$ ~$ ?' k0 j* g W# @/ n; A4 D6 Y@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")2 {5 d) c$ ^, p$ I) M# ^2 u% x; M
public double getMeasured pressure() {2 _. Q& ]+ a/ P+ m* D* b+ x
return measured pressure- U. o' E; @, `7 n" t3 q
} 4 b* Y2 ^2 C% x1 I* q public void setMeasured pressure(double newValue) { 1 |4 Y" S& U9 X. R7 Y* [ measured pressure = newValue ! T# P1 L3 i+ C0 m! y }6 [, E5 F' U7 }- o
public double measured pressure = 0 4 F1 F- D s8 s; b" W- [/ H4 i A5 t0 A4 d6 p T$ k
/** 6 L8 q8 s7 |/ [# ?/ d4 Z8 H# u *1 c5 S) q3 V- L/ N( z \" o* T
* This value is used to automatically generate agent identifiers.; ~ q$ p) C" B4 u' ]
* @field serialVersionUID 8 l$ M- U) c9 a6 h6 C8 C * 0 B: C6 c% z1 g% ^. b */ # v+ z4 z" [; c" E) @ private static final long serialVersionUID = 1L- w, t) ^0 m8 f5 Q
' J, N g1 v$ J0 R# a1 Y /** * [/ [0 F( l/ }& u, m) T* W *' T; I, \. K/ E
* This value is used to automatically generate agent identifiers. [5 l) q4 j( r
* @field agentIDCounter% s1 E; K/ h; O3 K j# j# p/ `
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*/ $ K- x d; V* U3 _3 i% A' n protected static long agentIDCounter = 1 5 _1 \) t6 U8 b% K, N5 w3 j7 I5 P; A2 s: |6 V7 j) g
/** ; x' I: r* l% h* _ ** Y5 l$ E# o4 ^- N5 A! |
* This value is the agent's identifier. $ n7 Y% h) J2 t: L * @field agentID) A3 p$ P8 B3 C, O# U: @. J
*7 h5 @7 K, b/ f0 f& A) n
*/$ ]" v q& {! m. N
protected String agentID = "GasNode " + (agentIDCounter++)+ }* g! i( n8 J" j- E& `
6 m$ g: w- k' s. O3 n /** - L- X+ U* H# S5 y( C *. |" h( h7 u: \9 [7 f* r" j
* This is the step behavior. # H; n- R7 |7 h2 ] * @method step 8 `2 L3 {. k& C: I * 2 g- }7 v' D5 j4 b */ ! H; q J; @( G( w4 K8 ?& O& k @Watch( 3 ~0 K8 R1 u: \: ~9 k# J$ W watcheeClassName = 'infrastructuredemo.GasNode', / |+ U: e0 }0 T- m watcheeFieldNames = 'pressure',5 c! @% }2 M- n2 h4 _0 f
query = 'linked_from', , m/ l( G# k% ?) l whenToTrigger = WatcherTriggerSchedule.LATER, 3 \! p2 H- z k/ w4 L8 W2 N scheduleTriggerDelta = 10d 1 p% D4 {2 H" O' e ) 4 o d4 n9 C) r/ i7 g public def step(infrastructuredemo.GasNode watchedAgent) { ! k# G2 U5 S& f' m8 {+ w2 ^" {/ K% W1 c: [( l# d% |; E
// Define the return value variable. 9 E x. q n0 r def returnValue9 W; q( L- H- R7 Z5 o
; ^" R; Z' w9 b* ~; E/ \; m
// Note the simulation time. ' `+ I3 u E* d" m8 }, S! K def time = GetTickCountInTimeUnits()7 m& K- F: i7 V
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// This is an agent decision. 1 A2 B2 f& r+ I if (watchedNode.pressure<200) {$ c/ m# C- f6 {2 b) N
: i: I. B2 m! ^6 }& y
// This is a task.9 W3 Z# X' }8 @: M, p: B& I; u
setPressure(watchedAgent.pressure) ! x, s& g; a- O; `$ u" W7 u + G( D* H6 @0 i* [- v( L4 a } else { " `; x* L% Z$ r5 W/ ^3 u2 [$ k) @8 U# H, P$ f' e
1 ]1 p2 Z2 c: Q" K# f }% ~( I' T# A: ~( y1 T5 D: a5 d! Y
// Return the results. 5 [, \8 ?, ~; ^/ ^' \6 R; h return returnValue! ]9 ^& E7 U4 i Z C
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} * h) P* ^, q: S6 b 2 d; m8 D: r: q4 _ /** / U- X1 [9 O( C0 O5 t, S- r *$ p/ a' P5 Q& z# u/ A" P1 I# y
* This is the step behavior. # H O. }" F I) e7 J7 |! }) D * @method step: B- V. Z( s# J* U" k. I+ O& P
*7 f! J) T/ X) l$ g+ `
*/- s- ^/ Y1 C+ c. ?8 I4 N. {* |
@ScheduledMethod( 2 ]: V W! o* z) Z; ~& b; a; ? start = 1d, $ @; ]: b0 v" \. \1 R interval = 1d,* J& f& {: w. _; Y$ t* l5 ^, w
shuffle = false% L( ]6 s8 |% m! x5 K
) 5 M+ A) `" ^/ V9 P9 s% x' R public void step() {: }1 C# K8 {7 E
! S$ J: T1 g6 o // Note the simulation time. & P% ?# p: i( p$ Y. G def time = GetTickCountInTimeUnits() 5 k4 {- [0 D' M# ^- |( c2 Y+ r% E * U+ E* p, \% O& t# t // This is a task. - x# Z4 X$ Y* ? measurePressure=pressure+ RandomDraw(-20.0, 20.0)4 ]" S# {0 J2 Q0 y3 E% e' J8 S
// End the method. : v8 G. ~& k2 n return6 c3 c7 w& L _" k e. P
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}
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发表于 2009-4-4 12:21:26
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