! `: V% E* ~5 `. P1 i@Parameter (displayName = "Measured Pressure", usageName = "measured pressure"). Z' f1 s* m- e
public double getMeasured pressure() {$ L8 I7 o( h( P5 l. @# S7 r
return measured pressure; ~3 H$ m& K8 L3 y8 ~6 @! R
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public void setMeasured pressure(double newValue) {. v, c1 }7 j6 ^& x g: ]
measured pressure = newValue/ i' E. {7 j, p; O8 s* W: V( c
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public double measured pressure = 0 $ P3 X4 V; D) m; g0 I 3 b& ^1 F0 j) _6 M /**6 w- f0 `4 X$ y, y
* 7 H/ T" W9 [/ F+ X" V- G5 B * This value is used to automatically generate agent identifiers.8 x" m3 L; M" {0 j0 E" ^8 h
* @field serialVersionUID. q- ~2 S- M0 G/ P' Q w
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*/! |8 u4 a. ^4 s' j6 s) d5 C, h
private static final long serialVersionUID = 1L: h4 Y# F$ K8 L ]" O" Z* O4 Z
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/** % ]; K7 k# V, _! t+ Y# Y) B# _ *5 P: N3 {9 A% w. q/ c' ~
* This value is used to automatically generate agent identifiers. / P Z, m6 w9 F/ n" D/ Q; k * @field agentIDCounter 9 n. V* r* a9 X *& M9 ]1 |0 D& e8 i( N1 U9 C! S. X. j# v
*// U6 W @( y3 |7 T% r
protected static long agentIDCounter = 15 H6 G8 ]7 H( E) F
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/** ) L; H4 v% Y' W * + _8 t: _) R, `9 D1 j# Z * This value is the agent's identifier.- {% X) @6 k, C- i: R& n
* @field agentID y1 I3 P; s& b *0 t, Z g6 p9 {, J J$ n
*/ 2 |" T' M, y4 @4 ]/ G protected String agentID = "GasNode " + (agentIDCounter++) ) Q. I& s9 R; i, s$ f5 ?0 p" ]# r( z* G" w( a# |- k, b
/** . s9 G9 a, y/ G" u# _3 h/ y3 x. S *" j7 E8 y7 v5 H/ S& d( X2 [
* This is the step behavior.8 a1 l' Q' K- F0 T) {# Q) a2 X
* @method step9 j8 ?* v7 B5 g" B6 T8 l& U
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@Watch( ; E- L1 J/ n1 o ?. C watcheeClassName = 'infrastructuredemo.GasNode',+ T! D1 a. S& }+ ~2 d- A
watcheeFieldNames = 'pressure', ) i; |1 }0 F# N( P" I* E query = 'linked_from', ! y9 o: o/ v. D7 Y' j+ { whenToTrigger = WatcherTriggerSchedule.LATER,# [- q) G4 Z9 m& [$ o
scheduleTriggerDelta = 10d % D# @( w: v) D5 [; d$ B ) . j: l8 M. F8 H: R public def step(infrastructuredemo.GasNode watchedAgent) { 2 J. z+ M6 x" I4 z- T, b! O. o k) T' D7 B, M9 @# p
// Define the return value variable. % W; ]: x. S+ r7 R4 G def returnValue! D- }; F i+ Q' E/ W1 Y2 Y
. }8 x6 b% W: J8 |
// Note the simulation time. * u- k' ^ }: D8 L4 I% y def time = GetTickCountInTimeUnits()4 M5 q( O7 H5 m8 U$ w" u
+ P; u" `( b/ h R% k6 k
( S& ]' [# J7 e/ k6 n9 e1 Q& E3 G // This is an agent decision.9 R! e+ \$ m) Y5 h
if (watchedNode.pressure<200) { * t1 E- [1 {3 V( ~4 N0 J' h1 T$ I: H) B+ m* h( x( b
// This is a task.: E& b* H/ e" D
setPressure(watchedAgent.pressure)1 _( F A& @& y% ?' z# ?. G
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// Return the results. 0 @9 W0 U4 h# V$ Z/ h/ a2 o: G8 O return returnValue " S- }( G. v n0 L6 T7 }$ X& B& S# B [. _1 }% ^' I
} 1 E9 E, q( d* }! ?+ \% [) @+ ^* u! T# ^" S" l
/**! J- k8 R @" s
* 1 C# m, {; W& u! v% p9 G * This is the step behavior. + x4 E6 F1 V7 t# y) V7 z# q& R+ [2 i * @method step 2 c) m4 @1 A$ `+ o C * 4 I. m% u0 g# g: J- l */1 ]- @7 \* d; g
@ScheduledMethod(0 P1 |# F0 ?* r2 \5 _8 F
start = 1d, ; f( H' Q- o& t j# N# L1 A interval = 1d, 0 `9 m- }2 R0 Q$ q j shuffle = false " [0 m0 ^% e! w3 I" f ) 2 J4 n! x* e! v: L5 o public void step() {. j! F* ` `( b M2 Y9 V- v& I
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// Note the simulation time.: Y* O/ ?% x* I( J
def time = GetTickCountInTimeUnits() 6 ?2 ~. K/ w; y6 {/ x4 K* I8 H, C3 F, l$ O! j) i, o+ Z3 Y& q
// This is a task.+ G& p! T: F: ^4 F2 D
measurePressure=pressure+ RandomDraw(-20.0, 20.0) - U3 s( `4 j: d V( C* r3 j. _ // End the method.# w4 ^7 O# G V* D; c/ v; K
return ( o$ F3 t' D& L' `( o ' R# U9 T) x, p4 Y B- _ }
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发表于 2009-4-4 12:21:26
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