3 w, ~5 u) @3 H@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") " t5 a& A% ^4 ]0 z* p$ k# P public double getMeasured pressure() { & }1 e3 A& _7 x J9 ?* g return measured pressure9 O9 V6 M3 o* l( Q
} " f# M) j* [2 ^: e public void setMeasured pressure(double newValue) { 4 d( q& F: K% C measured pressure = newValue 6 z, O7 U+ `( k' N* ], S/ B } / L# p% k/ ?4 f( ?3 e public double measured pressure = 0 ( r& D( P! G: g5 k. m9 c : T6 ?' i! U2 y ~$ u /**6 ^. Y5 Q6 `+ d9 c8 |
* # S Z n' K s9 l * This value is used to automatically generate agent identifiers. 0 Y) y! k; R7 Q1 g, o# V$ J5 a5 R4 V * @field serialVersionUID' Y6 U8 U6 n. y0 J c6 }8 l5 W2 d( t
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private static final long serialVersionUID = 1L3 `6 k1 g* H6 @) @- l
5 M$ v; J4 ]* M( g /**$ `% j, X$ a8 U
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* This value is used to automatically generate agent identifiers.$ D. C+ H) v! M; [- W3 `, @
* @field agentIDCounter0 `! r: F# X1 U9 V
* * v* F% I- }! G6 J. g* q! G */ ' r9 X' @, F8 X6 J0 V. q$ d) U protected static long agentIDCounter = 1# @6 P1 A8 d) J
* J* X% N+ j& r: n" ]$ j6 o /**8 M% S6 P1 N: R2 a
* 3 c4 `5 r+ O' a* ?$ Z. }) F0 A, | * This value is the agent's identifier.5 ^5 h! g+ V) W- N
* @field agentID8 j g, x+ O' ]" k6 W( w: G
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protected String agentID = "GasNode " + (agentIDCounter++)# O$ ?) m4 [! X% p2 e
9 b% D# F$ ^/ x8 ] /**; U' M& w7 C6 C, l
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* This is the step behavior. 8 j& H4 w# G+ s, J/ [, e# n * @method step 8 |( H8 f& f# i *: V" t R: y+ x; B8 ^; Q Z O! f
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@Watch(( b; H4 [- B0 h
watcheeClassName = 'infrastructuredemo.GasNode', 0 o/ K- \- ] r$ _; i+ Z: A7 z0 a watcheeFieldNames = 'pressure',, P: E( A) Y& y/ K. ^
query = 'linked_from',- h+ L- |! t3 j) v+ S! A% t
whenToTrigger = WatcherTriggerSchedule.LATER,/ t# u# O! q4 U
scheduleTriggerDelta = 10d \& q' S* `- t" {& N7 [- C
) 4 [5 W7 d" b$ { public def step(infrastructuredemo.GasNode watchedAgent) { 3 S9 V, R: n5 I, Z4 a6 k* }3 i! U) o ) a4 d. S7 I7 C8 }; Z& f // Define the return value variable. ; n+ t. E m" |* B) Q, v' B def returnValue 4 e4 |' } a# @7 S p$ T" e. N1 n( B5 }
// Note the simulation time.( M+ v2 l1 C, r8 D) `1 ~1 |
def time = GetTickCountInTimeUnits(): W4 U6 T% b) C* y
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2 T/ r' L% e) h% [+ B+ Y // This is an agent decision. ( {$ ~. P! R7 x if (watchedNode.pressure<200) { * t9 s: g @* C" Z6 z, K( P1 ]. M" t( b$ K4 R2 Y( C" M
// This is a task.6 [; X1 v9 Q0 l! J% X: P6 |
setPressure(watchedAgent.pressure) 7 m$ s. w2 [7 ?' R( G/ C- ~4 a3 j- C' u! B' ^, M' x, V
} else {' M: M" V: d' t4 _3 z+ q" f
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// Return the results. , c* d; R8 E$ ?9 b; Y return returnValue' z9 n- |% C' _& Z: U2 @8 T
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/ Z \3 @) z% u" Q+ T6 S$ N, g /** : q) `1 K! P4 _. s+ o *. _: C4 w6 i% u; L* x: V# \: @
* This is the step behavior.& n* O" |( d! [: X
* @method step , K6 ^+ y( _# G& _ * 3 M; `5 Y( V) M( Z( g" b6 u */8 N5 e" C9 Z2 y: [& Y
@ScheduledMethod( 5 A: y' C& }2 R, z4 h start = 1d,; K( H4 h4 v4 w( P/ R$ X8 F; ~
interval = 1d,. d; ?' }- `, a! K
shuffle = false - l. h' u6 H# N* ?3 P+ U; H. l6 [( H ) 4 J. L/ R1 ] [9 U, a. T6 i public void step() { 7 J, w( y, d9 Y* W7 `5 T( G8 [2 Y1 t( u" f) z; ?7 k
// Note the simulation time./ L9 h2 Y, e& j) a9 F% N: N
def time = GetTickCountInTimeUnits() 8 S; u& \% N' h v2 S* s, ^$ A k* B) _ S3 s" ^3 R0 c
// This is a task. . b, [% Y" C! c measurePressure=pressure+ RandomDraw(-20.0, 20.0) ; I9 D# k4 e, q // End the method.: s U/ X+ q* E9 A1 G. \ n
return ! T, y' ~7 K$ j8 Q& ]- I6 y; s" k2 b ( c# W' O4 D' Y* w4 T! b+ a5 X5 e }
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发表于 2009-4-4 12:21:26
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