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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") : Z" t! |: H+ c public double getMeasured pressure() { " b: t& O% M/ f) v return measured pressure ! Q% c2 W0 C7 v+ O# N& x } 5 F% V% Z: l5 {+ ^" y/ B public void setMeasured pressure(double newValue) { 9 F- `- E$ b# i# y# V2 X$ ?7 | measured pressure = newValue 5 ^ E5 G, I8 A' W$ F) h1 `. Z }% U9 _3 O- O. h0 n9 X
public double measured pressure = 0 5 j, T5 k1 X a7 m7 B- F 8 @+ P' E. N z; b- S /** & B" l- X) |8 i9 P6 { * $ b# j5 E& O/ `: a, @% ^ * This value is used to automatically generate agent identifiers.8 G2 T+ d4 i* y: i: p A3 L7 B
* @field serialVersionUID 5 x* ]3 f0 c0 z9 N5 n0 x; n *+ B5 R# _! T g' G4 x* b! e& o) a3 ~
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private static final long serialVersionUID = 1L % @ L$ C1 S2 O5 y / S. N+ B8 @# g3 | /**; _4 {+ E6 ]/ ]% I/ }
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* This value is used to automatically generate agent identifiers.2 B3 R* S3 Y# B4 _7 L: t( u- U( T
* @field agentIDCounter 9 V7 k/ M! ~7 R2 s9 G) I * ( C7 j: d0 h4 N) V2 x( z */ m: s* u0 c% S' s) ~& S Z
protected static long agentIDCounter = 1( S- R3 Q) Z0 E3 c) J! t6 E7 ~' @
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/** % W% o' H6 L( H4 \, L; U2 R5 J *, j: i/ e& d2 g* _
* This value is the agent's identifier.4 h$ W! p, K- A+ j
* @field agentID3 ^( B# F% g4 R6 O$ X
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*/ 6 p- }9 n, q* q$ r7 B protected String agentID = "GasNode " + (agentIDCounter++)* T2 F) V/ ~+ w# {
( l1 F5 }3 Z- R9 A% X( H' M( u/ [% V /** 0 ^ @7 M9 G9 @& [/ f% [ * - V" k+ r2 |" z O$ i * This is the step behavior.1 ~. V" ~6 ]% a& f
* @method step 4 a7 j+ k7 Q" i8 P) R& |* ? *6 |1 L- _* P( t( S8 G+ W. a
*/ ! @7 a1 w. x$ G3 B$ I' L @Watch(0 u" I' m" M; c# w: \) D% j g# |
watcheeClassName = 'infrastructuredemo.GasNode', 3 a1 W& m9 w) n+ e4 K watcheeFieldNames = 'pressure', + F' d2 m$ w2 D9 h( C query = 'linked_from',3 o8 x0 j: ?& C
whenToTrigger = WatcherTriggerSchedule.LATER,7 c" G1 G4 f: N8 ], R
scheduleTriggerDelta = 10d& i9 j, x0 R$ W% ^
) 2 T: ^0 p/ I3 v1 O7 f8 }# e( R public def step(infrastructuredemo.GasNode watchedAgent) {7 Y' I# L6 E) c2 _5 {3 K
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// Define the return value variable. * P' B9 ~8 X$ r1 B# m) _. U def returnValue * G; k) V. h4 m: ~3 m0 Q# F+ ]1 S" n2 ?7 E: M7 Y4 S
// Note the simulation time.) s/ u+ q; s% {5 K2 w
def time = GetTickCountInTimeUnits() $ S* j" }! W6 B4 | 6 W, r) U- A, r. P 8 v3 { H1 S& S/ q/ [; E // This is an agent decision.( ~% }* Q" @- u% g: Y
if (watchedNode.pressure<200) {+ ~2 k8 U+ s$ e7 ^
3 l& Q2 S1 ^+ i // This is a task. / [% d; t* _/ r( D/ H9 _- m setPressure(watchedAgent.pressure); x2 y+ V' m7 R8 Y* `0 ]' |
' p, d& _$ m9 a. S } else {' F! U. l8 O2 d+ }/ c' c7 [: G
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} " ?) N' Q' X, }% ]4 B // Return the results. % ^0 q6 J! @3 b ^, O return returnValue& \5 f. }/ O L* D
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/**+ o. w, ]" f, w4 h. J
* ) ?( s! T" n1 y% _- o/ b * This is the step behavior. ; r* n5 o* c P- N% ~+ s * @method step. B0 w+ L& f/ W( S! Z3 h
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*/ , m6 Y2 d4 Y9 G+ B# J @ScheduledMethod( * K z& w; w8 R: y5 G8 ^! e1 \; m5 G start = 1d," a& C: _- x, F% n& _1 G2 t
interval = 1d,* t( x7 j6 o' L9 g8 s7 }( w9 j$ [
shuffle = false ( J5 @5 z1 \* ?6 m' q/ d ) 1 P' V$ y/ }: Q9 @ public void step() {) _" q( S; r! W. B
% C8 z; {$ P8 W! B, C. Y // Note the simulation time.) D+ q: n' Z: q" k" [
def time = GetTickCountInTimeUnits()9 ]: L6 d7 m: E3 @; ^) F, I
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// This is a task. 8 J% H0 X* E* c/ ^& O* b0 [8 M measurePressure=pressure+ RandomDraw(-20.0, 20.0)2 \* A2 k. @5 v
// End the method.' U X; T; T/ M- q+ _; v }
return $ p1 v& @7 p) q) P 3 \" V( C# e2 ^) F }
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发表于 2009-4-4 12:21:26
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