* I& y' l2 {! T7 q- D@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") # V' y$ ^! G3 ^) J* i9 m public double getMeasured pressure() { * f3 k5 W) O6 M return measured pressure8 n& d" ?, o' w
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public void setMeasured pressure(double newValue) {2 n, L1 ?$ P6 I# V0 V( ^8 O$ P
measured pressure = newValue + |# d. D9 m q% J/ m% w$ ^ }6 s1 f. ~( a/ T/ N! C" |- {
public double measured pressure = 0# t+ F* N* ] K
: ?# e' _+ @; Y" K /**8 } H; q, ~; W1 n. ~( {, v& Y, {
* & v) d, N1 F/ h. Y * This value is used to automatically generate agent identifiers.- x$ ~+ R4 y) p8 M: U- Y6 J
* @field serialVersionUID4 x6 E6 c: B$ _7 {, r( _
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private static final long serialVersionUID = 1L( Z# [8 l {3 a- P4 o' ^
5 h1 C; _4 }/ e) m! j5 ? /** / O+ G# d9 Y# D j *- y" w/ X, [; D- q6 @
* This value is used to automatically generate agent identifiers. 4 G9 d9 P1 ]/ C% b; j7 [5 a * @field agentIDCounter 6 m- [! ?% k; O; G* k& s4 x. { *' J/ _. w3 B8 V1 ?+ I4 q1 p
*/ ( z" e& B2 t' N- T8 s6 _% F protected static long agentIDCounter = 1 # Y2 f6 Q2 E9 [) p; [8 B % J9 Z& |9 f, S1 B) J8 t3 q( o' p /** / f$ A" [+ t1 k7 r, a* B *' T- {/ r" z0 e) {- d/ M
* This value is the agent's identifier.# X ^+ l6 C! ~; `2 | e
* @field agentID 3 K3 }& E! V" L+ U4 m' ~* [$ s *' v/ n5 J8 m2 e( s; K3 `
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protected String agentID = "GasNode " + (agentIDCounter++) - Y( H% p* ^ M: f4 j 9 H8 ]) n$ l/ Z" Z# c( }, S /**/ D9 ?) k+ Z) c0 U! F
* 8 x2 B; c2 a( \ ^8 k4 u * This is the step behavior. * T8 k+ H& m1 L3 \6 K9 o7 g" ?! P5 D# G3 \ * @method step $ j: x* j1 t% m * & r) ?5 H) }0 o& N5 ]8 `# u, J4 r1 J */9 d8 q5 ?5 ^+ y6 k
@Watch(7 O' w Q6 u" l q( d6 I
watcheeClassName = 'infrastructuredemo.GasNode', # d% h& [! P$ r% w watcheeFieldNames = 'pressure',/ b$ d' E1 T" N9 c X. K( G; A
query = 'linked_from', ! o$ _5 M2 U. a9 p7 e whenToTrigger = WatcherTriggerSchedule.LATER,6 S. ?6 W4 [. B; o2 K& u+ Y
scheduleTriggerDelta = 10d # Y0 g1 k) B1 n1 j0 ] ) ! R. X0 }1 u' I4 Y3 Q public def step(infrastructuredemo.GasNode watchedAgent) {, f3 }5 C4 x# K
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// Define the return value variable.* `( i! r/ f$ B; n5 Y- ]/ A
def returnValue $ F) T/ s/ b9 \( e* W/ o, w- T8 ^& _: C& |3 ~
// Note the simulation time. b- e( W ^7 n8 s, p" ]
def time = GetTickCountInTimeUnits()" U7 U2 I! X5 W" D
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// This is an agent decision. 2 w4 p" o: z) U6 \# t0 N if (watchedNode.pressure<200) { # n* {0 J5 ]& V' _2 r/ g2 C. k9 w$ {, k( E6 R
// This is a task. % L+ W$ H, k( X' G* q setPressure(watchedAgent.pressure)' O z: w; l) B6 Z0 a0 ?
- V( v; K' j! r8 d/ H0 j4 U; k# x } else { 6 J" ~7 B. F r7 x) @4 A8 a5 z- p% k( V+ B& F
6 ~3 H( c/ W' q" z: l' Q8 Q } , q* }" Q4 K5 f // Return the results." d/ A5 Z9 g) j- v, l7 T# c
return returnValue6 O* O' l& f# w& C0 K
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} M$ i& ~3 c/ I! v# i; @% k" c* v* t
/**! O& {# F2 C2 h
*; }$ n( E: }) v- L8 X. ?' Y- d
* This is the step behavior.6 _. ?5 c% Y" R4 U& _
* @method step ) ` m3 C6 I# Y7 a- u* D * . q: F. R4 d# H. U */ 0 H) t/ D& U# G3 N$ Z/ N+ V- V @ScheduledMethod( : F9 L3 _# Z% d% S3 h& z" Z start = 1d,) _0 F, d: k% A
interval = 1d,1 ]. O- Y4 f" ~' Y% c! o! m
shuffle = false & s% U# q# h" y8 d9 w ). `9 m& E4 M; G7 l4 f
public void step() { - p0 J5 z$ {8 ]# ]$ B; i/ l, S: Y: ?. d9 G/ Z% h B
// Note the simulation time." U, `- t, ^+ B. W1 p* v2 U
def time = GetTickCountInTimeUnits()4 q# ]; K# V& I+ r
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// This is a task. & v; e3 U- J# _% B measurePressure=pressure+ RandomDraw(-20.0, 20.0)* h9 E- M) z8 k; T" S/ C' J
// End the method." O' k$ A+ U( ~
return - N* |) k( a( R& Y6 h1 b. @9 [0 y+ x' o6 D: A! _, X0 `
}
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发表于 2009-4-4 12:21:26
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