. e% C7 H5 a0 I b f0 B4 r; g@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") $ a; S% {; ]3 }4 e; g6 b! r public double getMeasured pressure() { $ o9 A6 |$ ~0 B- Y return measured pressure( j) T# d& i5 x
} ; \7 d$ a1 L! N) c5 X$ E: u public void setMeasured pressure(double newValue) {' c- r& I0 z, t" X
measured pressure = newValue ( b& s9 w* Q6 }( ~) w. [ } & d/ Z ?/ o5 Z+ r, q public double measured pressure = 06 R5 {* D1 L& i/ e; m9 j
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/**! m& e4 Z% d6 @7 Y9 k
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* This value is used to automatically generate agent identifiers.1 z/ Y) N6 A* [ x6 A' H8 r' a
* @field serialVersionUID* {# G5 p5 h5 z6 V) U
* ' [9 U. ?$ _1 _! a5 w% O3 J! y */9 Z% {- ^1 b& d. z0 o# f
private static final long serialVersionUID = 1L & j5 N! V9 ?( R; W# C$ J3 |7 i' ~3 `9 g3 ^* H. `
/** 2 y" J9 D8 J3 t! F8 }1 Y- N. ^. |$ j% O * ! N. X) x. t8 d9 @7 U! p) r * This value is used to automatically generate agent identifiers.2 [, x. o" l: A1 W& f" p. u
* @field agentIDCounter . \2 s# B6 v4 O8 T3 k7 { *( T/ }8 c$ Y/ j4 A. J1 y0 E7 f
*/. w% D( I; B, P- [
protected static long agentIDCounter = 1* u* C/ k3 }- N8 z, c& b
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/**! l$ ^2 P, ?% L$ z( P- U
*- c) c$ {- b0 A w
* This value is the agent's identifier.+ u: o& ]6 r* V! c! g3 u! B
* @field agentID) c% S. t8 h) b5 G+ y
* 2 c# ^; u) F I' y9 \8 U9 c- ?1 ` */ + Y r8 I# @1 }# G1 p+ \ protected String agentID = "GasNode " + (agentIDCounter++) ' L4 K' o* ]. R5 } 6 q$ |. l+ o8 }+ o* w: { /**) Q, O' n' \0 R7 k( q
* - g( t, d3 ]3 O* t+ r * This is the step behavior. * [0 j5 T" S4 t" I1 \; e * @method step 8 S, m8 w3 A. Q" V! r' {+ M! m" D *9 r6 J# Y; o5 k* O
*/ L* ^. O# B. k @Watch( b' y5 i7 Z7 k. Y
watcheeClassName = 'infrastructuredemo.GasNode',* G: J+ d% L% ^- _# j# k" z" a
watcheeFieldNames = 'pressure',$ ]2 R% E( F1 B* D$ C3 b/ f' L
query = 'linked_from',+ S0 L2 G" Z* @) l( x! X. x& W
whenToTrigger = WatcherTriggerSchedule.LATER,! |+ q8 ]/ @" q' M, G
scheduleTriggerDelta = 10d * @, M. v) Y6 j" \! Z )# m }) F/ Y3 R, a
public def step(infrastructuredemo.GasNode watchedAgent) { 9 v7 h. c6 |" G4 V9 y: k* O4 D0 O . H0 Q& L/ T: @ x0 N // Define the return value variable. % M9 I5 w* S$ r) p def returnValue' N. m7 Z, V3 e; g) ^
- D, ~: n9 ?5 R // Note the simulation time. 1 R/ @; W7 ]( y" y3 ^4 `) N" O def time = GetTickCountInTimeUnits() ; l; B$ q: P: J. p, k# T ! V6 P+ {( m: a* m ' c K7 {9 \0 U8 H // This is an agent decision.9 j1 h4 M) s; F& l9 R3 H t( Z
if (watchedNode.pressure<200) {/ r. G. U( N6 J% Q" X
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// This is a task. : w! R9 ^* K5 O2 p0 D$ ` setPressure(watchedAgent.pressure) " c) |7 O* T6 t4 ?+ O) x g: d: b: C+ @0 n8 j
} else { * X* ^7 J$ |5 D3 H0 |) A' H% f' v. m t5 |3 ~
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// Return the results.! {8 K& M( p& u/ s4 P
return returnValue : u, L) e. F8 w! }0 I j+ ^( N% j6 O/ q& z) e
}! o1 j1 i3 @% P, q$ x
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/** 3 n+ K1 u" T0 h Q. S8 e6 K * 7 i+ [: `9 @% \9 m- _; G * This is the step behavior./ W. s; P% @8 { Y7 C, f1 l6 Q
* @method step( a4 r# y/ i. Y6 x8 B/ k5 O
*% j; r1 _6 x# c7 T2 I# h6 K
*/ : _- L/ ]# r0 g# g3 B' N @ScheduledMethod( ! q2 a0 `3 k; a/ O; {, V4 Q, | start = 1d, W! ~% k- l' {/ z O interval = 1d, 0 V; g3 A* {- s# t! ~# v1 H8 {& _ shuffle = false ! h4 A, f s$ L- g1 A9 h& l ) ) P( u' t9 M; v6 h9 ?$ R public void step() { i5 K: L. n$ m. r2 P3 O4 q5 [
}; l9 V c/ g1 ~: I // Note the simulation time. 3 q) C" c" v6 U& _5 ~7 K def time = GetTickCountInTimeUnits()0 R6 J4 s% g1 J2 y7 D0 G* T, j! L1 U
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// This is a task. # c0 J1 q0 [; E6 S- `. K/ |1 A. f2 ]; p measurePressure=pressure+ RandomDraw(-20.0, 20.0)( g) k0 b" K& t
// End the method.5 G: ~! F* v4 z0 i
return" z* J E* z. N- ~( W4 z4 D4 h: K
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}
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发表于 2009-4-4 12:21:26
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