) ]) E8 }/ s: T2 l( n- v1 S& U@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 6 J9 S$ ]* C: R/ Q% T& t1 b4 n. B public double getMeasured pressure() { + t" \9 `$ o8 z8 @) d& L return measured pressure ' B, L! n7 ]9 X) m3 j4 k } : t7 c. d: p+ l8 p! x F/ O public void setMeasured pressure(double newValue) { 5 ]6 U0 }/ }, E/ s* U0 K measured pressure = newValue- `& a) V- p* c# R3 q9 d% u
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public double measured pressure = 0 9 x6 F) Q; [/ W- a+ s- @5 T! K4 S) [4 l4 H1 l9 e; \
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* This value is used to automatically generate agent identifiers. - R! j/ h; n' R * @field serialVersionUID' n4 w m. ]- w% @: q5 w$ O' C
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private static final long serialVersionUID = 1L % n, j7 \ U9 m3 y + F1 b3 o7 g4 ?0 c0 O /**: @8 X" W% B# h& q+ x
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* This value is used to automatically generate agent identifiers., G0 f9 ^7 b9 [2 M% A: y8 A( O
* @field agentIDCounter9 f1 U6 C! b/ D! h
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protected static long agentIDCounter = 17 B7 C0 f# _# J3 C5 _+ I
7 y5 s' S& @/ K) j$ E /** % r+ J8 X# Y0 ], t8 n8 V * 4 |* _, E1 q% H2 d# X/ t% h * This value is the agent's identifier. . C- O4 t1 F* s, E * @field agentID: u4 r3 u$ z% z- X( p, P& l
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*/ ' w+ O% X0 U4 B protected String agentID = "GasNode " + (agentIDCounter++) ' q2 T! b: q, ~ 5 k% g& m4 @4 Z8 q /** R! S$ y1 \' t8 T1 b7 ?; i: l( ~
* 0 c2 z& d6 f F * This is the step behavior.1 G4 e u1 w* O0 v0 W+ E. C& p
* @method step 9 o9 [ o7 b. F! ^& Y *+ V: @- f, Q; s
*/ * p6 F4 p. \+ o. ]* v O# S @Watch(% {; P) z, Z+ ^$ ?
watcheeClassName = 'infrastructuredemo.GasNode',( V5 w2 Y! A, R
watcheeFieldNames = 'pressure', 9 x8 X; I+ J+ z% e query = 'linked_from',$ \, T5 }$ n- ^0 v; b' c3 p
whenToTrigger = WatcherTriggerSchedule.LATER, + \; U. @- B. B# J' a scheduleTriggerDelta = 10d' i4 P: n3 f: s3 F- }& B) r/ x% T) C
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public def step(infrastructuredemo.GasNode watchedAgent) {- o1 X K) x7 L3 F7 P+ M
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// Define the return value variable. 2 E7 B; j. D5 ?' n! a+ ^ def returnValue , Y; c5 k: o$ b6 s1 H! a* V0 \- t' t " [* H# J, F6 T( f# z1 c! O // Note the simulation time.- ]7 R/ R% p4 t' N
def time = GetTickCountInTimeUnits()9 P! _2 S- Q. h }, N1 O
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, g3 {- D- B& s# j$ z // This is an agent decision. 3 G- M# `: @7 a8 o1 M" X6 B2 t- G if (watchedNode.pressure<200) { 1 p3 \/ x' [0 L% M) }/ Y4 N; O * R1 z* Y0 M% s // This is a task.4 c2 l0 T& _% Q
setPressure(watchedAgent.pressure) , | |: ]) ?8 |2 a" O, b7 o2 ?' _! |0 E
} else {# Q6 X$ Y/ B' S8 U
" S* Q% o- K6 l0 T% X 5 g7 w6 q9 z7 h% c2 {/ ^ } ) z/ P6 v5 n+ x" X1 K0 O // Return the results.1 y& z% I p' o5 O/ |! _6 v3 K
return returnValue 6 L. ^) _: w! \3 b+ u9 s 2 J7 q( ]) k2 w/ N" p0 O5 {& W( s }2 g6 N/ ?" j5 j3 |4 h$ y) R q
+ D5 B0 T2 u9 V' v, i! a! ]- Z$ G3 z /**6 I+ {9 ?: W; H7 P4 \5 I
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* This is the step behavior. * G/ e/ T6 t0 J6 X' g * @method step ( a k1 V/ I3 @- Q+ o) I * ) D5 K$ [: D9 g; ~' V# r5 {$ L1 I */ 0 B6 I) Z& W" ~/ ~& D; J E @ScheduledMethod(2 h( K# N; Y/ z* g$ y; h U
start = 1d, * x. u# W/ O# { O% W9 I interval = 1d, : c2 A; A( O7 _' A8 ^ shuffle = false/ R+ w5 z2 G. J" {# m% w
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public void step() { . K1 R m: @+ a1 P5 n # ~$ c& u2 b6 V3 _ // Note the simulation time. # `0 \) X* i' `" ?+ U; ]' e def time = GetTickCountInTimeUnits()5 y5 t! `; ] u6 x1 o
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// This is a task. " f8 N: g; m: {: i* D* W- Q measurePressure=pressure+ RandomDraw(-20.0, 20.0) y: y7 w: J$ n$ K% A- d1 M3 N // End the method.( h/ F' H- P( k; P6 h7 d; [" e+ j. v$ V
return4 }" Y+ N7 s. F' a# e& @
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发表于 2009-4-4 12:21:26
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