, b7 G$ v( T( |3 b t8 Q f + a, d: _# {- [" A& J9 W@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 2 \4 [( Z% ~1 T" Y s+ H public double getMeasured pressure() {) _- l8 W) u3 p& Z$ @: }
return measured pressure 8 C( F8 J7 j( S; B% u, q }" |; b3 _* o9 S) q0 v8 ^: G
public void setMeasured pressure(double newValue) { ; z" C; [0 ]6 q2 I% J' ^ measured pressure = newValue" D3 u3 S/ O# I s
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public double measured pressure = 0( B/ T& [4 [1 R* y* E
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/**. N+ w/ \$ L+ R
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* This value is used to automatically generate agent identifiers.4 p- R+ B" X, _) X: s* N0 e% t4 x
* @field serialVersionUID 6 r. M$ Y& N: s4 R! I# H7 o* G/ P *( j3 g) O5 V" {
*/ 6 O$ [8 P: P5 Q L5 M2 Z* q private static final long serialVersionUID = 1L ' |/ s$ o% {! |1 V! r; [8 y9 |, _& K1 X
/**' E/ s: ?9 Q# B+ U. M; F- v- r( D
* 2 n' J3 H. L8 T: i% w% k, y7 D * This value is used to automatically generate agent identifiers. + d: |! s o2 o( M+ `" c b * @field agentIDCounter+ A5 p9 q3 ?5 K9 i' T
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protected static long agentIDCounter = 13 U2 t: E2 D8 `9 W" K
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/** * v8 q6 M: b$ Q8 e4 z1 ]. g * 2 Z4 \+ o% g E& J * This value is the agent's identifier. . B& {2 T, ^7 M: a( Z * @field agentID & A+ R( v" ?0 k *' ^$ H6 a9 z2 ^1 L1 {8 J
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protected String agentID = "GasNode " + (agentIDCounter++)4 s6 l" \- N% ^+ j; z. `6 \3 Y( M+ Q
6 N# d; s1 k1 p /**6 R& ]" Z2 L2 h& z2 k
* ( @$ o) b9 @' I; I * This is the step behavior.+ t" N! `( N# V% f% |
* @method step ! E |: j; I2 i1 ? * 4 R. N) y! T, j" o */7 W5 T0 b! a1 l2 V" A& b
@Watch(* t. f3 j; R) h. W0 j
watcheeClassName = 'infrastructuredemo.GasNode',) R: [" e9 K! `7 i+ M+ k: S' ?, t
watcheeFieldNames = 'pressure',& b2 b. m0 P, D
query = 'linked_from',: o$ z; z4 A* K9 e
whenToTrigger = WatcherTriggerSchedule.LATER, 0 W& ?6 _/ R: h! M) j- ]3 W4 C scheduleTriggerDelta = 10d 2 l N4 Q6 B- g2 Q* w )" Q' X3 i0 k$ [6 `/ E- K8 A3 p
public def step(infrastructuredemo.GasNode watchedAgent) {' ^* L2 L( |7 t2 G+ d
& D5 @9 U1 n W$ M; e' U3 e // Define the return value variable.& ^8 T# q1 {/ m) f T6 D
def returnValue : G' T2 E3 j* t% x$ r( g5 W: | }! W- W3 i" Q. b
// Note the simulation time.3 Y* u3 d7 ]; S. B
def time = GetTickCountInTimeUnits() / E7 D9 V' ^, h" e0 j. \! W S0 A3 d# v& ?$ K6 w* [
; _' i' a* O, a* H+ u // This is an agent decision. + G5 I( B' J! D% G; l if (watchedNode.pressure<200) {5 [0 `& O' \$ ]" u, v
3 h, C6 j. m7 D+ J9 s/ [, k; ] // This is a task.' o' N; C" B( q) Y& h
setPressure(watchedAgent.pressure) 4 P9 ]/ N1 B$ z0 B / {" d" N& }, h J1 N2 n } else { * I. }1 Q# d4 J+ Y' Q ( {, ?2 Y/ c( I ~8 h, A 5 T- Q) p! q3 z& G w# ] } $ o) K& j2 t& {# [: R+ f // Return the results.3 b: C$ ^; F4 X* y' Z3 g) y |
return returnValue $ h1 O! [8 y% j! b# W0 x3 b6 @) B6 T. O* s8 p( y8 r b, b- p
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/**, d/ P# f! v2 r: V. S" P4 B. |1 g4 D. L# N
* 1 I$ v; [) A1 i' A * This is the step behavior. 1 a2 i$ m3 j, t" @" e1 s- d* O' n! t * @method step 2 e# Q6 O3 K- z* K+ p *. y9 @/ @' v; A
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@ScheduledMethod( F* v- {- f$ `: l! q! o) r, \+ j
start = 1d,/ z9 y! u2 ]& |5 W1 ?
interval = 1d,7 Q* z$ ?2 ^9 r0 K4 s4 F1 z! p
shuffle = false 5 I% E, T) E- J5 r& F9 @ ) 6 k5 s9 C' G. R8 f! K- F) M! f/ X& Q public void step() { 3 d* V$ T/ V3 o2 e# z% ?' Y$ E! g1 V, s* d. m( Z9 D! U
// Note the simulation time. " @7 y$ K$ V8 G* `* Y9 w def time = GetTickCountInTimeUnits() 5 w0 z! Q+ Q, I- m' T0 W2 J0 p; X- c- j4 f% W. W; t
// This is a task.' x, A+ U4 T+ ^$ k
measurePressure=pressure+ RandomDraw(-20.0, 20.0) . B1 Y/ C) z. k* ]6 B" F1 i% _1 L; Z // End the method. 1 X( m/ ~! z1 u8 [! i" [ return - y2 d4 T# c0 [( O0 p% j4 @4 @( q* u2 ]- L& V" d& d7 M
}
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发表于 2009-4-4 12:21:26
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