: H' s( ]8 V9 V* q" v4 `8 K9 \@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 0 m: Q/ t4 R# K+ E public double getMeasured pressure() {/ c" E% f1 r) i q. T$ g
return measured pressure ; I8 a3 v3 B8 _, w2 a }+ K: e2 T! F1 B v- k8 O8 g
public void setMeasured pressure(double newValue) { & ~" M* j a/ c measured pressure = newValue, B2 a+ B& s7 h& d Q* k2 Z5 W8 {! {
} ( h2 d, e4 o" D. }+ `: [( s public double measured pressure = 0& v1 x ]3 |4 D% D! c
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/**/ V) y) \) T7 U" R' A8 {
* 1 t6 o# y5 O. S3 f3 o% d * This value is used to automatically generate agent identifiers. 1 ^) V4 J) Z1 E4 P * @field serialVersionUID - l+ e/ @5 n9 h: ` * . [" ^& |" J: x9 U! E */: W0 ~+ K9 L$ u1 ^* {; J4 D5 \
private static final long serialVersionUID = 1L! b5 ^$ k+ @- R! l. U; q$ h+ G4 T
I. u" R! p# K7 w. z9 Z8 X /**9 j7 a2 b* z! ]$ {9 T3 x
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* This value is used to automatically generate agent identifiers. 3 T% z& V- Z+ I0 W$ ?$ O * @field agentIDCounter . X g" W. \: G * + I4 j$ s, q8 V O */- ^! n$ z* v' z$ A4 K
protected static long agentIDCounter = 11 c8 N: a% h$ i
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/** , }9 S+ U: e! U6 n5 u0 e *: W' C3 t! a% _# V6 R6 U
* This value is the agent's identifier.: [- {# s( |) i4 E+ b' Y. D
* @field agentID3 ?. L" ]2 t! \: w
* , B( w* {' W2 R ] d# n* d6 B */ " `* j7 u4 G8 o, ]; K F protected String agentID = "GasNode " + (agentIDCounter++)* u- [' r3 {7 o! Y, h; i
/ m9 z, I& V- S; b. G /**. p5 N: J, r1 t* n; `/ @1 z6 \
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* This is the step behavior.* ^% I8 Q4 W; t( N* q% `
* @method step ; s% O0 w6 h6 H' b: _ *9 P% E4 k p/ i' n
*/ 9 G' v4 m, @# h8 e2 T; J @Watch(! m, F3 ~7 X, B* d2 G- V/ R
watcheeClassName = 'infrastructuredemo.GasNode', 4 x' g( |% B. L' [; L1 ~0 G0 g watcheeFieldNames = 'pressure', {8 x5 y7 _. F
query = 'linked_from',5 C1 K9 ^- M. Q1 l# [7 m
whenToTrigger = WatcherTriggerSchedule.LATER,$ a. l( a3 d3 r
scheduleTriggerDelta = 10d# }( X: G( g) X4 i1 A3 _
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public def step(infrastructuredemo.GasNode watchedAgent) { 9 W/ w+ a" R3 I- N+ Y' ~! u! T# n- w, L( Y
// Define the return value variable. 8 _! g9 ~+ }4 Z+ s. C5 V: A+ t def returnValue4 a( G& I% ` F% c
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// Note the simulation time. 3 r& U" J w$ B' k* F& H def time = GetTickCountInTimeUnits()# A W. \9 a) {: ]$ K3 l
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// This is an agent decision., U) J3 X: M3 k# b' H
if (watchedNode.pressure<200) {) X! Z) F' j3 m2 x' s% q
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// This is a task. 9 m7 o& `8 n4 u6 A u* A% j setPressure(watchedAgent.pressure)3 O# v9 x0 X) A* v0 h5 Q
: x2 B3 T# I+ N! i: } } else { 7 O V1 x& T4 ^ J B% g- K, R/ m M, V, q* ?' X
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// Return the results. |/ U W& Y' t9 ?, @& J return returnValue7 `+ Z8 O+ W' k) x
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3 Y# H) n# i# ^5 O: X+ x /** ! R8 B. F5 n% ^, D5 {0 \: V9 O4 Y *6 O% Y$ N) @# Z9 ~4 M& X+ @% G
* This is the step behavior.5 A5 W! N0 _8 h1 M) B
* @method step. V, ?" p0 n; E, z% e
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@ScheduledMethod( " Y" Q' J2 u Z1 S. l$ c W( J start = 1d,( W) z4 f7 V! \- H. A
interval = 1d,! j6 [5 P1 Y2 s
shuffle = false 2 k f& y7 h, a0 C9 F- N; ^; A ) 7 A; ^# b- |6 D1 w public void step() {- z. B9 j2 B P
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// Note the simulation time. + }! T* L, G8 s8 q def time = GetTickCountInTimeUnits()) [' B" k5 P9 | F* I" K
+ Q; O1 i7 }3 B' i+ d* o s // This is a task.$ P. Z' u F$ m+ ]) Z
measurePressure=pressure+ RandomDraw(-20.0, 20.0)" n% }* h4 v& t2 p( C/ s: P( X- ^
// End the method.2 ^7 O+ `# [1 J& T
return - }/ @% p' e7 I' q. i ' N! |1 ?% p; T9 B+ o }
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发表于 2009-4-4 12:21:26
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