/ h2 I4 F5 ]& T. }( r$ S7 D" Q@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") ( v- V- U* [! \/ D public double getMeasured pressure() { W: k# d ]1 A8 C# S* i
return measured pressure) x; k# p) C: M- O& x
} 8 I4 W! A) R( I: E p public void setMeasured pressure(double newValue) { $ Q8 H7 l* f; L+ G- d measured pressure = newValue - K, f, f, k, q5 C1 ` } ' M: Y. A' `- x public double measured pressure = 0 # V& s- n" d) j- l' d# R# k c' B" V( ]0 b+ g
/**6 C2 ?7 G; \* W- [4 k* Q2 S
*& \1 v7 k1 U+ F- l* o2 o6 T# D
* This value is used to automatically generate agent identifiers.( ?3 h9 {" _; q |
* @field serialVersionUID ' z, P6 K/ r2 Z3 t- j * 0 g% ` X" ^0 |( k */; m5 G2 Y9 A+ \ i
private static final long serialVersionUID = 1L9 @$ j5 i/ I( F8 \! c7 j5 g" F
/ k( N" `3 b* t: e7 `0 _ x
/** ! V2 @ e2 h% w3 ]0 \ * 5 g% m; v9 E: ?( @0 M0 G * This value is used to automatically generate agent identifiers.; Q4 V- K- d3 ?! g
* @field agentIDCounter ! R1 A( N$ C/ \( j6 a! ]. W) C *% I2 {7 d0 _) Z# L; |/ E, k" {
*/ ! a* a! V) `; i( T- { protected static long agentIDCounter = 1 ( _4 h: k/ `3 o( z; t& V/ J+ C) i9 ?2 p# u( C
/** + {3 l2 c4 V I) W4 z6 j v9 o * & a) b; A1 O* Y+ e * This value is the agent's identifier. 8 d! H' j- d3 Z+ P' ` * @field agentID 0 V+ o- F( a3 w8 \ *% _; P$ K2 D+ k: X
*/ H( c- i6 _9 R: Z% [& V8 ~3 ^ protected String agentID = "GasNode " + (agentIDCounter++) 1 k; K1 {/ C0 ~4 Y0 k$ L 8 Y: \- ?' N4 Z& {+ c) E% u0 s1 q /** \1 R, f4 S+ |6 M$ c * & h( B( M8 F8 f1 q * This is the step behavior.2 a, y2 D! T4 @% s
* @method step 2 ?. s7 h Y8 z0 f$ r% R *3 _# h( J; m$ Q. {( _
*/( R& ]1 D- d- @. _; r
@Watch(" J) v& L0 N) v% w8 s$ z3 h+ o
watcheeClassName = 'infrastructuredemo.GasNode', " x5 P2 z3 z/ W. y* x" @0 ]8 \ watcheeFieldNames = 'pressure',. z1 q8 A0 {2 L5 y9 \
query = 'linked_from',/ F1 n6 S0 O% m2 X4 W3 K
whenToTrigger = WatcherTriggerSchedule.LATER, 3 b" U2 H! |% | r: c0 A5 g8 W1 j! t scheduleTriggerDelta = 10d% S- J& E1 k1 `1 K7 `* {
)1 E# b. ^; b, L
public def step(infrastructuredemo.GasNode watchedAgent) {$ A- B1 M Q- _; T$ K" ]4 {1 ]
7 h6 s! V( a( A
// Define the return value variable. " E0 G: O, W$ Y1 _ def returnValue , }9 ]( Q7 E6 H# x9 T/ ^" x5 A, G: f- T: S
// Note the simulation time. ! w# F5 F; i. N+ S! [# K Q0 f def time = GetTickCountInTimeUnits()( A; [; s8 }( a; c( \5 E
0 D! |$ W: j* z5 g6 h4 x k7 x, f / ?9 r' y2 |, f$ l // This is an agent decision.# s3 R% j h/ Q; c# {; r2 Q
if (watchedNode.pressure<200) {9 {& X$ V& w6 c3 B' i% v
# n+ N/ N% l8 |( d& O // This is a task. % U8 g% X; |; E3 L9 @, Y: S setPressure(watchedAgent.pressure), ]) P' @+ x0 |: ?, v$ \/ a
6 Q# J! j4 V4 n3 G, {
} else { 1 f1 e4 X A( q1 P' q: V. h , `' W! _+ M; Z: m* n: B5 h' S! u! E X
}, c/ |5 f% j1 V' _9 W% N# _, y
// Return the results.9 s; V m5 q& N" i$ g9 g
return returnValue 9 w A3 m. l) t/ `( j1 w3 v. }; n( r$ ]3 l5 T6 p
} , c& j$ G: i& {8 e9 L3 z- n/ R$ g4 w
/**; R" H1 S8 \3 J+ u% x: T3 g6 o
*: ]. a& _$ M: K& }+ @% ` h
* This is the step behavior.( [4 \( j% J* r& d3 [) I
* @method step ; U* y$ A, v2 \' K *! r# M P( `! u# L9 D0 y
*/ / p" t; z, W/ u# A @ScheduledMethod(6 h7 T3 a$ v1 O V
start = 1d," W8 ~2 L& x: G$ U5 X
interval = 1d, - e* g q/ V- v3 L ]4 I" Y shuffle = false( h. ?) N3 d; g k+ ~4 T" t
)% F; S2 c- K- J- M
public void step() { " @5 `0 {7 i% B9 m3 c# ?9 ?* u: Y4 s8 G6 Q8 Q; J
// Note the simulation time.( G' G9 s9 ]$ ?8 N3 ^( o3 e
def time = GetTickCountInTimeUnits() J, L1 B* [3 j( A 9 C3 d! Z# u* ?' f* Z2 H! S // This is a task. 9 q8 d: ~8 I0 H8 k; \$ x measurePressure=pressure+ RandomDraw(-20.0, 20.0) " ~4 ^0 E9 b+ M8 G6 L // End the method. ; n0 ]( M% T* p+ j return 3 u/ `3 s( J, H( N7 k! L. \' x5 x! u! X& M% [0 M3 q; A7 t* C
}
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发表于 2009-4-4 12:21:26
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