0 L( q7 p' D1 l@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")4 t, M+ J" Y3 u
public double getMeasured pressure() { 5 `$ ?- O. ?/ W4 y* L) n) X! K return measured pressure 9 U# Z3 g/ n5 h0 s2 Y } 2 A# e4 d# f+ D/ {9 d public void setMeasured pressure(double newValue) {; I4 o) n* E* Q/ N* s
measured pressure = newValue5 W& O/ `6 h6 u& \6 \8 `
} * H- Q# |7 s' T, |# l public double measured pressure = 05 q; D5 y' F( S. T: K
; y% o6 Y, W3 \* s7 r2 u1 V /** 2 A+ w8 t' ]( L( \4 Y3 ^: K *1 ?3 C5 M) P# ~/ Q
* This value is used to automatically generate agent identifiers. ! P. S; o" a. P0 ]& Q * @field serialVersionUID % V) X ] t: _5 P5 A6 C9 E * , D* y+ B& R! d& M6 u */' ]3 I1 q! e* R2 {
private static final long serialVersionUID = 1L# n- u8 W+ }3 {( V9 ]8 n C
/ F6 }0 K7 J2 |* R$ U /** ) W! ]) s" G: m! _% H * + Q$ a( Z* `0 Z. Z$ H% j * This value is used to automatically generate agent identifiers. ' R4 U1 c [0 g" Z. p& }( e * @field agentIDCounter% D6 P% } ?7 k$ B
* 9 L7 `" h- `5 W+ {) P */ / y4 u' S4 X, J' l# M4 s1 g protected static long agentIDCounter = 1 6 Z f+ L/ _* R, c) I% A# f6 Q. T' Q- X A+ M7 h3 b! V
/** 0 N! m" c8 A, _( o *4 F/ f( M' v. l) m
* This value is the agent's identifier./ `& Y5 d: U f# M4 }! `) Q
* @field agentID/ s& ^# [/ z8 Y+ c+ ]$ G5 {3 z5 Q
*! w0 w: ?9 {6 a. Z- [
*/ / l( t0 a% @0 ^( b2 @6 d" w protected String agentID = "GasNode " + (agentIDCounter++) ) ^+ w8 c) ]+ f- q5 J% [, V3 X! r2 i3 M3 P- U
/**6 t2 s7 S7 v+ \' }0 H+ [4 i
* ) ?6 q4 |8 g [( K+ S * This is the step behavior. , \) q% {3 }5 o* \ y' C- u$ K * @method step & B. X; f$ V B7 a- m, u * 4 o' z* {, k) C */ + G% k0 \' @' ?$ e @Watch(% v: [& ^% d2 z$ v& S! i- j8 V
watcheeClassName = 'infrastructuredemo.GasNode',$ ^# {: n5 c' I/ c+ X
watcheeFieldNames = 'pressure',6 V$ o, C; ^3 p# W! y
query = 'linked_from', * M+ O7 b y+ N2 k4 P whenToTrigger = WatcherTriggerSchedule.LATER,6 [; ]2 M1 s, m- b- W/ ]/ l
scheduleTriggerDelta = 10d* M: x9 d9 C6 [6 s( ^4 r2 [, a8 v
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public def step(infrastructuredemo.GasNode watchedAgent) {2 B8 D$ O2 T& _( Z# i
' E9 r) K3 R4 c& K$ q! @" ~( Z' O // Define the return value variable.- ^# L5 g* T* F0 W! t- b7 B
def returnValue. M5 [+ p! T( @. \ Q% f
6 h4 ~) L0 @0 U# T* Y, c( s
// Note the simulation time. 7 Q5 b; w. N* F1 S; D def time = GetTickCountInTimeUnits()' Y/ |2 h0 `# g
6 H1 f* l6 Q7 C6 ~9 U" d: c
# `" a3 N, p8 w // This is an agent decision.% f: ] g0 g- C& Z( ?
if (watchedNode.pressure<200) {3 b; f1 \3 V8 x* m: Z7 x2 B
`/ F# J/ E8 R G7 d1 \# j
// This is a task. " t1 n6 p+ T- C3 J I( |( W! u+ O9 c setPressure(watchedAgent.pressure) # Q: H' j0 `( r% N6 L3 f2 H6 F# x: Z# w4 i8 ?% B+ h) l
} else {' d# B, e" e! g( F. j" x Q( d
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+ |9 d" u' s# ]! X( y
} ! v1 x d- J# S) b // Return the results. ) O8 e; T4 j1 [* D return returnValue 5 d2 [4 @' I3 y. ?! B( O* G: ]1 ]1 X8 _8 V: x$ w
} 1 d. I. e$ v4 J7 d) k, ]% v# B& k! w/ f& G0 F) O( ?! z8 G) r4 E
/** {* `/ Q/ D, [0 Q# O: V+ ]
* . W$ ^2 E" M' j; B, K; e3 M$ d * This is the step behavior." C3 z, e5 O3 L5 [
* @method step0 H' f& |0 @. ~' p0 _
* 5 _( i/ w" w, I% L */ 0 x+ D+ k3 w3 `& G @ScheduledMethod( ( F* \ t. ], y start = 1d,4 C% S. {9 N& O( F5 ?
interval = 1d,( w' Z4 x _" Z7 g. ]. l
shuffle = false * I4 L) ?* [ o3 m$ f2 {% w )/ h% u$ o, a% f* A
public void step() {- E& i+ s0 P; m, [+ _+ o% T6 l4 V
0 R0 w- c, } a // Note the simulation time.& p9 ~1 N1 j3 t6 V% T7 w8 D
def time = GetTickCountInTimeUnits()4 h, z* L6 N! L5 _
2 G) f0 E6 ~* Y V% n3 F // This is a task. 8 O9 v1 t7 k. m2 w) F measurePressure=pressure+ RandomDraw(-20.0, 20.0): V3 X ^, e/ U, R# q6 A8 E
// End the method. 5 @% D3 }) r* r* I! i return 0 Z8 E1 }% a1 B& j' w9 M# L 6 t1 u3 r: z$ H {* C# T$ r }
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发表于 2009-4-4 12:21:26
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