2 e% ~1 W. M* U/ C3 _# [ : |" N8 F B/ G: N@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") ! A8 W. ~2 T) L- f+ ]0 w+ e# a public double getMeasured pressure() { & l( x0 D5 m5 g return measured pressure% m( j% c; V% O; Z3 C
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public void setMeasured pressure(double newValue) { 3 U6 ?$ s( m8 H1 `3 _ measured pressure = newValue+ C) U1 v3 j" P6 C( i' e+ C a ?
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public double measured pressure = 0 " E" c/ [- M$ W& U6 y4 N9 }0 N0 M, F* H/ a
/** / F! ^: c& p. X' S, q" ^ * 5 i: P! h( y5 t * This value is used to automatically generate agent identifiers. . P3 |# Q4 |: I& d' _$ t * @field serialVersionUID4 \) E# X2 v. S F5 A, G v, c8 {
* & @. U3 n! N" _ */ * y- B* J- F: ^! U: x5 g, U/ u private static final long serialVersionUID = 1L % I6 Q* C4 b9 l y + k3 L l y& I# ]& L. t /**" I3 y( K/ Q; Q
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* This value is used to automatically generate agent identifiers.2 Q4 o, I! x) f* q4 j+ {
* @field agentIDCounter * R! T) {$ N" q" A/ N! ~" J * * A6 S& u$ b8 U7 V */ 3 P) w" N4 _7 h9 O protected static long agentIDCounter = 16 ~5 ?$ B3 ^+ `0 U2 u
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* This value is the agent's identifier.9 Z7 Y( f Q/ |+ g; P6 N( s7 @7 F
* @field agentID 8 v/ R; D" E' P( Z7 c *7 A: w% m$ X5 t2 `# i- T5 Y2 q
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protected String agentID = "GasNode " + (agentIDCounter++) & T/ {% j9 C0 f/ O7 p ( [5 F7 t0 ]: L; Q" W2 B /** - _0 \1 c2 k3 u5 A *" |& }, R o! w6 b9 F4 t; x6 u: @
* This is the step behavior. 4 |& l4 m# G; m" `6 d * @method step " d1 R7 q7 W$ @$ W/ L- }% T/ U% O * 9 G5 I' e+ D$ v1 I' q$ J */0 h% @0 [* e8 |+ i. p) h7 v
@Watch(* Y5 |# A; p* V4 o
watcheeClassName = 'infrastructuredemo.GasNode',* Z" \1 g" Z; B" E2 ]; v
watcheeFieldNames = 'pressure',5 f+ T& U: T* F5 v. A" v
query = 'linked_from', ; Y( Y6 c2 K. I' p6 C! v2 A whenToTrigger = WatcherTriggerSchedule.LATER, 4 {- l2 q/ n" }9 I) H scheduleTriggerDelta = 10d 6 N+ f+ b2 _" {1 S; S x) X7 A. w )6 w$ Q& j. q9 |5 q
public def step(infrastructuredemo.GasNode watchedAgent) { 5 I9 |8 \5 c: d4 ~1 y7 F& D( a* P( ^ f# E. o2 E8 e
// Define the return value variable. a5 S0 ^/ V0 L& D% | w3 o7 Q: n
def returnValue" E/ a- \3 N; M G2 j- q6 b
: I( A* B4 s) i' ? // Note the simulation time. * f+ t; @$ Y7 ~, l, A% T$ @& I def time = GetTickCountInTimeUnits() _3 f1 S5 t( ^( C7 m
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// This is an agent decision.' z3 m+ ~5 ~. k8 i
if (watchedNode.pressure<200) {9 }; z( Z' Q2 X+ d2 }
6 o0 t% K# X. } // This is a task.8 L1 K# r k- @% F7 f* c! S1 s2 c
setPressure(watchedAgent.pressure)9 s2 R3 p( N7 T2 u- Z! ]' _8 J4 C- n
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} else {4 A9 d: x- m( f
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} . `5 K' I/ B8 M // Return the results.& y' w4 g4 O. ?, @. `, F3 U9 e; d
return returnValue - A7 U/ O) M/ _2 o* `) Z" y9 y, i1 I, [( D; }$ J
} ) g: E' l0 \& U8 d 2 x" K. d9 Y5 g- e$ O, Y7 t& J /** 5 a1 v" G$ a$ n * & H: F! g: i& I" d * This is the step behavior.5 i+ U( P6 Q2 T6 ?
* @method step$ a9 ]6 n" x% J- `9 v: o* Q
* 9 b! F/ t ]2 E l" K */ . l6 h# p: X# \/ \; a& e2 Q @ScheduledMethod( 7 q+ _6 h" z' K* V+ D. T start = 1d,* o2 y0 k7 D6 L0 N% U
interval = 1d, 1 B. l4 p5 a: l/ V; r shuffle = false2 z; \( I" _ @+ p B
) 0 n8 l9 F' t- {5 D/ R# w# n! i( j5 Q1 c public void step() {3 @! H- e: |/ B9 h+ k2 ~
! e Z2 r9 r5 L // Note the simulation time.0 v+ G+ H d1 u5 n7 }$ j+ }
def time = GetTickCountInTimeUnits()4 {. i9 N X1 G1 h
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// This is a task.3 X, K/ z$ ]& ^
measurePressure=pressure+ RandomDraw(-20.0, 20.0) & D, O2 G: m" P0 d# a // End the method. - @ a9 d5 n1 q4 C" `, P return0 j; ]1 E' ^" }0 t
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}
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发表于 2009-4-4 12:21:26
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