& u: R+ d/ m7 L! D; y3 f /** " D% [' L m. `8 y- _ F2 B# a * . N8 e0 E, R- C * This value is used to automatically generate agent identifiers. % _* D- {/ U( }# h h7 ]; `. ] * @field serialVersionUID/ M% N! x, h' P- T- O H$ r
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private static final long serialVersionUID = 1L5 I l% ^. ]' h* `1 b
+ B, a' C4 ?2 B1 h2 D6 `& j+ e /** + k4 w4 m3 s# V * 8 Z9 T: U- u; Y5 q, N) b, `0 X * This value is used to automatically generate agent identifiers.% Y; H& O6 v K/ B; t7 q* f) }
* @field agentIDCounter 9 L3 X2 Y- }, i4 P3 I# F *+ M) Y" s8 t5 k% Q
*/ * c+ K: o) [0 P! F: F7 O protected static long agentIDCounter = 1 : ?% @, n9 J& O9 U2 n; F4 C X : c; y" C+ |" W# T* Y, g /** 4 @' p3 P( U0 w1 ]) I7 a *" U5 n0 L4 @2 x4 x6 A+ r- n
* This value is the agent's identifier. q1 ^* ?6 n! f * @field agentID& X2 ]: E$ Y6 X
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*/ M4 G3 V( \& n protected String agentID = "GasNode " + (agentIDCounter++)! C* I& c. K& D
: @( M8 q# `% ? /** 3 S: X3 ]2 |- {! { *9 |9 a7 n( O+ f
* This is the step behavior. + c/ {% H5 ^. f5 F' d; i- M' d * @method step6 U3 y: D! d; J# a
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@Watch( 7 U) l% u" D* q. g) R$ c: c watcheeClassName = 'infrastructuredemo.GasNode', & ^' x8 v% j% k. i watcheeFieldNames = 'pressure', 4 ^8 g s6 K5 b- X query = 'linked_from',8 z* ~) h% m1 F) o! }$ }: v
whenToTrigger = WatcherTriggerSchedule.LATER, % y1 z3 c( N" P# T8 ] scheduleTriggerDelta = 10d 0 t; T" ~! C/ ^+ F& s4 ] )) \' V1 y! s7 B& f, q" }2 l
public def step(infrastructuredemo.GasNode watchedAgent) {) B' E! K4 C+ G/ I
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// Define the return value variable. ) s/ @' G. R5 M. [9 _# |: p. o def returnValue " B, _2 V: T9 z1 L% ]9 o n 7 H+ B1 i0 b# E$ _% s0 f A8 Z* w // Note the simulation time.: Y% r2 K" M* D5 O) z
def time = GetTickCountInTimeUnits()' Q) k/ Q" [' A5 [- v
, M2 g' k8 ]* Y* D- Z h8 l ' x8 {7 ?% O! b% H! _3 I8 C // This is an agent decision. 1 V* L+ o# F/ {/ }* \+ y if (watchedNode.pressure<200) { + e5 z* x5 J+ |3 | 2 x8 y5 T/ P2 U B/ n* X // This is a task.8 i9 P4 A2 S( z8 g
setPressure(watchedAgent.pressure) b4 p f9 _" @6 n# z
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} else {+ G' V4 Q3 W# g: Y0 E) C% Y
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} 3 i* c E& z7 V) \0 Y // Return the results.6 u, v1 g4 }2 R6 l) T# Y
return returnValue9 o A! {4 s- D3 _5 T2 Q2 J
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* This is the step behavior. % `, ]5 J1 L" [( s7 L0 i * @method step: V4 E2 ?: c. J: w. F
* 8 X. G# U- a! S% b2 a) |5 X6 K */ : x2 l9 d* Q \# d: V8 H @ScheduledMethod( ' Z: |: G" a7 a ^7 d8 h start = 1d, ) U) ~' c; e: a3 H interval = 1d,$ o( w H' O t, K1 h/ h
shuffle = false1 |1 e; V/ C7 Y' B* C- C+ ~' [/ E
) 0 b* {4 g& z" I2 U; v public void step() { X+ b# M' X3 c2 @) X : n- N8 _- z- c // Note the simulation time.: R! @1 l/ D9 C% |
def time = GetTickCountInTimeUnits() + u; K0 R4 P; P2 }: l) o& v w 5 Z+ `% ?7 C5 C7 K* U // This is a task.) }. J- m$ e- o) o9 ?- y
measurePressure=pressure+ RandomDraw(-20.0, 20.0) ' B, M" p' E' H$ F/ m // End the method. 1 H* N. k P8 W5 }2 P& K7 s& s: ` return( b2 s. P/ k+ a m3 X: r+ a
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}
注意,在函数step中 ! d" u5 t$ W- h public def step(infrastructuredemo.GasNode watchedAgent) {2 N) V3 g B* n" z. A# U
//这里是watchedAgent5 ^5 T9 n& T# d9 C( ?9 e
但是在语句中,你填的是watchedNode1 {; m2 w8 U0 a# h
// This is an agent decision.+ Y. @3 }8 r* ~* y [" S
if (watchedNode.pressure<200) { Z0 G& o) Y9 x$ _3 X
setPressure(watchedAgent.pressure) ! E. ~' w! g. x T: j0 C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 