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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") y3 l8 U$ d* ?+ e' N9 l public double getMeasured pressure() {2 ]: D3 L% G! } @' V. ~9 Y- l0 L
return measured pressure' L1 q* G6 l- s6 d/ i) F0 `
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public void setMeasured pressure(double newValue) { ! ~$ q9 `% @$ \9 z. q measured pressure = newValue, Q# I0 y9 Y" w& P1 y( Q
} : W6 B& l2 l N/ }- @6 H* ~ public double measured pressure = 0, ?( |; n& V/ W$ |0 `" I) H9 C
2 t: N6 b0 C2 q /** # p9 r# ]' G/ h4 f *( G+ t' Y' F V3 p/ J
* This value is used to automatically generate agent identifiers. 4 o9 C6 R1 R( V: N* L * @field serialVersionUID 6 [. Z/ P7 n- p' h5 _) x * / ^' R1 ?+ _5 l7 L- ]8 r! d& Y */ # I: x( M/ |$ R; G+ \$ O private static final long serialVersionUID = 1L% V( W" v/ _, G% e- M7 _/ W
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/** / n) a4 v3 `9 M+ R/ T4 r! p * 8 u) c% P& h6 l. R * This value is used to automatically generate agent identifiers. }3 b6 s4 u4 [
* @field agentIDCounter ! x$ V* v& X% S7 x& g *% L% z, E$ t* R9 s/ f3 K6 l
*/ / \# ^4 d& J9 Y5 w { protected static long agentIDCounter = 1; z& }! x% g! C9 _! E+ O
" |. d3 p9 m+ b' l9 @0 Q* d /**' I$ |9 j. s7 ~( g
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* This value is the agent's identifier.* O3 Z5 N1 _4 y- l
* @field agentID ) s3 Z6 r+ w4 A- h * . N- J' U/ X1 r3 t9 L$ { */+ I% h% R: ^ ` U! h
protected String agentID = "GasNode " + (agentIDCounter++) % O% O/ V U" E. s' j3 H' S! Q1 T1 v7 D8 f* Y$ ^6 t2 n
/** v0 N; j. r3 Q9 _
* ) Z: B3 ~& G" x# D8 H" X( D * This is the step behavior.. s. P& d+ `* C2 Y$ z4 ^! n
* @method step . s9 v4 `! f( \# _" t * & r6 h% l; [* \ */ ( f( V) e* G, j1 v @Watch(8 L0 k0 |) p# e/ X" n
watcheeClassName = 'infrastructuredemo.GasNode',4 g( {( d3 a& g9 D% B C
watcheeFieldNames = 'pressure', ) G9 `! {7 S2 {4 ~ query = 'linked_from', 9 {" A+ T" @! y7 T" y9 G6 x whenToTrigger = WatcherTriggerSchedule.LATER, ! H! w4 {* J! P" n4 g5 q scheduleTriggerDelta = 10d1 |* H! D0 n! F P. Y D
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public def step(infrastructuredemo.GasNode watchedAgent) { 4 `( r; @! [- I5 } U9 r, b( A5 k7 z1 |; `0 L" L# G* y v
// Define the return value variable. 5 [5 @2 N# M4 \4 S& \& A7 m4 T def returnValue$ e: K" W/ N2 [- @! o1 O
' I# Q' q _& {( n0 [, V8 S // Note the simulation time. 3 u, o5 `6 i# o7 v def time = GetTickCountInTimeUnits()& E, \6 p1 f: c8 F0 D
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// This is an agent decision.1 M9 i, M/ y0 L3 n. p
if (watchedNode.pressure<200) {; R0 x7 j A4 t/ i( M1 d
9 W" T* Z( P6 ?( r0 ] // This is a task. # v" r* r. U$ j) v2 J# a setPressure(watchedAgent.pressure)( I* t+ G" v+ j( |
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} else { , f$ [4 S" z" p + [) S/ B, M8 O) ~, A# c7 {$ _" b- _2 t, s8 G1 R
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// Return the results. 6 o$ Q$ w$ G; @ return returnValue3 v' `, x3 B$ f+ P% v9 Z
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} " { H1 D+ B& F0 i: y7 V 0 E0 f: I* ]% {4 Q, U- ]4 h /** ; {6 V- t% Y- W0 B *! c4 s& L6 Q! {- _4 g
* This is the step behavior. a. N9 L6 S5 s4 N * @method step 2 a+ I7 ]% U! H$ A% ^0 e * - d4 L$ y0 d0 G6 D: i */% s3 \; ^/ u, o# i( G6 k, P) \6 I
@ScheduledMethod( ; W: p- `- ?$ Q8 D" z start = 1d,1 Z0 J3 x3 |7 {. D: ^
interval = 1d, ) z7 c4 }: x/ u shuffle = false 4 X: y: x1 G4 c/ ^5 U ) 6 M9 @- j( e- j; K public void step() {, T1 o2 d; S& @" |( d- G) a
; R1 g+ U$ \ \$ |! s0 m // Note the simulation time.3 M; {8 u: p( |4 k
def time = GetTickCountInTimeUnits()+ R: x- D% }# K4 u% ]- j
) Y+ v7 J# v" l8 y // This is a task.$ K# ^- b4 z) ]" U* v
measurePressure=pressure+ RandomDraw(-20.0, 20.0) / z1 X$ B3 z) n1 {; r6 r // End the method.1 H7 R: j) N- C3 c0 d: q. n) h- R: t
return0 g! l) M) A: y, I& S) a4 Z/ N! g6 ^" {
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发表于 2009-4-4 12:21:26
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