$ w/ q3 M9 _! U% D@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")- M5 ?7 \. x0 }" l& A: M
public double getMeasured pressure() {( q6 b8 H; U; Q3 n2 c
return measured pressure 2 F6 k/ E" J- p }* g/ }& _' q+ J. Y8 d' n3 z
public void setMeasured pressure(double newValue) { ' a4 I! q* V& a& B measured pressure = newValue ; d# m. d# M- Z) g: t) o7 E8 X } 9 k- S) Q0 J- Y" {) D public double measured pressure = 0/ }1 n) r# T) G8 B U ^7 Q
7 r! n) p+ l" x4 k# ^/ }5 n /**/ \1 Y5 L7 h) W0 L( X3 o0 g
* / h. |5 T/ {8 T" T- P% q' `) S- ` * This value is used to automatically generate agent identifiers. 5 l" f2 J; K3 y * @field serialVersionUID* D+ e: E& U s0 r
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private static final long serialVersionUID = 1L ! i t, v1 `5 K2 E* r# Q% U0 M3 w5 S& }% ~! o
/** y6 L, Q# V$ \4 N
* ) i) ~# X- m( o% w- _; v * This value is used to automatically generate agent identifiers. ( c& Z! u, a. y( U+ D. _ * @field agentIDCounter ( l# W. S3 i7 H0 M( B) c *# g) V+ R. c1 X8 T# I
*/" k2 B/ ~. @ [
protected static long agentIDCounter = 1 & @5 `3 J b; ~+ i+ `' X8 H 4 D- Y$ p" C9 m! n( ` /** 7 n/ \2 z( v; ~. e7 l6 _4 M *( O4 M4 n c* P
* This value is the agent's identifier. 9 @6 H- ~& ]' j A# [( R * @field agentID Q3 K& I1 X; M4 j
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*// w1 B0 {$ M: `; P) S! A* D& `
protected String agentID = "GasNode " + (agentIDCounter++) 8 t) z+ _+ j! q* ]7 n( v K [1 E4 H) T- Y7 Z; ~$ _
/** , G" K. o) R; F! m% r *$ b) w/ p _6 |
* This is the step behavior. + ^5 w' b$ ]. k' J& [' _( \ * @method step) U/ z" B7 X( ^7 s- u& T
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@Watch( . m# K2 O+ p. k watcheeClassName = 'infrastructuredemo.GasNode',5 x/ q7 M* S, s
watcheeFieldNames = 'pressure'," ?# m$ n, r) s$ V
query = 'linked_from', & F3 D, _- L4 s1 ~& V7 g whenToTrigger = WatcherTriggerSchedule.LATER, 1 L6 K( M! s, h# q; A scheduleTriggerDelta = 10d 4 M+ e! U7 {3 p$ K, v* I ) # {" s* _" w+ w+ W. j0 q public def step(infrastructuredemo.GasNode watchedAgent) {. f5 T9 }& V0 O0 K7 n3 o* F1 Z( b
% I7 K8 I* ~. S, X8 X8 p- h7 @ // Define the return value variable. & c9 Q# K3 R7 X3 N6 R' g' U def returnValue # w& N* w: Q0 v$ b' o$ K/ b9 P 8 }0 S+ W6 N( Y" ` // Note the simulation time." ] I" r/ C+ v0 D' O
def time = GetTickCountInTimeUnits() " P2 n5 p; `" M, } A& W' z# p1 {+ C' c! V& y
0 {* f! W. m8 O) I, N* X // This is an agent decision. : p% |( g7 U2 M, i. H1 [% w if (watchedNode.pressure<200) {, M+ K! R/ y p5 `" E7 {
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// This is a task. * @+ h+ I+ x( T8 E setPressure(watchedAgent.pressure)* p; d, @, A- v; `
8 b7 r p: }9 B) X8 i } else {/ U8 O1 K E" ^
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}; w& u" D1 j( L" L7 C; y
// Return the results. @' H7 O; m( ?$ p3 X& e return returnValue( P- b2 u! u/ c1 w* x6 i
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/*** \$ I- }; J2 R% i% H
*, j4 f7 h5 _( a% o9 j
* This is the step behavior. % S' h) J, ?# f/ z" T# i * @method step # T: J- G6 q9 T9 Z0 i *# X/ P- x' q! t, V, x* ]
*/ + k/ b& I' V, j0 p+ @, o @ScheduledMethod( ' b. m1 @7 m3 P: W start = 1d, * T9 Q N9 _4 ` interval = 1d, 3 v0 g. a/ ^8 e9 [: G0 D/ C9 J shuffle = false8 y% H9 H' m [0 W8 y
)- {' _4 u: K4 s" o) N5 s# V5 ^
public void step() { & P% { y$ G# ?+ W6 A; v: U 3 O. X6 C% X! f+ Y; z# }: _6 P! V // Note the simulation time. % v. I' a( p4 `. I def time = GetTickCountInTimeUnits()5 g, U$ A& x3 i2 v# ]/ V8 M
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// This is a task. - s* I4 N+ B# D1 `2 W measurePressure=pressure+ RandomDraw(-20.0, 20.0) % j- H: E/ o7 B // End the method.# X+ a7 m9 R M5 H( M6 o
return" b. e; v' V4 ]9 _: B' C
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发表于 2009-4-4 12:21:26
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