$ O. j! ]$ v( J) W5 S@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")5 n7 f' f1 A$ _" Q: e8 \+ z9 B
public double getMeasured pressure() { ! l& \( T$ R; k5 q& W return measured pressure $ d* N& h- ~. ?0 N }8 |- }- f3 D( M! C- i+ @
public void setMeasured pressure(double newValue) { + c0 q% a8 v, b$ `2 @1 i8 P: B measured pressure = newValue . A$ G! X6 n/ P }+ B% _; j- g" `- f- P# w3 t7 r- R
public double measured pressure = 06 Y# I- c4 q! u/ W: \% h" Q+ H* E
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/**! }" O4 {6 W3 Z: i+ h
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* This value is used to automatically generate agent identifiers.; p1 t' [& _" y k% u) g, K
* @field serialVersionUID 0 m8 a5 P5 V! F, H3 @- A! H *9 b" P- A+ Q# C7 b k( ^2 x* N
*/ ; O3 z; r5 `1 I' x3 h! [5 W- n private static final long serialVersionUID = 1L4 C. k, w2 D+ F, [
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* This value is used to automatically generate agent identifiers./ A+ v6 M! q- M; }& S
* @field agentIDCounter 4 Q& {7 K3 ^! H5 y ** F1 I3 g5 [# N
*/ / U4 [) ?3 I! X6 [! @1 a* ~ protected static long agentIDCounter = 10 H5 o v; o0 S" e: Y [% d& `
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/** ' v3 _* p$ I) k" ~1 \7 o *5 q! i* P+ s1 f) g* N5 f
* This value is the agent's identifier. }2 Q3 w2 l/ y1 `; p) D% p
* @field agentID2 P9 t3 H5 O8 n# ~
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*/ B9 B9 p7 ^. Z3 B protected String agentID = "GasNode " + (agentIDCounter++) + N& b0 q: ?4 u* C' g 3 a1 h' R) W7 Z7 }8 e- B /** ( e& h% _, q+ {' c `* {, m( v *8 D2 e4 R9 Q5 q& E
* This is the step behavior.4 ?+ j$ V6 m9 o& S4 A" Q5 G/ s8 U
* @method step 4 h6 [: M0 s* u * + \' ^; Z. Y9 R# r/ j$ M */ - @+ O# z0 A- M# N6 M6 c @Watch( & B% Z% Y; O! }7 t- S, _- A% O watcheeClassName = 'infrastructuredemo.GasNode',6 l. k( F/ u' B6 C
watcheeFieldNames = 'pressure',, @5 T( D' o" W: C$ V$ L
query = 'linked_from',2 o. X7 g0 W2 X6 ^! N2 {
whenToTrigger = WatcherTriggerSchedule.LATER, , O9 l' t' Q G9 Z8 f$ K- F scheduleTriggerDelta = 10d ! Z3 L" _; q% A0 p7 ^) I+ l% D ) . L3 o9 j" B, b; D0 r public def step(infrastructuredemo.GasNode watchedAgent) {; y9 d7 c t- ?+ O
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// Define the return value variable. 4 J" S4 f. Y! ` def returnValue' D) `9 f) ~1 }3 j
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// Note the simulation time. ; d' a* V! b# Y, T def time = GetTickCountInTimeUnits()- p' A/ N% g2 S7 w: w# x4 C6 u
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// This is an agent decision.4 P4 k3 C3 g# B& ]# X9 A7 Z+ Z) a
if (watchedNode.pressure<200) {1 N# y. Y' y* C! e
( o. V# p2 E2 v( K" _7 o // This is a task. $ O; W- h# l, Y7 G+ W- b setPressure(watchedAgent.pressure)4 F3 Z7 y5 [0 i
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} else {1 Z7 n) `& e% t/ I
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// Return the results.: ], Q! p7 L- |* E- M" S. R' c% E# N
return returnValue : e8 R( O9 d8 P) u 0 L4 I% N" C: N) v" v& V! t3 ~ }- f: ^( n" O8 e( p& v
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/** 4 I5 _& ~3 p3 h * 6 j9 K2 u7 n5 y. ~ * This is the step behavior.9 U3 z0 T3 N: O4 u
* @method step }% h/ ~/ h/ ~ y% [0 A8 o * + N; _( f0 d y. s */: U% R& j' t9 U: u& l5 G2 K$ @
@ScheduledMethod( - Q% l& Y* e8 k" ~ u+ o start = 1d,* Y Z+ m' o. o
interval = 1d,8 d- G, B+ c3 T5 G3 ?3 \1 t
shuffle = false7 U& ~- J& `* O% F8 |" R
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public void step() { $ _( X3 Q3 x3 x9 V% M9 j 2 N' ]8 w' `) Z9 E- t }1 h // Note the simulation time.4 }: n; K' v8 N5 y$ R6 N" o
def time = GetTickCountInTimeUnits() ; q+ R+ ?, N0 h) E! E+ I' Z( Q( r# M- S5 h5 P
// This is a task. 4 r* Y$ f: p0 u7 s9 g6 P measurePressure=pressure+ RandomDraw(-20.0, 20.0) 9 z! F8 E7 R& U! G) d* w9 B9 K // End the method.; r3 Q- a# o" b9 ]4 v
return# [: ]9 ?8 j7 Q
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}
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发表于 2009-4-4 12:21:26
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