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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") - r8 w# }; I8 n0 p9 i public double getMeasured pressure() { H# c, t$ V& W, p' c+ l return measured pressure & m& I* ?9 P2 M1 ]& J+ C1 ~ }2 S. z" p2 c) @( {
public void setMeasured pressure(double newValue) { 1 N" V7 x! `3 C1 C+ B measured pressure = newValue2 Y* O" U% @: }% `4 m+ a" v
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public double measured pressure = 0! ]* o5 ~& J c8 _/ l- ^* l
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/**5 U' U6 A7 {3 [$ w- `) {
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* This value is used to automatically generate agent identifiers. 5 {: Z6 A# o/ T7 f( w8 E * @field serialVersionUID / N3 W" u+ m* o * : H9 v5 D2 @& y; n1 F' F# k6 u */ 9 g1 H9 b+ F; ?# b) Q6 \ private static final long serialVersionUID = 1L/ ]; u6 v, Z0 g, b1 r
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/**4 @) s% T0 Z3 n$ J
* & ]& `# M/ w. ` * This value is used to automatically generate agent identifiers.5 E! G1 j5 Z/ |) {; h
* @field agentIDCounter2 k# ]" }& J. _( |
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protected static long agentIDCounter = 14 T" v: w) ~* c
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/** 6 I( G% ~ e! {( s *1 U$ y' I; ] C. p! T
* This value is the agent's identifier.! k, ]( w* w, q# R' k3 B6 b) N
* @field agentID 8 S- w( ~3 q! ?5 [* N * 6 O4 q5 z1 x; H, v */ ' F8 ? z0 X2 c0 [ v" m protected String agentID = "GasNode " + (agentIDCounter++)6 O) r5 K0 W( I7 ^* C
' u! J9 X2 e$ r /** : A0 e4 B. j/ `" `, H) C * ) a$ y$ N& W" Q; M3 W/ X * This is the step behavior.4 a9 D; A8 H, y4 ~) K
* @method step + V( f# Y# X$ ^ y* p *- {& t) O! g$ N! E- n& i
*/ " T6 [9 m" D+ x; K: W3 K; v# g @Watch(7 P0 H8 j$ L$ a7 O* e. `) L
watcheeClassName = 'infrastructuredemo.GasNode', + B) h/ v$ [3 Z; G( _. U5 _# z watcheeFieldNames = 'pressure',( e8 I* m2 ~0 A9 w4 b) L2 |8 z& l
query = 'linked_from', 8 l8 H! v* ~* Y* ~, K$ Z5 q& L' B whenToTrigger = WatcherTriggerSchedule.LATER,, w! z$ a. l- G& Z5 H: d
scheduleTriggerDelta = 10d " _0 p) S9 M. Y! Y" M )7 I+ T7 B5 G4 E7 N0 L$ s7 U" h
public def step(infrastructuredemo.GasNode watchedAgent) {) q1 M' R5 v% V7 q1 F9 f4 o% z
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// Define the return value variable. & h2 q& k. X3 N% O$ ? def returnValue1 k8 S/ @3 X+ V1 o
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// Note the simulation time.$ M U) }, a# p6 D2 Y& g
def time = GetTickCountInTimeUnits()1 G/ Y* _) w1 ~8 s
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// This is an agent decision. ' ?, y: L, Q& R7 W8 ]+ \1 A, e8 t2 u1 l if (watchedNode.pressure<200) {1 J! y* O; v- P5 C; j4 |
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// This is a task.' R7 N8 ~6 E1 j3 a( j3 j" B" l
setPressure(watchedAgent.pressure) ' l& d" z) ]: n& L% G* g, m' Q6 [- _: x: v! d. z2 Q
} else { # a7 c' T, L, P 5 D1 o+ @+ K8 W7 S0 O+ x) N9 H: [" u
} e# |$ Z/ I& K // Return the results. ) h4 M+ P: L2 u' s5 B return returnValue , n3 L* s9 O+ q- A0 J8 X . T1 ]1 p6 L. l) c @1 U }$ X7 j5 a6 e" ^0 [* m0 R, t3 t
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/**' Z, a' L0 @6 L! K; _0 I9 G
* 6 h9 q% T# ]/ D* w * This is the step behavior. - p, I# ~" F1 W2 @3 j7 I * @method step / d& s l `( s * 7 J6 [1 r6 d( P3 B& U0 ?% x; e */ ; I( t+ R! E1 u4 o% o @ScheduledMethod( g! n7 b$ g& r1 ]3 ]+ C
start = 1d,3 v9 a. D# Q9 n7 ?
interval = 1d,) a# L; g+ M1 H! K- C, Y+ j
shuffle = false1 R/ j5 k0 G, m
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public void step() { 2 J8 I! m% y+ ?5 N9 l7 X2 V' f9 g' O! Y$ G+ i/ w
// Note the simulation time. 2 O7 E! ?- B- K, o, d+ t def time = GetTickCountInTimeUnits()! }: Q$ ^$ k3 i, J4 A' |) T2 N
- F. e& P2 `2 l m, `. H // This is a task.& j9 z" e/ f3 d# H x
measurePressure=pressure+ RandomDraw(-20.0, 20.0). n* v6 x: O! k( G. F4 z
// End the method. : f8 N6 P* ?$ w; k ]0 |* @* r return- Q- l1 M3 \/ f. n; \! M. b& ~
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}
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发表于 2009-4-4 12:21:26
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