! V& W" G$ X Q: _! s/ N! {1 t@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")9 X2 w/ h' g/ ~( a4 P
public double getMeasured pressure() {* K3 z$ H3 ?9 \( v5 {& b, p
return measured pressure/ n- j9 s* [& q" i7 b! T; }
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public void setMeasured pressure(double newValue) {! y* a4 x, i v# ~; {
measured pressure = newValue) e _5 Z* ?8 G, x8 W0 k
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public double measured pressure = 0 & u. |. [/ L4 B- o8 x% o M0 k9 X + w0 g( W7 k0 ]& U t /*** M9 w" ~" w v6 O
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* This value is used to automatically generate agent identifiers. ; E9 X- |* ~8 a5 _ * @field serialVersionUID+ F" R/ b9 c, v0 C
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private static final long serialVersionUID = 1L% l" g" _6 |9 N7 G4 Y
- E/ m) v+ z, z /**6 l: H+ O' q6 O3 N
* : h. K! U* K- V% l. Q * This value is used to automatically generate agent identifiers. A$ J& n; [, V, V1 s
* @field agentIDCounter/ `. c3 d" E% i) J6 [
* # @5 j* u$ J% H8 T */ * R9 d3 [7 h% X- [; I protected static long agentIDCounter = 1 , o x7 r' l2 v! V* r0 O9 u3 ^4 i% M. V% `. A
/** * Z, S& I1 G; v! v$ g3 H *: _) V$ [3 Q3 X+ Q. F0 G8 c/ z4 D
* This value is the agent's identifier. + c# |! R& Z2 {, G * @field agentID : O H: m, O1 F( ~ *. R3 l* F* {( f7 ~" S) ]( _) N
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protected String agentID = "GasNode " + (agentIDCounter++)9 \* t1 J& C0 i; d# [, C
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/** e1 ~+ \1 ~% Q * % T& p. O) N9 l% G& Z1 U * This is the step behavior. 6 h1 }$ p T8 W" o( k; R$ d! v * @method step+ v# F: R+ p, f3 ~& C8 w( M! n
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@Watch( ' K* k4 M( h1 c. f7 g* ~: I1 q6 {$ j watcheeClassName = 'infrastructuredemo.GasNode', ) V( f: j$ l& d0 [" _ watcheeFieldNames = 'pressure', % y& O0 L6 [ t* M" y3 ]# k query = 'linked_from', $ U8 ^* o, a$ f3 ~ whenToTrigger = WatcherTriggerSchedule.LATER,9 ]" J: ?5 e! y
scheduleTriggerDelta = 10d7 g; p6 Q/ p; M0 `
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public def step(infrastructuredemo.GasNode watchedAgent) { . C: W' G k* O5 C0 h# q4 m0 c& K( F5 R
// Define the return value variable. 1 N$ C! V) c. q$ F% N$ R2 h5 A def returnValue 4 s0 x. n \6 G3 F- R" X+ ^- q 8 d* K) b# B$ p7 f // Note the simulation time.; V4 ^. M l( Z6 _, S
def time = GetTickCountInTimeUnits()% T; q4 m. F$ {; N3 x
2 u/ j( T; X# @5 X( } 9 T R [& R& h+ e/ @ // This is an agent decision. 3 e1 S: K% n% I0 n& t9 w$ Z if (watchedNode.pressure<200) {& @* |$ G1 h. m# T
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// This is a task.3 k+ S1 u" z- Q+ t8 ]
setPressure(watchedAgent.pressure)4 g) m# c% B8 ~* g
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// Return the results.2 ~: c. Z8 p0 |& b4 p0 d
return returnValue 6 B- B- R+ S2 K+ | 5 `8 y# |; [$ ~2 [ } 7 C+ a+ `6 I8 t! n3 U1 x0 F/ N$ C2 @" q
/** 4 i* J0 V o+ _6 K *7 }3 X8 |$ ]/ s' J1 W
* This is the step behavior.9 _. [& w: M: q: n0 x
* @method step( d% |* W. h* |% G1 V) W' _
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*/ ( j4 ~( u8 t4 D1 ]! M9 j* R @ScheduledMethod(, v1 y% s5 |% {$ G0 U' ]4 ] f& ]( o
start = 1d,- g: ~ L; P6 E/ l7 Z9 R/ Z3 J
interval = 1d, 5 g3 _. t' B) G2 J/ ^ shuffle = false- H- @" Q6 \+ n" ?3 ^1 _4 q
) 4 ^- G3 z- Q$ X: X( t public void step() {# H" {. v6 @" Q8 c
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// Note the simulation time. 3 G1 p( p0 T% y& o' s# M+ E def time = GetTickCountInTimeUnits()! @9 U% u Z' ~) |9 ~; r/ R
$ m$ ]: `& e3 H3 T0 f // This is a task.3 W3 N3 j- T- c9 r" K+ @
measurePressure=pressure+ RandomDraw(-20.0, 20.0) * f8 p/ {* R& s H5 m j5 U // End the method. 3 m2 f% D9 x- n; N return* {3 _4 d- O& R1 V7 ?
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}
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发表于 2009-4-4 12:21:26
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