" q3 p ^! b* `4 L/ _! @* n@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")( T4 ~( D6 P( _5 r4 a" S j' F
public double getMeasured pressure() { / f- h# t* w w" W; X& w: j/ V1 x return measured pressure" @5 d# i, u* ~+ E1 o, r. Q
} ' J4 Y* O* ?% Q, M. } public void setMeasured pressure(double newValue) { # N6 v# M' c+ [# }4 O- |, X& E+ l measured pressure = newValue* Y) ^( d; H9 k: B' @
} - x" m* K1 @/ H1 T public double measured pressure = 0* w" u9 @8 Y/ k8 a, A* p8 T+ D4 J
& w9 U. p/ U0 h7 E /**6 n" T7 Q7 e E9 W% _. @/ ~% F
* , ?$ b& ?% i. |* Z0 e1 V( [% Y0 ^" C * This value is used to automatically generate agent identifiers. ! N# j* Z% J9 J0 r) L * @field serialVersionUID 6 C0 W& }* s' O& q * : b, U9 V8 D, H* K7 h( H */ ; W. E, V C: ? private static final long serialVersionUID = 1L1 ~' o1 a0 u% ?1 S
4 p# c; D$ x5 S% G /**3 `1 ]2 S8 f: {, m4 G- P
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* This value is used to automatically generate agent identifiers. ' C# {; L* v. y/ r * @field agentIDCounter ) }7 ^: ~ x6 ?5 p( K! V * 7 E6 ?3 E7 d7 M4 Q/ q' E */ 6 g0 Z8 E# }% z" C protected static long agentIDCounter = 11 M% W+ b2 L3 Q9 ~
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* This value is the agent's identifier. % L7 D* [* g' p! Z3 j * @field agentID( `# r* a, a6 U" t
* - K. r) o5 W! n I */ 0 {: m; r2 ?. k: {+ f' \4 d protected String agentID = "GasNode " + (agentIDCounter++) 2 ]( H" L4 M. o t, d1 j% ~ ) n" {" P- E5 C+ {) |! d0 T /** & n, H8 G7 j! \5 H *7 z+ Y; X/ X( u; r; E
* This is the step behavior. & _* H, b$ O5 l1 ]' K * @method step! k& I6 D4 g: j8 n8 j
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*/ 9 v; Z0 _& |5 z g2 F @Watch( # ?1 `/ N- c6 }* b3 ]+ c watcheeClassName = 'infrastructuredemo.GasNode',5 i5 Y$ j4 P& B. q
watcheeFieldNames = 'pressure',$ i: H; n7 q: z& M# n
query = 'linked_from',9 W k5 T, R& N/ S, b* b
whenToTrigger = WatcherTriggerSchedule.LATER," e$ K- D* f/ J
scheduleTriggerDelta = 10d& G" O( m+ C3 ^& J' _
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public def step(infrastructuredemo.GasNode watchedAgent) {2 t) ~- L: y% S$ N9 U6 }
4 U: ?& ^6 |* E1 B // Define the return value variable. + D2 S; `. U8 m: E9 [4 |( B3 K) ` def returnValue$ z6 v+ A; X, e# T2 Z" S
7 C1 b& a9 j" }% r // Note the simulation time. - J! h/ y" [ M3 q- t2 G def time = GetTickCountInTimeUnits()8 g. e' }+ y5 Y% z& i% c$ R
2 A. Q! W) `$ A% x. p" D1 V i& {& R% y' x$ |! \. ~: V' r: X, a // This is an agent decision. * A* I: x/ Q% `, h+ m; P if (watchedNode.pressure<200) { 1 X$ g8 z: q( u& ]4 ] ' y$ P5 y5 B; u" V // This is a task. - R$ c; d, k; F0 j% _ setPressure(watchedAgent.pressure) - L. d0 n; |# \' b- ~7 [; f" V& j ' W9 @! m- y& T: b3 L( O } else { / ?, P: b* d/ Y2 c0 b' P& |6 j9 q! o; `% ^& L" H& o& d% [# j3 |7 n- V
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// Return the results. ; o5 ?: ?; a2 @ return returnValue+ u! C m- d$ ^$ p
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+ x* K5 r5 u8 y: ? /** * C! _( a. ^ ~# v *# x3 Q5 Q* {9 S M3 s' O# T6 M# N; k
* This is the step behavior. . r" D8 ~5 [/ p6 T Y- x) j * @method step 0 d5 N! i; H4 E, {3 _4 G * 0 [: h' ^$ @* D */8 S2 u# X6 N" n1 |
@ScheduledMethod(; k8 O( p/ P" k7 H+ X7 ~$ ?
start = 1d, 1 j3 L2 ]8 x/ Z# |/ C interval = 1d,4 O2 f7 [- v1 ~9 e: f: v( ~
shuffle = false+ Z. }( `7 E" M5 \3 {5 O
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public void step() {2 z5 ^4 k2 b" C g
( v! |# t9 K; I! c // Note the simulation time.) C, ?# ^& W/ ?' z* l3 [, F
def time = GetTickCountInTimeUnits()( Y( i) D% r: _, O4 i+ H: h2 c
( O6 _1 Q. W% Z% r' r4 E // This is a task. ; X( G5 n7 S/ }* `' \5 E measurePressure=pressure+ RandomDraw(-20.0, 20.0)) u8 w0 w& X# G2 W. k1 {% X9 Q
// End the method. - k5 D' h7 m3 K/ I9 g1 A return- q, F2 }2 i4 t+ P8 V
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}
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发表于 2009-4-4 12:21:26
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