+ z6 I }4 n# q" }% W2 O, v /** * \* H) y3 f$ \4 f1 ~ *! V6 a' c; \( Y' G d' O4 t9 Q
* This value is used to automatically generate agent identifiers.9 e$ _% y& P M/ ]4 _
* @field serialVersionUID W) k0 |. S; D. U& N) d
* 5 Z- L3 r- U8 k5 E' n, H */ g, P, y6 u+ q$ Y# @4 v* _
private static final long serialVersionUID = 1L2 \5 r8 P: C! U+ C6 T4 p
) B" \4 A" B1 ~" U, L /** . B1 ~ U- w4 S1 {+ v' E& r * * |% i8 ]/ B& v2 V+ |. w * This value is used to automatically generate agent identifiers.' ]/ x1 V$ T4 H8 r8 F
* @field agentIDCounter- G/ H C; x0 o* u3 h
*( h h2 y s2 _6 |% Q. e
*/ * [8 u. N3 X/ ^6 Y protected static long agentIDCounter = 1 : \+ ~3 X( H7 i# }+ D2 m/ R' f. r3 s% [) o6 R
/**8 ~0 F4 O: u Q7 D5 x0 A* w
*2 t+ n9 B% L4 }2 a; S
* This value is the agent's identifier. Q2 b: B0 _; j# s5 p+ {/ `
* @field agentID & j0 d% c$ ~8 D+ s( N+ w7 K/ T *6 L& d5 B1 @* R% P! V# B
*/, K# d, |7 J# r) F6 _+ m8 R
protected String agentID = "GasNode " + (agentIDCounter++). ^) m! b& |! G8 r! h# w) `, }& G
) [& ?4 B5 ~4 Z1 h% g. Y2 D /**5 C% e/ |" N2 g0 G* v( n9 z1 ^9 G
* 7 o7 H3 }9 Q% z2 V1 | * This is the step behavior. 9 }) \9 _2 u8 v! B# B * @method step ! c6 u! O: ^2 e# f: g9 G * ) e3 F9 ]. u9 F) E# ^1 ]' q4 s */ 8 f- k; ~# F, W @Watch( : r- H$ M8 ?& y; A1 r! J. X watcheeClassName = 'infrastructuredemo.GasNode', & E* t6 ^$ B( p$ \: S watcheeFieldNames = 'pressure', & q5 T) c* r8 b$ V! U8 j' M. s query = 'linked_from', G r" x9 k* S
whenToTrigger = WatcherTriggerSchedule.LATER, 6 o5 a" c% O6 M- V- G8 U0 m7 [ scheduleTriggerDelta = 10d' D! D, e' }# H7 \' v; N* \
) 2 @) u7 O# k: N% { public def step(infrastructuredemo.GasNode watchedAgent) {) }! C+ \1 b) [* f; e( k4 U. T5 Y
/ @8 a1 f0 r3 @* g- B2 m // Define the return value variable. ' c/ B: g. O2 K3 O9 | def returnValue 7 f2 ^) g9 L2 f/ z3 x ! I/ ~; F5 [, \3 j1 z- M5 B7 D // Note the simulation time.9 W2 p: ~6 T1 M0 o' c" z' Y
def time = GetTickCountInTimeUnits() @. y# f1 y, s5 p- ~/ c' u 6 L9 F: ]3 x M/ H0 g! r / R" g: @" v! g) C // This is an agent decision. 2 \6 e3 x1 Y5 r5 p0 a9 _+ |( p if (watchedNode.pressure<200) { , _0 j+ e( F4 D; z% k) y: C. t q) }2 }8 A8 o# I. U9 l, K3 c // This is a task. 0 C' T) z7 s2 ]. J* t) W/ n setPressure(watchedAgent.pressure)# V0 Y* n' t0 b- p7 i8 H) l
2 A% g. [" A/ R) s$ P$ R; s
} else { * e* m) L& K/ _& j5 w( L* ` " i" ]( l5 K9 I( ]4 z8 `8 ^! y" R* u) c5 C
}- N1 j0 f t( {- C/ Q+ J# O/ v9 y
// Return the results.$ I7 a! |$ O$ a b; j8 i2 Y
return returnValue1 J! C! U& {: I& Z* }, b
- Q) m: u& ~2 ~$ T* G$ K+ o } ' Z- \4 h2 S1 Y3 ]2 w# q) ^ ' \% B6 Z+ u/ j. I/ [( j& G /** - U0 N8 e- e! X0 y *+ x9 z5 w: i1 @% D. ?: m% t
* This is the step behavior.; F/ n: \/ @1 @4 t
* @method step$ I7 N1 p( ?8 P0 \& b( h
*' V6 Y% V u) ?, O8 x0 c* w
*/ ( M- F$ M4 L' P# {! o2 h' z @ScheduledMethod(( _5 ~+ m& q! M3 s Q( s8 l# s
start = 1d, " w' W' A" Q% U interval = 1d,$ g3 K2 W2 w" R$ m4 P" ]! {
shuffle = false" H* E, M: X# ^1 K4 S
)( \$ b0 R- e8 d/ J
public void step() { 0 n5 k" B# m, Y! }0 t0 Z: o# V' y4 ~; ?0 s2 }( f) N
// Note the simulation time.9 z" |6 r& b, Q4 ]" ^! y0 _
def time = GetTickCountInTimeUnits() * ?# z) |) a, K& `4 M& W( p# V7 b
// This is a task. % I6 Z6 ~8 M. a3 E measurePressure=pressure+ RandomDraw(-20.0, 20.0)& d8 K. @* u. Z6 C
// End the method. " u0 W2 @9 Y8 [, n; j) Z+ }# ` return% X+ m' ?( \$ L- W! @" f( X; R
A' V! |: U# m% g
}
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发表于 2009-4-4 12:21:26
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