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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") c' u8 l. `4 s; v9 Y! r public double getMeasured pressure() { ' ^5 A3 w6 s) { return measured pressure4 V( F3 b9 }2 Y9 q9 g
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public void setMeasured pressure(double newValue) { 9 X. V7 L; H9 t. i# w! z measured pressure = newValue" C# [; h" Z; U# z+ B- \
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public double measured pressure = 0# ^6 v8 t& e: T2 H4 m& U3 b
! I6 S( E$ d/ L) M8 y; C/ U /** 4 e" R7 K. N- w% Q8 ] * ) y; U" d% ?: @& e) T- { * This value is used to automatically generate agent identifiers.* ]/ v# w/ n- Z: d
* @field serialVersionUID8 E! D$ k' T( D5 _6 b
* 2 v$ U, O. y# x$ L */ ; M9 o8 ^% N9 j/ s$ I+ b; ]/ w/ U private static final long serialVersionUID = 1L 3 R, v, N9 Q: A% |4 w( K1 U& M ' o, m* q! n# p2 k6 m3 v! a /*** Z c) _) b/ m4 V
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* This value is used to automatically generate agent identifiers. ; f2 B2 O8 @* ~+ h * @field agentIDCounter. n9 {$ {0 q7 {5 N; B' S/ P
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*/ {4 w! a+ {2 H7 m! \- g' `$ @5 @ protected static long agentIDCounter = 1: \$ o, t, r& Y; t, h
4 s5 M) U2 u. h" y6 B9 l /** ; Z! ?" |- W4 ]$ P1 m' m: M * Z5 k# @! C& a% {
* This value is the agent's identifier.# i% ^ |7 g! Y6 P0 u6 a
* @field agentID 2 F1 I' H, P) Z" h ** ?. h- N7 ?/ B* |+ S0 u
*/ s$ ]) {' x4 z# C; R( ]4 X+ J protected String agentID = "GasNode " + (agentIDCounter++)- t2 z3 N& _6 d/ B
* e$ L J+ X$ i+ v3 _1 @ /** 8 q W- e* n) J R. N. u8 M * 8 n1 W- }$ U' ^& v( {" q * This is the step behavior. ; F0 X! h- [# Q, X * @method step ) j$ R# j5 [9 O( d * - a1 n+ C$ j: `7 K */5 A$ ]% N& q7 f$ M
@Watch(" W: X6 Y0 k+ j) ` Z. d# V3 T, {/ Y
watcheeClassName = 'infrastructuredemo.GasNode',1 y& _0 ~6 u" D1 X
watcheeFieldNames = 'pressure', , y# X( B% t: V query = 'linked_from',! F. Q6 e& k$ C1 R6 l* g+ t- G
whenToTrigger = WatcherTriggerSchedule.LATER,5 e% Z; q- b+ [8 p" T; x) W! W
scheduleTriggerDelta = 10d & s6 C; s% ~$ p7 a2 d0 B: }" e ) ) O& K" s2 t3 p$ i3 \0 t9 ? public def step(infrastructuredemo.GasNode watchedAgent) {3 m% O2 ~: G" m) Y/ {
7 I% G8 e/ a3 L( p9 J- m // Define the return value variable. 9 q* t$ m! b; c6 } def returnValue2 ]* M. O. u+ k3 w
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// Note the simulation time.% O4 f5 Y+ l5 s8 E: ]; g
def time = GetTickCountInTimeUnits()- j5 }3 O8 R+ m* p
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// This is an agent decision. ' C# ^6 p& n" U# o' G if (watchedNode.pressure<200) {2 r# h5 { @/ O; l" {' Y1 ?
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// This is a task.9 x4 ]) {4 w) \) p; r. S+ p
setPressure(watchedAgent.pressure)6 Q5 s+ T6 P) J) F! r2 A
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// Return the results. ) b+ @3 j& e; o return returnValue0 U, w, s- i9 [* q" T
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/** ! ^9 E( b# d' t% ? * 2 B' R* t1 S) G: j# s" ^% w * This is the step behavior.% u4 v) ~1 j/ }; L: ?: P: i
* @method step) g3 H) Z) d# o6 y- q7 ]
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*/ % W, L @% Z9 _: ^8 @' E @ScheduledMethod(0 S9 O+ v, t$ k; y6 S
start = 1d, 9 ?6 N9 x" `3 E9 f1 R: J interval = 1d,( [* d2 o3 p& }6 G. l
shuffle = false * \1 }2 h4 V( B )6 _6 i/ L, ^# ^: k6 R. X: h; h
public void step() {% m& e, a) D' z& [, Q" M s' ^
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// Note the simulation time. # j2 P" H0 H6 a5 k def time = GetTickCountInTimeUnits()) i: h/ \" f/ P. ?& B
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// This is a task. . @. y% R; [) Q' |0 j measurePressure=pressure+ RandomDraw(-20.0, 20.0)8 A( E# x& l* D* O1 i
// End the method.; s: C+ _& W5 x8 n
return ; z, {, X+ Q& a9 Y& @* a" Z3 c0 C1 r4 i
}
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发表于 2009-4-4 12:21:26
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