5 N& j) x7 g2 ~6 T/ L: e. y@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")) H* {- {3 N' ?1 t* @
public double getMeasured pressure() {2 N5 }' m2 S6 x; S
return measured pressure1 D/ Z( A2 B8 A) W; h: E6 W( R
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public void setMeasured pressure(double newValue) { % @- d8 ?- }) F: f measured pressure = newValue - f6 g- z! ~# j1 h/ Q } ' o3 I" K O7 F# V T2 f! e& l! n7 V public double measured pressure = 0 1 p8 C j: j, w; Q P3 m% ?3 E! S5 W P0 O& Q& J
/** " q/ {9 h z4 L" X0 p6 f *9 p- X1 m6 z, b/ E a' v# u
* This value is used to automatically generate agent identifiers.+ G0 y( x% R) A' n0 L" @0 Q) a
* @field serialVersionUID ; w* m5 w4 `# G+ [2 J2 \ *5 {+ Y* Z+ A% H
*/ ) z2 e" s6 Q3 `. Z5 Z private static final long serialVersionUID = 1L8 B1 {& k, F( @$ Y* Z1 ^6 E }
; c: m! I0 z, v% ]3 }, N
/**' u8 H( {' N) v7 j3 x+ e
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* This value is used to automatically generate agent identifiers. # g3 m) }+ K: l3 x2 a * @field agentIDCounter $ W3 l: l! C3 A" d! z( w *# A; b6 |1 r" V' j% `
*/& E9 _9 |: H& X. \% o2 s# {
protected static long agentIDCounter = 1 + B8 }1 q# U' V- Q8 h" v2 t% n9 P1 V" r& m) L
/**( A& W5 Q' l( w4 M& \$ D, Y& r
*$ R3 u1 X: a2 S3 r
* This value is the agent's identifier. / K' p4 o+ M( X: ]1 d8 }5 O6 p) d * @field agentID ! y+ b. b* @- b( f" R, y; G *( a7 P5 S/ Q8 B5 h. a
*/5 j$ A' A" W% I/ |+ e4 q% p
protected String agentID = "GasNode " + (agentIDCounter++) & s/ e: o$ o4 Q5 A" t: H9 q i' U* J: ^4 V
/**" o2 a& U& v) x
* : I- @) p* r) o8 G * This is the step behavior.7 W: o6 l. q, t& }& x% w- a1 z1 ~
* @method step# Y# Q% m* T n5 e) ]4 a
* ' h8 s( c0 \& |4 o) @3 L */ # Z9 h2 H% ^% c- g5 t @Watch(. N& g k7 ~! q/ C
watcheeClassName = 'infrastructuredemo.GasNode',( C; q3 d. d5 q
watcheeFieldNames = 'pressure',: n9 n, o& |% ^2 f
query = 'linked_from',$ v p) x$ a' P" y
whenToTrigger = WatcherTriggerSchedule.LATER, 1 ~; h$ u- p! \ ^/ [6 v( B: J7 B- d scheduleTriggerDelta = 10d / W$ r3 c8 S! ]+ `1 |( R! t7 T ) ( J: _4 B$ G" Q" I$ K0 D" S" P public def step(infrastructuredemo.GasNode watchedAgent) { . t _! [/ V$ T ! Y$ q# H* [7 {% H) J% X+ Q // Define the return value variable.! e: x: A1 E" n
def returnValue$ N& q8 J) N$ }0 L6 c2 w# r5 w
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// Note the simulation time. / [* s$ X, R b B. N def time = GetTickCountInTimeUnits()5 u+ M# C/ }1 t
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7 m$ n2 l* g" s // This is an agent decision. # v3 ^. Z r4 j- | if (watchedNode.pressure<200) { 7 G& J) o" {( o0 b& ]; g" V ! |- q8 }: r: z) u$ r E // This is a task. 6 G% [7 U! r$ I; T1 U8 V( B9 T setPressure(watchedAgent.pressure) 1 @+ L1 ]5 Y" p2 K4 N' Y; m: M5 ?2 j& z! d4 m. S5 A
} else { + b$ a" Q% n' c- Y+ W% y $ l. D I( I) Q! w& I , c( T6 q7 ]& ^/ k/ s/ y" i }$ Z' q6 Q' d2 Y! P1 e0 j: n* o
// Return the results.) T9 [) j" B2 D
return returnValue : S$ D4 e# b9 s) i4 Q; U & [3 v l5 A3 @1 f1 k" N h } ' {& g/ ]9 V+ ?3 I; y7 O& I" ]& J+ i2 T. e7 s; Y; e
/** 2 M3 d" R3 p: S _8 e * ' h8 |( F [2 z; [, v * This is the step behavior. . A! \" d. ~ h: | * @method step }, M O9 s$ `$ R; D: q+ a *( ]$ F! P3 Q* ^4 F% a
*/ 8 a; x+ W/ V1 s3 [* p- y# { @ScheduledMethod( 2 U. r- U2 o6 O: w6 l) U) H! ~ start = 1d, ; _) r0 |" |! [. x2 T; a, P H5 | interval = 1d, ( h$ f X+ B( x0 V% F5 J9 \5 k shuffle = false& F, M4 E- ] @" K, ?3 s/ R
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public void step() {4 y5 Y- C& i$ h- v o) u& \3 S; }2 ]8 }
* A+ Z* S A. j( b // Note the simulation time. & U5 i4 U. B. u) W# y4 T# E6 G def time = GetTickCountInTimeUnits() ; A: J& [ e% g0 f$ Z* u) z' v2 N6 }) d
// This is a task. 7 F) i6 w7 o* R, o' R) X measurePressure=pressure+ RandomDraw(-20.0, 20.0)" U( p ^/ u+ Q8 C5 M) K
// End the method. 2 R: `& V" v. [ return. ? _" |4 o0 I/ y! Z
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}
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发表于 2009-4-4 12:21:26
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