- Z, U O2 r, w' y3 G: `- b: f3 f' E x: u- c- j
@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") % a# a- e; G* h2 c1 d4 _" L8 S5 k public double getMeasured pressure() {3 R p* F. m/ _9 R1 k6 T" |9 Q
return measured pressure 7 ]; T! `& y7 Z) e } ; P7 R8 j& m. D9 K- Y5 w public void setMeasured pressure(double newValue) {1 c2 {- _6 F3 ]2 D7 B
measured pressure = newValue * O4 z- M5 t, Z, V+ f/ v } . J" ^" K+ `8 Y- [1 D' \ public double measured pressure = 0- Q: q1 ~; R5 e' T0 m9 T
+ u, Q$ U4 U+ W% m) }
/**8 ?; Y. G- D5 J. R1 @2 g, D' p
* ' b. q: M- e" B * This value is used to automatically generate agent identifiers. 1 v8 Z$ l& ?8 O! T. Q* I4 | * @field serialVersionUID 4 L% ^, h. }2 a; A" G- ] *' [" c* ], s' N+ L! D3 M( ~) a; }% U
*/ L% a8 U$ O* `2 N/ o: a1 F+ E
private static final long serialVersionUID = 1L3 m9 H6 M; ^. A$ E, D- ~" [+ i3 f
; P! ^$ s, Z6 u7 `& I
/** 0 i5 P; R6 V/ l4 w' s! b$ A * . d/ M% A+ \( c * This value is used to automatically generate agent identifiers. ' a) f' ^; a! F * @field agentIDCounter ; \8 u- b, i$ p4 ]% i( a( S *$ J' _, h! y. }0 P; \- S# p
*/8 @, y: p N& V+ O( R2 U- G
protected static long agentIDCounter = 14 ]1 Z" l" [; i( H
4 l6 h5 Q' J8 W7 B N; X' I
/** , K% r8 y' ]2 I+ C6 f * : B9 x0 e$ q% a! X) C8 [+ p0 f * This value is the agent's identifier.1 v5 O- r* E- b: \
* @field agentID+ x/ B; U# m Q6 C
* ' N( K! z' d6 g5 R */ 6 u: W5 n. S9 M6 T, C# n+ \& z protected String agentID = "GasNode " + (agentIDCounter++)6 {# ]2 l( _& V6 n
- u% K% v7 h# X9 d: ] /** Y$ b0 U- X) b6 Q * ! S8 r% p. V/ c$ h' M * This is the step behavior. $ u+ X# h. v0 e* R z * @method step0 ^ E& C5 y9 w6 x J" d; j; G
* " d t, u! @ {/ ?, x: n */ - O) J" A, x0 z @Watch(- u/ w/ @! e" |1 |/ t
watcheeClassName = 'infrastructuredemo.GasNode', % l* q% t2 O% g- y" ^ watcheeFieldNames = 'pressure',% J7 H- q8 R. x5 {
query = 'linked_from', . v4 g( X4 f8 _4 d$ g whenToTrigger = WatcherTriggerSchedule.LATER,9 u! m0 G L/ M' j* K+ p# p! }
scheduleTriggerDelta = 10d ! b2 o8 J% Y! C5 f, ^- g )! t; R' k4 o& r1 }# k/ W
public def step(infrastructuredemo.GasNode watchedAgent) {. k. f. O% @+ W4 G
6 t4 C* g- @2 i3 n- t' X% O // Define the return value variable.1 s6 `6 g# V4 F2 Y: {! w2 W7 C
def returnValue4 d. c$ _! o# [, S8 j
4 R$ s0 q9 P3 E% U5 ?( V7 N // Note the simulation time. / k) k+ \ }# {* H def time = GetTickCountInTimeUnits()) c- p* U& x, J) j+ _$ _7 M$ z
5 Y) i" e, i! G& G* [( F: m. j1 w 9 e1 N; ~2 ^. L // This is an agent decision. . \1 z" Y7 a: v! I; P if (watchedNode.pressure<200) {1 i6 O. `& {* ^& S5 f
( Z I6 K& j8 A! X# D // This is a task.; f: K7 I' V8 |- h# X1 x
setPressure(watchedAgent.pressure)' @! \, ?" a6 G( ], ~* n# W
1 h/ \; ^- X. ]5 ^: i& Y } else {% \2 n/ d! H% D9 ]3 K
- B) I. }& C2 S) E( e' Q
: Z, N0 J: u& U/ Y; L" J# Z8 E }* F! A& C' o8 e4 G5 Y
// Return the results.5 E! v: T, W( Q: r: a
return returnValue ( V7 {6 S* C, x' e% W+ x+ z* Y3 F2 R! T
}0 E/ |5 s3 y% A$ E
& N8 d$ {1 T. \6 J/ @
/** " `: j6 Y& y. [3 b8 ]8 W. H. S2 n6 r * ( t4 U1 K& t1 b: Y/ j! c8 c5 C * This is the step behavior. 1 v3 F, }; c- h4 J * @method step 8 |* w2 d2 V3 }3 l3 [! K4 R$ c3 s0 k *" {: _3 x' \ G7 l$ l
*/ 3 ?6 ?- u7 x9 Y- `0 ^2 {; m @ScheduledMethod(6 i6 q. j& ~ {( \4 T( l
start = 1d, % U, I& s0 y. s interval = 1d, 1 F( x* `$ [2 R shuffle = false ) v7 x0 l7 ]% t# g ) " p) q' u! @' k* e7 y: g3 b9 w public void step() { # t$ u5 D# h2 V7 p3 \& a4 R* b8 a. [) X C( I4 c6 v
// Note the simulation time.5 @/ m; I4 }9 t+ t: `7 H/ p" n' X
def time = GetTickCountInTimeUnits() - N) D. k, {8 b " H$ o( S7 i7 g) D2 c6 V) t // This is a task. , w/ r5 q( f! a0 Z1 Z measurePressure=pressure+ RandomDraw(-20.0, 20.0) & I0 ?9 D, H# F$ l* f! X // End the method. ; F; \) T% l: ]- Z6 J return / V6 X4 K4 H5 M" P! [- G- |- S
}
[复制链接]
发表于 2009-4-4 12:21:26
,请帮助解决 / Y2 k5 a1 Q. W' q. ~! }