: [4 X7 h! V$ G) F# g# \( y@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") ) k8 p0 ?" b/ e9 J public double getMeasured pressure() {6 a% w u+ [+ m/ n
return measured pressure# V8 w# ]- P, V( a
} $ U# k; V! `! u3 a* Z ` public void setMeasured pressure(double newValue) {+ q2 B; m m, l; g/ y, d* ?" ~
measured pressure = newValue2 P1 n4 I6 Y% P8 l$ I/ ]7 {
} 3 e; ~5 w/ |+ a2 f4 q public double measured pressure = 0 ) I& b$ O; M* A7 I ( j0 y8 ]! ? ~( j) B* m /** , Q- _: Y, U2 p! {* v( X* Z * 5 @ r" f- {5 p2 ], J1 \ * This value is used to automatically generate agent identifiers. & e2 D5 b8 {9 L6 \ * @field serialVersionUID% d8 G/ B) [9 B
* ' m9 x5 H& f# I- \ */ ! _5 ~4 W% O+ e2 f m [ private static final long serialVersionUID = 1L ! ]2 E; e7 t8 s& p$ [4 k1 G3 I b! Y) u* i6 n
/**; `2 F8 l$ z4 z& u( M1 }
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* This value is used to automatically generate agent identifiers. ( y |% C8 {- N$ u9 z8 T) N+ E * @field agentIDCounter . x4 @* |/ ^* ~2 i Q5 e *4 k& V( n7 \, Z4 Z
*/" g8 P/ L* X+ p+ m, p8 b
protected static long agentIDCounter = 1( b9 ]! w6 p& @0 N9 J7 W J5 {
# Z v: E) y8 r3 H. _ /**1 d; w2 D3 t. N% @. a/ |
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* This value is the agent's identifier.6 i7 D' A: x% P9 Q- V% f
* @field agentID / t3 _1 {8 ~# K4 u. w% S' n * 7 `' |" e8 F! W */ ( Z4 D& F" A4 l Z protected String agentID = "GasNode " + (agentIDCounter++)- m7 \# e. y2 e8 |! L& p# M
! u3 c! t8 Q2 E2 l6 x8 T C; i- O /** 3 O2 R1 `8 y- _, |- f * : D5 M4 q1 F! V9 l; z * This is the step behavior. ( ^4 S4 U8 i) o; @2 ^# t * @method step - p& h/ P" z. r *6 n. \8 @0 @8 k" `3 P
*/ 9 V( u r4 g, y2 p9 w% G4 }+ h @Watch($ @* ]: y1 M0 @3 C/ d4 ?
watcheeClassName = 'infrastructuredemo.GasNode',8 q9 z& f3 S9 W) C
watcheeFieldNames = 'pressure',, p$ V: D, V$ u; }0 z# u9 x
query = 'linked_from',& j; n( k: Z+ u$ r% c
whenToTrigger = WatcherTriggerSchedule.LATER, 2 v" R+ V' G k. z scheduleTriggerDelta = 10d 8 l1 H; f1 _0 k; {; Z. Z! V ) ! D% R3 w" X7 C& l* c0 H public def step(infrastructuredemo.GasNode watchedAgent) {1 b8 F, w9 _# S" N9 `& b L
$ e6 f! m( R% f- V' I3 x // Define the return value variable. ( U3 D/ W* e; b' E8 T S! U7 ? def returnValue 8 K* p; p/ b; C) r6 t0 q. X3 J8 H$ O8 F) [( ?
// Note the simulation time. + J) w5 q3 x/ i& @ def time = GetTickCountInTimeUnits()9 p* H: Z; ?3 T- \4 V- R" i" z' h; V
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// This is an agent decision.+ X: Q) M& q; x/ X( ~8 n
if (watchedNode.pressure<200) { ' i: }: n# Z) c; n: ^5 M2 e7 k4 N " a4 S( u6 J8 \) {" s# N // This is a task. 5 v$ {) ^8 V& x* p: Q: v; E. B: x# D0 P; A setPressure(watchedAgent.pressure) ; {' q( ?- _8 w( H$ {5 I8 E5 |" Y O1 S% V$ s
} else { / i' X% M, ^2 A3 ~ ( U h* _- a2 l7 U2 }0 b % H, a/ k$ w; E! f% {6 m: b } 0 j+ _' |! ]* { // Return the results.' I% K4 k( U; c
return returnValue 5 n0 i& K7 _! H8 m0 n' g. h" A' W: Y, H, G/ ]3 c4 {
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/** 9 n( {# |; y1 T' Y * 9 j8 z1 T& R) ` * This is the step behavior. * R. E2 E* d6 G- i/ O9 t * @method step . ?( T8 D( O0 \; {4 O7 G) t* N) T *3 r& Q) B g/ Y9 A" T8 S# y. j. q( @
*/: y. z# I/ o" i, L: U( m) h
@ScheduledMethod(/ U5 ]& [. I! i$ P! V8 Z2 \
start = 1d,2 ^) g/ _3 k. v
interval = 1d, 2 j/ `7 [! ]% X) U* t shuffle = false - G1 W1 U3 l+ H' r" h )5 v0 e7 x9 n P! h& p; b+ o* q
public void step() { , s" O6 i; V) K2 N; W2 ^# A7 c/ `" U$ ] R' n& Z" P+ O
// Note the simulation time. * O5 D9 y) \! g6 ?6 U: Z P5 l def time = GetTickCountInTimeUnits()8 E: P. c3 b! m/ J# W, N
* ~4 \% y4 U/ K3 ] // This is a task.% R1 G& |7 o# Z' ]: V% r0 N, } _
measurePressure=pressure+ RandomDraw(-20.0, 20.0)) e; S# A. B* c, d
// End the method. : S) Y8 \7 Y) r7 t; u return * w/ X2 Y9 H! u/ }1 p4 C * Y) t1 M8 [* V- Q q9 X3 x1 S }
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发表于 2009-4-4 12:21:26
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