8 M5 {6 l/ V# m " w% `. s: E( t7 \@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") [" ?0 @' {, k0 P public double getMeasured pressure() { + f8 D; w4 T' H3 `- _2 F+ j5 C return measured pressure 2 p, t( l* [# ] }6 b2 ]& h. |6 A B
public void setMeasured pressure(double newValue) {9 [! m W$ E& K7 l
measured pressure = newValue $ d1 h1 s* A0 h+ H }4 C3 Y- j! K( R8 |) C: B
public double measured pressure = 0 8 P; r0 Q. k4 C/ g1 M% L) ?4 d1 n2 Y I1 P& o
/** , R' F; G( k# o$ i *& ^- g7 I# b- t3 }4 B
* This value is used to automatically generate agent identifiers. , `+ j0 j( I* H1 ]/ W * @field serialVersionUID 8 P" q9 {" Z' m$ u! U *& r! \- Y' _1 r. |0 Q! R
*/( a2 I* a8 G5 J1 s# C7 ^
private static final long serialVersionUID = 1L% @$ R4 h; O+ X& d; E8 C
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/** F; n# X- |9 v$ F' ~8 e/ b
* * \! Z2 k! G- s- q% j/ C% H/ x' \ * This value is used to automatically generate agent identifiers.! H, a2 } ~. k$ i) O
* @field agentIDCounter2 J: q9 U5 ]" s; Y5 C. F& e
* 5 t' g0 v, ]" A( c% ]# t3 P. D! S- ` */5 e3 r2 H2 \9 C( r7 E
protected static long agentIDCounter = 19 C2 u$ z9 i& S! x$ Z/ n/ P' ?
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* 8 o, z" j+ l/ a. y * This value is the agent's identifier.0 a$ g% A) T3 D! p
* @field agentID 5 R1 H0 `5 ], E* q/ ? * 0 A1 ^( p3 N2 `" m. j- m4 ~ */ 4 O3 Q+ S: B( U+ A$ J. j. F, b protected String agentID = "GasNode " + (agentIDCounter++)7 e: n: l a' Y. ^7 w5 U& W& X
3 P9 ^" @, [% N /** 6 U+ }4 X6 b5 L *8 J% p0 p) F$ V9 K3 t* s
* This is the step behavior. & ]0 U! l( c5 C( g' A- v# v2 o% i * @method step' o4 F8 h/ \7 q7 T( M5 _
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@Watch( ' [% x" S! V6 Y! n* K$ s i4 K! A$ J watcheeClassName = 'infrastructuredemo.GasNode',' u: U9 f( B# l7 i* M: X* k
watcheeFieldNames = 'pressure', * y& `! V+ L* `7 T0 T( M, d2 C2 f query = 'linked_from',$ q, s. L: G5 z
whenToTrigger = WatcherTriggerSchedule.LATER, : @- x5 L2 u9 s/ y4 Z# N scheduleTriggerDelta = 10d: h% x9 X/ _5 n# B n5 j6 J0 M
) ; E) E+ p* P9 D. ?2 A# E3 R# ^ public def step(infrastructuredemo.GasNode watchedAgent) {" e3 Q$ Z) z3 g8 n
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// Define the return value variable.( Q! v4 N' a3 ^3 Y" b2 |/ i2 }
def returnValue " ]8 w9 a7 p- ?) J/ i1 g; k8 N! r" S8 Z
// Note the simulation time. ' s( H; K; S2 W E9 ? def time = GetTickCountInTimeUnits()9 o, n, R" G6 _' y9 P# o+ L
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& u% E# t2 k W, K) b // This is an agent decision.( e4 Z1 ]$ A: I
if (watchedNode.pressure<200) { V8 w- {8 ^: o3 t6 f$ Z 8 V/ u/ S& W. a* L7 e // This is a task.' w( \/ O( H9 C, ^( \7 c4 z
setPressure(watchedAgent.pressure)" ~. h4 E6 u; j& h& Z( b) D
/ S# M0 W: q$ {, S# h6 F( s } else { : |" |2 L5 f& I; v$ n9 f8 q' c
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// Return the results.6 R+ ~1 I; O {0 Q8 s# {& W
return returnValue$ D4 Z+ o3 y! N6 ^2 \8 ?
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} ( K3 y$ g, X1 k* _ ?# L& g/ X* v$ P4 H
/**; `7 Q1 x# }! D' d3 l% m7 s2 Q
*- e- P( f5 _6 x5 ?! H
* This is the step behavior.; l3 G1 V- c* {. e+ z
* @method step# ~1 E D0 X$ s
** J# v0 U9 N* ?6 |8 p0 `. N8 z% h
*/ 2 }9 X8 a3 O/ } j7 _) o& B @ScheduledMethod( + q" h- c( d" P. b G6 n, ]' d start = 1d, & N5 V7 v7 A( r8 E interval = 1d, # f2 S& Y% p4 W shuffle = false 9 O' e; t9 d9 i ) . Z5 X1 }3 n( {+ |- z# @ public void step() {: z* R% W* e3 G
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// Note the simulation time. - X7 @1 V- k# B: D def time = GetTickCountInTimeUnits()0 z1 k' ~0 c8 E" m
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// This is a task.* R9 {/ X/ h U* ]1 F% p) ?
measurePressure=pressure+ RandomDraw(-20.0, 20.0) # }+ k8 D5 {9 e, I9 I // End the method. # x2 Z3 I: C0 V# f return; D: |! h6 T! | _( D4 f
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}
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发表于 2009-4-4 12:21:26
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