. x/ R; m+ G) z7 |6 _' \@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") I! _5 [% B2 b! e! O2 E7 I0 }& H9 `
public double getMeasured pressure() {! M7 r9 r0 E3 {% i5 k/ x; H# l0 ~# ?
return measured pressure! e7 o% J }% S7 d4 x& \" u
} 3 _7 H( @. R7 V1 v- y2 [" I6 q1 o$ f public void setMeasured pressure(double newValue) { " S: x2 Q/ A9 p7 v# D9 w1 v measured pressure = newValue 6 Y5 |& ^/ t( ~# G } & d2 h0 }3 {- h& {" t _% r$ E9 u public double measured pressure = 0 . h) u5 l% k1 p. r( z 8 U4 |" S4 D( I$ i1 w6 m /**0 t# B, \3 t* Q
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* This value is used to automatically generate agent identifiers.3 [. Y) u% Z9 }$ _4 ? `
* @field serialVersionUID ! l5 ?" S; y% i4 i * / K+ B0 l: D! r: ^( Q% \( O */. }$ n# [$ X/ m6 ]' w7 M* r
private static final long serialVersionUID = 1L" z. k0 a: a1 R- S- q2 S
( P% f* t* z1 t, U /** ! c/ }) o O7 \8 }0 b0 b+ w# l * 1 R( |2 a0 R* Z- I$ K' K * This value is used to automatically generate agent identifiers. " g% [! E1 y' i) i" Z$ @ * @field agentIDCounter ; J/ l. ]( p* g `% c# l$ A *. M o& J/ J, R2 n6 v0 {
*/ 0 Z/ z3 V( L! a5 ^ protected static long agentIDCounter = 18 m+ f2 g+ O$ k3 u5 |& I/ B4 \$ u: r L
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/** * Y, t3 L. v$ B. {) y1 W* p, B( z/ [ *2 w7 ~/ C; Y5 C6 n1 A
* This value is the agent's identifier.! w3 j: Z: d* q) F( l+ `: h
* @field agentID ) d' c, p2 W! n# J' f; U" L * 7 U. ?- H- {' A3 y4 H9 e. Z5 x: o% X */ & q& F$ [" L7 N) c0 B( s, x5 }! o( l protected String agentID = "GasNode " + (agentIDCounter++)5 G. h: c0 o% B8 i6 g$ x
9 i1 @% z) G$ w2 g/ l) B3 W /**7 A' j# ^$ p/ u6 x
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* This is the step behavior. % k" ^# u0 ]9 T * @method step+ s% z# x! x z0 C% q5 x8 D
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*/ / o0 W9 m- {& P4 h1 N* U* E0 j @Watch( , v# H5 Z8 n4 V% d, [* y" @ watcheeClassName = 'infrastructuredemo.GasNode',! H) y6 k' q3 S" e6 \% G- I& L- o3 Z4 ^
watcheeFieldNames = 'pressure', ' [1 {4 T5 K) f+ k; p. J/ T query = 'linked_from', 0 i: i; {* _! p+ i& Y! J* d whenToTrigger = WatcherTriggerSchedule.LATER,0 d# q0 x' ^. b* U+ a& k
scheduleTriggerDelta = 10d . y" I; P& s2 c( K' ]0 h5 Q# G )6 a8 n" t _, _7 N# G5 O
public def step(infrastructuredemo.GasNode watchedAgent) { - r4 P$ t7 [8 j8 O9 C ' X0 y" Z3 J! T C) q // Define the return value variable. 5 e& v0 G% T- W def returnValue ; ^% G" i( I+ w4 j R! N 5 j* p) ]8 v, t/ q" b9 B+ Y% `5 G // Note the simulation time.5 k3 ?- _2 U# D$ Q% g; u0 M% O2 n
def time = GetTickCountInTimeUnits(); G0 z E& }2 Z0 \% e
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// This is an agent decision.# ^5 K- |) x' T, X1 x+ b
if (watchedNode.pressure<200) {# [3 `5 O6 G! y# u# x
a' m" ]5 J, G, T
// This is a task. * L& O: q0 u( b) t# `" M" @ setPressure(watchedAgent.pressure)% W5 T0 }) T& a2 K& n r4 G1 g F
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} else {+ ?$ g/ p/ W* v
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// Return the results.* ?) o3 q0 H2 n1 O
return returnValue# P0 T2 e8 Q4 ]7 b* C, A
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}! g$ l# Z1 w) n
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/** ! B6 k* N- `: V( |8 L3 R */ D/ Y3 E2 L4 s/ Q/ ^# U
* This is the step behavior. 5 P% D1 h! v1 e * @method step' l' P! ]( I* J
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@ScheduledMethod(: M. r) D7 E* ?7 Y# ?
start = 1d, $ n$ ?; y9 @1 Z interval = 1d, 8 F. O; ?# \7 S7 D7 U6 e shuffle = false( q' V/ H8 m# W6 L& W2 k+ H
) 2 c5 q7 k" \, H- h public void step() {" y5 }, n ]9 F8 ?. {
- h; z b+ Q+ I( N- ~( [8 L& j // Note the simulation time. ) w+ d8 V _, o def time = GetTickCountInTimeUnits(), h7 w% ?% f. G Z8 x$ p v, B
* U+ N! s$ y$ j* ]" M4 p // This is a task. ) K( @5 A$ b0 N' e0 R) y! M0 h. Z0 V measurePressure=pressure+ RandomDraw(-20.0, 20.0) & C0 n& S8 v; R // End the method. 6 ^9 T* t4 M) J return! X/ s2 l( R H( }8 K% K/ n& c
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}
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发表于 2009-4-4 12:21:26
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