% A j4 E1 o( @8 c, x( d4 Q- g' Y % ?, x" H. Q3 W+ q7 Q@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 7 F7 A8 c s/ b public double getMeasured pressure() { % `5 P: y) p% x# e* x) m6 P; d return measured pressure ! I" A# K! A- Z }( `2 d1 C: v! ~# ?- @
public void setMeasured pressure(double newValue) { 6 i0 n& S& I G4 X measured pressure = newValue 3 d3 \+ F' x- y/ N' f( b }- f4 v6 I* J# p
public double measured pressure = 0 4 |7 m( Z& k9 i3 ?0 }$ Y, |3 {$ a- @6 Q% C3 T4 c) Z. e
/**4 E( A$ H3 @$ x; i, Q/ k
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* This value is used to automatically generate agent identifiers., @ s( y/ I% L5 G
* @field serialVersionUID9 \+ c/ n- M8 f
* 9 s; y* B# b6 R! q: I& N */- X" O' h9 [2 A) {
private static final long serialVersionUID = 1L7 f1 {: a1 k0 w% U+ Q
" s* P# v! k1 M8 A' p /** 5 R+ C/ y3 O6 J; P * $ W* e5 G" X+ n( l/ z/ \" Y1 ` * This value is used to automatically generate agent identifiers.0 f) ?. |9 ^, p
* @field agentIDCounter! B: k; I. z3 z+ ]4 s
* + D8 U# W3 M7 m2 j3 D */ Q7 d( \& C9 M5 \/ ~7 c
protected static long agentIDCounter = 1" C7 Z# N; \8 p6 _ w2 Y4 ]# `8 P
. B; v2 I4 S- n# |4 C* X) ?9 o /** 6 m: g' q$ Y/ n5 L *' f; w- K& M( d/ I# l% K; G
* This value is the agent's identifier. 6 J* E8 y6 D$ S4 o2 ~ * @field agentID" _6 ^# s; r6 M5 H& M
*; n" f3 h2 h$ h
*/ Q4 Y+ |0 `. J* r F8 \- c. |
protected String agentID = "GasNode " + (agentIDCounter++): d8 I0 E o& ]% d5 D/ L( B4 g7 q
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/** 4 a% m* v" l( X$ ^, [, J+ |! w7 w) Q *# d; l$ K2 g; q# ~. o
* This is the step behavior.) j) c. m( f) d7 [3 E
* @method step; ~1 ?8 w, r) X2 g Z) ]& g- }
* 5 G1 \7 r; N" p8 v6 R; L* M0 b */ , Z0 r% }$ k G& ^$ [ @Watch( m2 D- [7 d# J0 z# R6 P
watcheeClassName = 'infrastructuredemo.GasNode'," J4 `. t8 b' U9 H+ k
watcheeFieldNames = 'pressure', 8 O: N" O( l9 i3 s3 a9 b, G' v2 m query = 'linked_from', , U# k I* T* c whenToTrigger = WatcherTriggerSchedule.LATER, 6 f3 o! E# e. {" k scheduleTriggerDelta = 10d . ]* [( G9 v$ t9 g; Y )0 x# e M4 j1 z
public def step(infrastructuredemo.GasNode watchedAgent) { # w/ u. h- M/ }' @ i/ e6 p2 [# j$ b
// Define the return value variable.1 O) R" d; K' @& G, t
def returnValue7 d/ H, V6 _+ z
, |7 [& k1 d; N( z // Note the simulation time. $ s! ~) q4 q K/ h# ]8 L3 @ def time = GetTickCountInTimeUnits() 5 x8 S. e2 L3 i : P5 J7 F$ e5 | I. S f, e 3 Y0 j0 x9 U, y1 c, X" E! N. u // This is an agent decision. 1 m0 y. i3 I* H$ [! e( @, U if (watchedNode.pressure<200) {# r% \1 m& S, Z, O, B3 X( B. ?5 M" E
6 Q& q$ u+ c9 a; {
// This is a task.: a3 ^/ d0 D( d- I7 r+ x$ ?
setPressure(watchedAgent.pressure)/ y+ U" e, _3 w: M# y2 }! n/ t
! u& h+ E d8 [
} else {" g0 [ f! ]" |6 }, f
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} 1 F' R6 E& ~9 |# F1 o. H4 E // Return the results. / I9 F F8 f0 D& g return returnValue2 C/ ]- Q# K4 p4 G }1 [
7 a3 T: t3 G8 Y) c* a' i' F! C
}* l2 g2 G8 q7 ]' S% b
2 i ~7 i3 s4 C; u5 I; m" _+ g
/**: K4 S" J( S' t+ N3 f$ p
* 0 Z7 V% R6 \1 R) O) u* ?/ K/ z1 { * This is the step behavior.5 A& v' u) d7 [
* @method step; g) p+ ?. g# q/ o
* ! V2 }: s- Y1 {6 D8 ?$ M */) L0 b9 y! N( { l
@ScheduledMethod(( E* r4 z4 X7 O+ h# k( E
start = 1d,3 {; I$ I8 v* N8 ]0 c, \( z" M
interval = 1d, , J, \4 G$ b. V7 G shuffle = false6 g4 A& g0 ]* C' {' O
) # ?+ {4 ^# z; X$ O, F public void step() {2 k& A( z2 h) r) ^: F- d8 h% X
) Z9 `8 \9 \& B0 B# F // Note the simulation time.) v$ q+ J0 j* F) O# v% b
def time = GetTickCountInTimeUnits() ' F4 K* x! m/ f' Q. S7 B1 g* { t f* t0 d( e
// This is a task. % B) a* e* Q& N0 F/ h. p measurePressure=pressure+ RandomDraw(-20.0, 20.0)( o# x! u( i0 I
// End the method.5 ?3 D0 f. p$ I; G1 T/ }' o
return . R4 V/ u" Y( u7 _$ i 4 k$ ]6 `4 F" ^$ r" z2 Z$ k }
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发表于 2009-4-4 12:21:26
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