# _' k! m+ ?3 a1 F6 P* j9 J* M+ ~! a5 \ 8 f$ U j% ?1 O: s1 E+ B@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") ) S5 i; M K2 ?) p public double getMeasured pressure() { # }2 q" N6 T% ?* c return measured pressure + I* L* E$ Z3 `4 h/ G$ |2 X } 7 K2 k) r( Q3 w6 @ public void setMeasured pressure(double newValue) {/ x% \4 E: ~# [
measured pressure = newValue% W) |, U! E8 S z b" h E
} ! i. O, q2 `# T+ O public double measured pressure = 05 |9 y+ F; o8 a! \6 y2 X
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/** 2 K+ M! z$ P C& r0 d) ? k * ' l" i0 a/ L( g8 F: r; e- U2 B * This value is used to automatically generate agent identifiers.) k' t. E# |+ s' [7 D
* @field serialVersionUID : z/ E1 ^& l8 w) {2 K( E a6 q * $ h$ l3 K: P% t2 q8 l, d */ + y' h ~0 i3 x: b private static final long serialVersionUID = 1L * S" D7 l6 d& m4 x; U: x! S6 Z$ _4 e2 H- k9 o* l" Q
/**9 Q7 ^5 @* K, g6 v; i" A) f
* % {9 `9 @/ z0 W1 J; L$ c" [ * This value is used to automatically generate agent identifiers. * ~& O; v6 }4 j* v9 e! ~ * @field agentIDCounter. ?( c9 d' y8 x: {
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*/ - X8 U) ]$ m& A L8 m/ O* i: D protected static long agentIDCounter = 1 $ A+ G. m h. A9 ~( F: ^ 2 u8 C& J: n; S+ _3 T5 l6 P# z /**3 z% s( `% l4 A3 Y' _8 h$ X
* 3 S$ I W* {2 _1 K6 D6 w * This value is the agent's identifier. 9 X' \& @( O$ H * @field agentID ' h4 c' e' w& W! z8 n * ; _# f& G4 C- j3 V8 [0 V */! Y; N+ W, q% [; X) M
protected String agentID = "GasNode " + (agentIDCounter++) * z6 Q1 m# F, R; F0 |! N3 U / e/ c1 C% X- X, e9 ^$ i5 U /** 8 J4 y8 z, h! d8 r *5 r4 P4 t* q- G2 A" M
* This is the step behavior. + J7 \$ R: A/ s |8 N1 t3 c * @method step, i2 ~3 a3 C' G" V9 h
* . N- K7 f' b4 f! Y* ^7 A */ - t! I. O- f. [: W. w2 d9 v @Watch( % w$ I' ?- ]# S9 P( X* Q watcheeClassName = 'infrastructuredemo.GasNode', % s1 W% q' z- }2 z watcheeFieldNames = 'pressure', 3 `) k- _9 Q4 z- Y( O8 ~1 Y query = 'linked_from', 1 N+ J0 U b9 x3 X0 l whenToTrigger = WatcherTriggerSchedule.LATER, + ]8 O4 S0 l6 }) s6 { scheduleTriggerDelta = 10d& Z2 i2 M8 ^$ k# u) G3 h& R
) ! o2 P9 d) U3 l3 r+ H9 l7 z% Z public def step(infrastructuredemo.GasNode watchedAgent) {1 n* G% W0 I8 N/ a* R- H
+ I& j+ m7 u# _
// Define the return value variable. - o' ?; J8 @ W6 O& [6 H3 \) Y% u; D$ c def returnValue( w% i# U8 H+ a0 q+ }; ~
, u/ ]4 ^4 \) n& X // Note the simulation time. 8 O s$ M+ T( K def time = GetTickCountInTimeUnits()7 O K8 {' \' l; b0 K' A; G! R( l
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// This is an agent decision.! j: r' Y" Q0 z0 c
if (watchedNode.pressure<200) { + e9 }7 v9 ]4 h/ e) Q; J; m& a; \0 O% U- u ( O! O: o+ o( @. e: h // This is a task. & D$ [" i3 i, y$ D' d0 ~- a setPressure(watchedAgent.pressure) 5 u! R! M+ l9 L* n" I6 R4 p/ P; m* N$ d6 w j# \+ c9 S
} else {) j% w0 ]2 E1 ]# `" F
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// Return the results. " R0 j2 k! B& V, W' ` return returnValue' R& R6 ]. D2 X/ e4 A
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}8 X9 O# i# N8 f' {" \
' v/ r: Y. Y9 Q2 j" L /** # y2 f8 s9 V: e/ T5 S * 9 M3 h# m* s) s0 y( g * This is the step behavior. J8 @( l$ C- R+ ^- P
* @method step' R) r/ b( L. b6 G3 s+ x
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@ScheduledMethod(2 \* w0 e" d4 T2 m
start = 1d, ( {5 E! f: p# C interval = 1d, , F8 m% J8 |8 o9 t0 S$ _ shuffle = false3 z# o6 R! F: p) ^! L6 |0 R
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public void step() {. S& |2 K! ~' M; U0 }7 d7 ~
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// Note the simulation time. & e1 |3 C* k2 I' A- g def time = GetTickCountInTimeUnits() 1 @6 n& R1 T; M- w9 c 8 d( F/ Q' z+ M s3 @4 E; L9 ] // This is a task.* T" T, U$ z/ l% v4 ]6 E8 r/ k
measurePressure=pressure+ RandomDraw(-20.0, 20.0)4 |. M4 j4 }! l2 t8 {
// End the method.# l1 }3 f& ]( ?2 w* X+ ?) G
return; X q- A: V' v+ Y& ^. L- d1 b
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发表于 2009-4-4 12:21:26
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