
public double measured pressure = 0% F d" \7 \+ i L
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/**, _4 ~7 X+ ?4 m6 d L w2 A4 J
* 1 x% X/ w0 X- H }9 |1 p+ U, b+ w * This value is used to automatically generate agent identifiers.' i4 d7 v" h1 @0 O$ x: D& s
* @field serialVersionUID 8 ^, E$ ~) f0 S+ M * ; d) i! X) J7 \) Z */$ {6 B+ u, T1 v5 k* J" Q" |
private static final long serialVersionUID = 1L9 Q4 |* W$ r( U, w* a# s
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/** Y+ Q- \% Z5 ^$ R) {
* ; D9 A2 @2 E$ j( y * This value is used to automatically generate agent identifiers. $ O. ~5 ~9 {5 ^6 C# ?' Y6 r * @field agentIDCounter . {7 G5 Z) [# q: p# z0 |. X * ; g! `' M1 n: P$ f& u, w& Q& x */9 M' K V: Z' A! b( t- w' ~! P
protected static long agentIDCounter = 1 ) p! u& D( n4 y' { 5 c" t. R" ~# L; v' T1 I /**) v2 q( A7 K/ E
*) f4 U$ m3 u) L- e
* This value is the agent's identifier.( _& S1 y: b, P$ v- i# T4 C
* @field agentID 5 ~2 N% Z) b# P$ z *: z! I1 a/ j2 `/ B
*/ * m" n: M( i- O. s protected String agentID = "GasNode " + (agentIDCounter++)* r: M/ x' h* W+ p% x% ~
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/** 6 U6 v" H- ]; y, {% V *. i% G% {) j8 }3 p @
* This is the step behavior.& K' l% Q1 a$ |2 u; f
* @method step0 z7 L- n9 b/ A, q+ L
*( N# Z3 `# \: G, @, I6 g; _4 {# k
*/ . h8 D7 E Y5 h- d! Y& f- P! ]; p+ q @Watch( / @9 o, d; ?* |+ W0 M. u# S3 u watcheeClassName = 'infrastructuredemo.GasNode', - r, n2 O, j) E$ F$ w( D watcheeFieldNames = 'pressure', " Q% ~' k" H: e ?! Z7 X) n% b query = 'linked_from', 0 Z8 `+ E' k g8 z5 w whenToTrigger = WatcherTriggerSchedule.LATER,# {' B( M# t/ H4 c: {) C1 _
scheduleTriggerDelta = 10d & I8 d6 E2 ]6 U9 _) `+ I# S ), O% A) S9 n3 n
public def step(infrastructuredemo.GasNode watchedAgent) {0 t9 I; T M) n Y- M: g
7 A$ L! k a5 Q. Q // Define the return value variable. ' [# q5 E% K3 Z0 I: F def returnValue % x9 t5 H* W# Q2 {1 [( h% n ! d; w; U4 ~ \ // Note the simulation time. 9 j% x5 K8 Z$ K/ F: h def time = GetTickCountInTimeUnits()7 }& r( Y( `" |: g8 c7 R
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2 @9 d6 F4 _ Q // This is an agent decision." z# m" E' r# X
if (watchedNode.pressure<200) { X# v& |5 d. _ I . C$ B+ c; a9 z" M/ C4 i+ Y // This is a task. 8 `3 F) ?- H' s. V8 r) [ setPressure(watchedAgent.pressure) , g2 i! e: X! f, j : I# {6 O2 O6 s% N* o' ? } else {; R: j6 C7 ?7 t0 \
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} $ o8 c6 N& ]% }- H! t Q // Return the results.: E- z# F( g+ s3 ?, G( X
return returnValue # k$ @5 q* j; O6 s & v) s$ {8 N, N }3 W n; b' z- j9 t4 u
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/**3 Q. u; ]9 O9 K9 @8 ]+ R
* ; \! C) J4 e# {( S/ [" I * This is the step behavior.% x _. h6 O6 g6 }* E' h% L
* @method step) `0 d& ~9 z) ]
* : G5 I; K! ^ ^8 g3 c+ u */1 y! V+ O7 t5 i: \
@ScheduledMethod(9 ~8 T7 t( p. A* r- |
start = 1d, t8 B+ O* y5 x
interval = 1d,3 `- N7 @! V* Z7 ] ?2 b8 U, T
shuffle = false " Y2 t& |3 D& u2 Q: k ) + a4 R1 h& {* o$ Y9 D8 i public void step() {& B) `. g4 m/ C7 @. [; H
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// Note the simulation time.# a: n+ j9 m6 B* w0 L/ H
def time = GetTickCountInTimeUnits()! `' }! o- t6 W
! a7 K) j- y7 H; b& D // This is a task.$ \& Z( u: l. @- g
measurePressure=pressure+ RandomDraw(-20.0, 20.0)4 _7 @- C! r/ |3 a0 u
// End the method. - p5 s% X+ [+ q# i$ X( H9 v+ V: ~ return; {4 B! P% U, R( f' W
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}
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发表于 2009-4-4 12:21:26
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