. Q0 m& U/ v% A ! g- Z$ c7 G) @4 i/ R) h@Parameter (displayName = "Measured Pressure", usageName = "measured pressure"). N5 y I% u5 a6 Z8 a' o
public double getMeasured pressure() { & A, l9 A: O8 t+ X$ P1 k return measured pressure ) A* D3 @: g: a: S, X# S } : r& x1 z# Q* Z7 q# b public void setMeasured pressure(double newValue) { . W- V6 y( l1 E4 S( Z7 T3 w, k measured pressure = newValue ; _( ~1 P% y. \4 x$ g }. n( _, w. u* i
public double measured pressure = 0 - u1 E6 Y$ Q: Y9 y* M , A: @! ]3 I1 h$ M; Y$ N /**1 V& j) j: t* g0 I5 u n# o
* 2 D1 r, o0 u7 `8 t; b; V: T * This value is used to automatically generate agent identifiers. 0 L# q- o" R6 ]/ y' s; B * @field serialVersionUID 0 t" T* I* t. U- P+ }, x7 Z */ U& R. s6 R4 J! o/ @" l
*/ % g* U4 ~$ A. C! I) e# M$ }8 ` private static final long serialVersionUID = 1L7 _3 z9 L1 e+ W+ d
0 U x) t A' n) z: I% ^ /** ! R* G+ ^* m6 J *7 p& N { U8 L
* This value is used to automatically generate agent identifiers.9 w' Y" W4 |) |% X6 u; O- v
* @field agentIDCounter* f9 T6 ]! o" W& W' T+ o+ d
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protected static long agentIDCounter = 17 ]; s) B7 Q' l7 K; k; d" Q
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/** 9 x) L2 D& X8 R2 c7 w *$ _. Y" N- e# d' [* `8 I
* This value is the agent's identifier.* C4 A" t' i$ X9 Q3 `2 {
* @field agentID' J9 m7 H8 V$ A$ t( S5 Y) F K
* 1 c/ Y4 o% c. U0 e) {+ _0 k2 @ */ * v- d% K% W; G1 [ U protected String agentID = "GasNode " + (agentIDCounter++)& j; M7 e0 U9 R
! o. c+ l0 t# v6 v; p5 W /** M. g/ X/ N1 v
* * A+ L$ W* _ m * This is the step behavior. 9 p6 y7 F L2 D2 H# q * @method step ! o$ f! V1 b' d, Q3 ~ *) g: q2 ^/ a# L0 x6 c+ f! ~
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@Watch( ; S' ^, ^ H$ F watcheeClassName = 'infrastructuredemo.GasNode',) p2 q! o* i' @
watcheeFieldNames = 'pressure', " v9 y3 R% ~- G( Q& r; m9 J query = 'linked_from',# a$ X/ ~$ ~1 t* i! t0 v5 p& n5 O/ {
whenToTrigger = WatcherTriggerSchedule.LATER,& R+ _$ j% w$ S) t, b
scheduleTriggerDelta = 10d# o" h/ L! c4 J6 O) f S: u
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public def step(infrastructuredemo.GasNode watchedAgent) {% O+ y$ E& b+ C- ~1 R
" z6 C2 _2 U: Q" N% _1 K // Define the return value variable. 0 K: q; i, K/ o+ d1 h/ D def returnValue + K) e+ `; @9 |" H5 G. w: ] ) z% V+ k0 m: M2 v; R+ ?/ e5 x, S" Y // Note the simulation time. & G+ q, P/ @* H+ k def time = GetTickCountInTimeUnits() + x7 p. c/ H( a, L V8 I% ^9 R # a' X# l& Q3 v5 U- Z" A& Z 6 {$ o9 z! U$ O. W5 R // This is an agent decision.% H7 Q3 {* j2 n! f! O
if (watchedNode.pressure<200) {6 O& ^2 K V. H7 Y4 X
9 F4 |0 E2 V8 D( s# ?/ j, D, M // This is a task.3 K$ h0 I- S" t1 z8 ?7 v
setPressure(watchedAgent.pressure) $ ~ T r7 S, U; K0 v& w$ H: x' x- }) I
} else { ! I8 w7 x1 C$ R; v$ O- Z5 F9 ^7 o0 _4 C$ r) d; N Z
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// Return the results.6 o5 n$ _2 X* Y% F$ i) k" n
return returnValue) _3 j k6 W% a; s. G/ c
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/**# J3 m& U4 S8 y' G5 L) |; X
*/ T5 I6 [$ }' Z6 n6 x% \' }+ _, m9 n$ Q
* This is the step behavior.2 R$ [3 l6 T0 s( k
* @method step * ]7 ^% p: O. i/ h * n0 t' M* M9 d0 M) S1 d3 U* ` */5 k) h+ n) |+ n% }% T
@ScheduledMethod( , a1 m2 q0 S2 [$ T* ~/ q start = 1d,. ~( e4 l: x9 c
interval = 1d, $ F$ r Q( Q4 |* m: j2 p3 \, } shuffle = false * u( m/ G' m( W0 f7 z6 N1 ~ )" B9 W. z! q5 @) s
public void step() {" `) X" T2 R" ~# ?/ N% v
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// Note the simulation time. 3 v9 b6 b% I. R$ O) r; U7 R def time = GetTickCountInTimeUnits() . B( z! X) G7 h4 C, Y3 V5 R+ b+ ?2 Z {2 V: D9 n
// This is a task. 3 r3 F- P. L s% O# p+ I6 W) ^# F measurePressure=pressure+ RandomDraw(-20.0, 20.0) . Y: T$ ]# f5 |: C# Z3 e# o, u- }" \ // End the method. ' R( Z2 s0 D" q* r' p: b3 {* g return / p6 l+ T5 k3 U! h1 V# B, O( |, Z
}
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发表于 2009-4-4 12:21:26
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