4 z- k) F" E& B /** 0 n( m; Z- S' w * 2 k: Z' ^' W: H: _ * This value is used to automatically generate agent identifiers.0 Q* b3 q6 \) Z# @6 g8 i
* @field serialVersionUID / {( {( J( f- ^* d0 r1 U$ \) B * 3 J, c Q1 L7 F* j6 c. z9 l/ Z */) D, J7 M, O& Y: {7 |5 L' _
private static final long serialVersionUID = 1L 6 R7 f& Z4 ~/ I5 g% f. w0 Y& {; Q3 N! U5 j
/*** k" X: `& U9 M! n5 a
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* This value is used to automatically generate agent identifiers. 5 D V) }* q) |: O" V+ u" Q * @field agentIDCounter2 Y4 {- Q* c6 \- z* o
* & i$ {; m; b! V8 r/ n */ % C, k/ O0 u( M protected static long agentIDCounter = 1 ) @( i6 ]( `, w) w) B. H ; Y3 J) q6 H& P: b% ]) l4 e /** * y, C/ q/ Y4 S' C4 `- e * z# [. C5 g) O- H+ q" M/ a0 b6 V& z
* This value is the agent's identifier. 0 C% |/ Z9 o$ `5 p- o9 [ * @field agentID h+ p0 W u/ n% o, m * & p i' [" |/ Z6 g7 @ */1 Z0 i1 [ R8 n; p" p
protected String agentID = "GasNode " + (agentIDCounter++)8 A! y1 W; w1 z+ Y9 q7 ?
* G; ~' i5 D+ ^+ D4 T6 u0 ^ /**' P2 h/ K5 s* ~8 O/ l
*( ^% a% X1 ^% i' [2 j
* This is the step behavior. + }# z. t7 u9 j1 {( j1 x. N. s * @method step! X4 ~) J# W& _
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@Watch(1 G8 r3 `5 l) I5 Y
watcheeClassName = 'infrastructuredemo.GasNode', 0 R" C F1 P. O: L4 q watcheeFieldNames = 'pressure', 4 z4 J% i' _% t. ], v query = 'linked_from', % X3 t4 z8 V, K* f9 ?% ` L9 p whenToTrigger = WatcherTriggerSchedule.LATER,1 B/ F/ z8 O6 d4 M% ~. o+ t2 d9 {' R
scheduleTriggerDelta = 10d * z$ n- w/ }4 Y, y9 z8 t3 ^ ) # `% D% @; ?7 ]0 q0 e6 Q4 ^6 s public def step(infrastructuredemo.GasNode watchedAgent) {- o/ w9 R+ K5 T7 |/ L' D
4 L! F$ h) Y; q& Q5 Y // Define the return value variable. $ l# ~9 t/ ?9 ?0 @6 c4 t5 u def returnValue8 N ?3 J0 O2 R8 P9 M
2 d; m* I# O5 q: k // Note the simulation time. ; Q5 e, B, i& y4 L def time = GetTickCountInTimeUnits()1 u1 S7 g. M2 T/ l2 h. ~
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3 |* M2 B! L8 |& B3 { // This is an agent decision. , O" [6 n$ X6 x& _2 y if (watchedNode.pressure<200) { " k- v- i+ C' @. [+ J1 g. o" i& P9 N, R: c, G/ w& v' o+ p d
// This is a task./ R6 Q& h/ ~& ^$ R& C, q5 R
setPressure(watchedAgent.pressure)6 q. R5 P% b! R% z# {+ ?$ b' U
" n" X$ B# F, Q. O; k4 |0 q3 u( E3 c } else {6 {9 [: y1 w& `8 y: R5 Z1 J# M) y6 N
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// Return the results. k& G* i, E; f7 T
return returnValue 3 `# ?) u# ?% C& M' ]' z$ V4 t. ` 3 h0 A$ K: o- ` t4 b( f& x, [ } $ d( h; ~0 E* \. y, S, k M& B9 T6 `" {- x9 v& D6 R
/**8 l) e+ t6 `; }: R! Y- R! F
* 3 A6 E$ k" L1 v) a) f8 o# e * This is the step behavior. ' y! P' J* V1 L * @method step0 W6 w5 z- m6 x* L$ r' A
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@ScheduledMethod(* ~. | D0 a/ f i* y, I$ u
start = 1d, & n! [/ V, a" ?$ v9 ^3 q interval = 1d, + |1 z7 F7 C% G' C shuffle = false . ^* ?, x/ X* j3 e& s( F1 O- P ): T3 T& t) b+ Y% K9 {0 _
public void step() {7 Q) j; d/ G7 G, P+ L: m
( N0 ^" K6 s) H; V% ? // Note the simulation time.$ n9 j1 ~( ~. ^- a2 ^ q: d
def time = GetTickCountInTimeUnits() 4 T- {% }' ]9 |+ w( i" q9 Q* P
// This is a task. / F5 `3 K) H+ r0 N K measurePressure=pressure+ RandomDraw(-20.0, 20.0) ]4 ~' d% A7 B6 N
// End the method. " f% _/ q4 J; K$ L# V3 } return 3 {) p8 J# g" \7 I; t( h, V , Y! \0 w$ k8 G2 J) ]7 R- r4 J6 x- T$ P }
注意,在函数step中8 Z1 W) {, L6 x# q
public def step(infrastructuredemo.GasNode watchedAgent) {0 G: R" l+ I& F+ m
//这里是watchedAgent: ?( d' n1 S- J* [- q
但是在语句中,你填的是watchedNode4 A* N) m6 z T( K- j( G) d; w
// This is an agent decision. 5 n9 v2 h8 o S if (watchedNode.pressure<200) { , N, O _6 J! k4 X$ u setPressure(watchedAgent.pressure) O9 U( {3 k" }' ^. r变量名称须统一,可以都改为watchedAgent
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发表于 2009-4-4 12:21:26
,请帮助解决 