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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 7 Q3 }* B2 P3 q* K- w/ d# \ public double getMeasured pressure() { $ V4 {! _0 B I2 ~, a return measured pressure. y4 ^* p2 z+ M
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public void setMeasured pressure(double newValue) { + d% Q o" m! [ _, i measured pressure = newValue & F# ]) |: \2 X. t6 f } ) a) r* q: E5 j) D4 M" L2 S* M4 d public double measured pressure = 09 N t l. U9 b1 V: r
) z! p) ?' I K1 e /**" O6 G6 Q1 \. e |1 [
* 0 g, O6 J& k$ L" f. `6 [, H * This value is used to automatically generate agent identifiers. . {4 S. K" F8 N: ?. e4 l * @field serialVersionUID ( q% a5 d+ t( l; y2 x# a5 ~ *+ g% l3 b$ b$ N
*/ * p/ m8 t# T" G6 ]/ E: S private static final long serialVersionUID = 1L $ g! }: b/ k: e( u e* e5 p" U; v& o3 R7 e
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* This value is used to automatically generate agent identifiers. 6 B* L) o& s3 Q* U5 K$ @: T: P * @field agentIDCounter ! |+ Z) j" u4 B% z *# j' c2 C" d( ^2 z' U
*/ 5 }: m! R! l/ q; T3 ] protected static long agentIDCounter = 1$ k; y2 M- ] t* E
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/** 7 h/ O) Q% e* d( B& u * * Y0 ?9 I# n1 N `. G; ^, P' h * This value is the agent's identifier.# o( k! K! S: P) V8 |% x
* @field agentID+ l. E, [/ @5 o* s
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*/ - o9 t% _4 z* s, u/ P protected String agentID = "GasNode " + (agentIDCounter++) ( f# C5 E7 O! ~2 M' e 2 u9 E; t5 P2 Y$ ]) {$ G) T /**; L: _% g( h3 G/ {9 x3 Q1 N* k+ ~( t4 m
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* This is the step behavior.+ d( i3 W# ]4 b7 M6 b6 y
* @method step; s+ G! k& h9 {4 m/ P
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@Watch( 9 Y# H$ {0 N- z% a( M7 g$ U) a watcheeClassName = 'infrastructuredemo.GasNode', 7 F$ i3 }6 N- F- F0 J: { u watcheeFieldNames = 'pressure', 7 h' q' t W) j query = 'linked_from',. i% p# Y6 A" i! H* }
whenToTrigger = WatcherTriggerSchedule.LATER,1 g7 H! j8 Y/ \( z, _# C" `$ m+ C
scheduleTriggerDelta = 10d! c# M. `& d+ `& j2 w0 l/ p
) " |# t* h1 u, B# V; W# a( f9 \ public def step(infrastructuredemo.GasNode watchedAgent) { % N. K/ F9 M( l1 y2 W ) f; j8 c+ E8 P# K/ j5 J8 ? // Define the return value variable. * A7 H a7 z" b5 n/ W def returnValue! w1 D5 K( b& f+ q. p- A
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// Note the simulation time.# @5 \3 S6 }, J% Y8 n6 X7 c
def time = GetTickCountInTimeUnits() 8 {: y9 g, S" x3 M4 Z1 f# Z/ Q x4 G$ q& S/ b( F6 y7 _. \& u
# J7 X& Y1 ?4 Y6 ] e. e // This is an agent decision.( g- }- I2 ^- ?. U$ w. O: o
if (watchedNode.pressure<200) {7 z/ i# X# x5 `9 S, X5 m
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// This is a task. 2 o5 G4 z; N4 B1 ^( z; ^4 {6 p setPressure(watchedAgent.pressure): L- D' P+ e( A6 E! a* V. B: H( W, P
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} 1 a: A. U, r5 _ // Return the results. * ~# l% L) Y- y; R4 a7 [ return returnValue 4 V' g& K! R) Z2 S9 \; Z# r1 ?7 i$ a3 D) d2 h8 h
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/** 0 z4 N' W1 v4 i/ B * 9 a: }/ E+ z# X- x* t * This is the step behavior.5 l" w/ `$ D$ P8 p* O! k
* @method step # S5 k6 w' O/ @& i0 N * 6 w2 c# c! k% L9 N */ # e% T' ?* }) H* d @ScheduledMethod( 0 r3 B% x; g: A& J. [ start = 1d, 7 A$ g( t4 \) e% b interval = 1d, 8 f# K! Q L" L. t. f7 i( A shuffle = false, q" D/ ]9 r( q# S) `3 H! m' `
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public void step() {& Z7 U _. y+ R3 D U4 }
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// Note the simulation time.' O2 k. f# S2 _3 f2 q0 d3 C( J, f
def time = GetTickCountInTimeUnits() ; N! L4 S6 ?! A- k& }# d% I2 x1 i$ E; R% Q: N5 s' y
// This is a task. & ?2 x7 F+ [/ r* Q# B1 { measurePressure=pressure+ RandomDraw(-20.0, 20.0) . J9 H% t# L; S" _7 B/ g# M // End the method. : o2 \8 W7 Q* h6 D# r return 2 M6 ~! d- }% x% m# B+ \" y- { - i3 e& m7 c+ l) F& {) t }
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发表于 2009-4-4 12:21:26
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