8 Y! a7 ^) O: ?- [1 H2 b /** 8 q' c5 B0 Z' h1 ?4 k% Q! G8 y# I * . [/ H5 `8 X" j5 G% b * This value is used to automatically generate agent identifiers.1 `& O/ ], R( Z9 F6 O+ R* m) `2 o0 n
* @field serialVersionUID0 w+ b& c; J6 i/ ]
* - _+ S1 }, b; R) e8 e */ 1 X1 \: W4 S; @- ~+ W3 a private static final long serialVersionUID = 1L" g$ o& U) u* t& D% u( J; v6 Y
* n9 I: n2 f7 ^4 A" P b5 V4 M /** 3 e6 w( X2 M: D. e. n% f3 l * 6 U8 F/ q, Y9 {3 J2 |5 x2 H * This value is used to automatically generate agent identifiers. + j9 ?% N. N. X0 |2 G8 W+ R * @field agentIDCounter + x3 q+ D' r: E M. v" e1 l* T" s * 5 p* Y$ a/ W. N' A! A% n */4 e k4 O, x! u9 e' S! s
protected static long agentIDCounter = 16 ~" f, V) B2 r9 H n
- d' a. V! e3 P# }' }4 |* p /** " g1 P: D: o9 c ?; B *1 ]: V( r) Y8 }9 N( t/ U, I
* This value is the agent's identifier.( l2 Y# f1 n2 g. S: h
* @field agentID: b5 l, I) Q B( C; d
*8 m5 d* b6 q* k3 k* D: M3 j
*/ 8 r, e' g* Z- M, Q1 T: z" {9 C protected String agentID = "GasNode " + (agentIDCounter++)9 b! P% p, n4 L. [! [
, Y% b: p3 h7 f7 k; [3 p% \4 K /** 8 O. u& j8 w; A1 x( t2 i. W$ h+ U# f * * ]+ T) B! r! R S5 ~( ] * This is the step behavior." i4 y" M A' _& h2 K
* @method step / r* T; @) y: d" y' w4 E *! D9 G; a# L$ K0 K
*/! d* n1 T4 L$ A' P3 Y- s
@Watch(1 H4 ]; s6 I3 ]. k, E
watcheeClassName = 'infrastructuredemo.GasNode', - Z% z1 _. ?4 t% T2 U4 L1 v watcheeFieldNames = 'pressure', : ]+ ~2 C! k. Q2 e( ~% U query = 'linked_from', % J3 O* D1 B! w/ P/ q5 y( D whenToTrigger = WatcherTriggerSchedule.LATER, 4 Y$ ^. O" F* P scheduleTriggerDelta = 10d 6 q" D/ Z0 X3 }! r4 _( K4 [ ) . U% r! [/ A/ v# M0 a- ^' P public def step(infrastructuredemo.GasNode watchedAgent) { ! v: @1 M. i. Z) [3 p 8 _0 f C+ n5 a1 w" a9 ? E. P$ I // Define the return value variable. 4 f0 b5 u; U! ]) E; M def returnValue - V+ }9 [0 h& ]2 n% w, Y" I. u( Z
// Note the simulation time. + q+ c% H8 ]# Q* Z, R def time = GetTickCountInTimeUnits() 1 h% `* l3 G0 q& ~! h 2 W' n4 N u. X # a* D. Q/ b, C n# s2 z // This is an agent decision. 1 ]" G; V6 r/ n1 k' S0 \, c if (watchedNode.pressure<200) { 8 q# g2 P1 i' K' E% q; ?6 | / F( U( X0 n4 p$ o- X // This is a task.% W" R+ H: p5 z1 i2 a
setPressure(watchedAgent.pressure) & i9 C& W/ |+ W: y2 { $ y; L: P3 b4 { } else { . w$ o% i: _8 b8 D/ F, @( I6 d3 G0 k/ f/ h0 J
* v: e$ o$ x4 q% s& {* z t. u } 8 ?+ S+ B: l( B6 B0 B+ |3 O& q // Return the results.1 M6 I. p( C6 \. D
return returnValue ) K ^; ~/ L/ d! B/ o5 i5 y' m0 T1 _" U6 A; R5 z- p* ^9 E
}' n8 a8 `3 y* ^3 r2 o
3 V% u, e4 V/ H: D /** 6 ?) s$ S) @: z3 ~/ G" A *( P; y# Q; f' t4 q
* This is the step behavior.+ K6 Z$ C% V* G) U
* @method step 7 n$ u0 d0 L4 S4 ~ * 7 C) l0 @/ J5 Y) i *// F; r0 d# T7 p5 Y. ~' j# B
@ScheduledMethod( 1 u9 y. |1 P2 k start = 1d, - n" y8 Z! H5 D6 ]! | interval = 1d, 7 _" y2 ^( S& V) O6 l' b- `4 o shuffle = false1 k; A2 U2 j4 z; d; r. K/ f
) ; o; F: c& {2 U4 s7 F: B9 g public void step() {+ v+ w2 |8 E- \% D
8 y1 H; ]" W7 \: i
// Note the simulation time. 4 T6 V( R0 o, q7 M& X def time = GetTickCountInTimeUnits() Y' _4 Y7 q5 r% W : s' ] e$ i3 E9 w // This is a task. 2 C, t( T" s& w4 G5 T k3 U measurePressure=pressure+ RandomDraw(-20.0, 20.0)# P* e$ P, I- ?% B5 [% N* d: a
// End the method.3 j" X# R5 @# \* R# _
return A$ t" {! |- j# g
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发表于 2009-4-4 12:21:26
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