3 R @# c4 P+ g% w! T# [, p+ \# B@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") + Q& x, R u+ a3 q" U! L public double getMeasured pressure() { 5 A6 ?+ ^! V: K# P8 r. J1 @ return measured pressure, v5 o8 {# j. v) C
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public void setMeasured pressure(double newValue) { ( V) j% w$ _0 X/ a# H3 ?, M( i measured pressure = newValue 0 l0 d* f- n/ g/ X* ~$ \' t/ W4 @* t2 g } Q3 H. I2 X( w, }
public double measured pressure = 08 w2 r" F8 N8 O- }1 }
7 o1 B r4 K- V. _ /**2 {1 T5 a, v" \ U9 A: z( K
* / }2 W; f8 A4 L. `: A- X2 k * This value is used to automatically generate agent identifiers.9 l$ `) I2 u% I% F- V, L6 g
* @field serialVersionUID 1 J) k5 D. H8 `' H ** s+ S" S5 c" j* f L4 z
*/ $ s5 X8 c$ k+ j private static final long serialVersionUID = 1L ( G2 a& L$ j) D: d' U, a0 K! O; m9 s! ]& x3 b, O/ A
/** # M3 E f7 C% R * * D3 X7 C J, d. W, _9 k% M8 t" y * This value is used to automatically generate agent identifiers.- K" }, s0 }3 R7 P& s# X
* @field agentIDCounter * C! [1 D: Y, U# L s *' T4 `/ k0 u% j: r8 W( j) L
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protected static long agentIDCounter = 1/ D( c5 M6 z: ~+ `" j
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/**1 Z* ~1 c1 }. X3 Q O1 r! H
* 6 R* v7 O- D" v; h1 @. F * This value is the agent's identifier.6 k5 z! ?. T G& V$ t3 s
* @field agentID % X: p- _! i- Z1 ]$ X *; _, y# y8 C9 y4 b
*/% y/ c X- x3 n+ h
protected String agentID = "GasNode " + (agentIDCounter++) ' K9 Y: i& w% A4 k( r4 r; \2 q0 c, c* w& H
/**$ F& t! ^% c! y; T. A+ z
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* This is the step behavior.6 y4 p8 t: t5 Z: C7 T+ h
* @method step 3 x6 W% L, r5 D) {. v * & ^7 v9 r" f; G; o# \( j* \ */! N! b) l$ q2 ~' z* B
@Watch(% h3 G. J4 T. d2 Y7 F( E4 }$ ?
watcheeClassName = 'infrastructuredemo.GasNode', # C I" ~1 {# h; v. i watcheeFieldNames = 'pressure', 2 l8 I2 e8 o- R3 y5 r( a. x4 B" h+ c query = 'linked_from',6 L1 \1 X. w3 @' W( l7 D. \' S( ]
whenToTrigger = WatcherTriggerSchedule.LATER, ( z) t) i+ A5 s5 E! Q. L# ? scheduleTriggerDelta = 10d* C. s \/ s- m# ]4 V
) 9 R" c M! Y/ r% L6 v public def step(infrastructuredemo.GasNode watchedAgent) {7 G! D, [/ n* A2 m
- {% y9 n% C6 R1 b/ [ // Define the return value variable.. j8 ], z# H: c
def returnValue ; \6 N: @# c' ?) ?$ ]: o/ n8 [& w2 H% k$ Q2 B
// Note the simulation time. / Y% W6 _1 f$ j def time = GetTickCountInTimeUnits()4 H; ?3 i8 p( R' M
7 C5 G0 B. w4 V/ t
0 w q7 | p% e // This is an agent decision. ! R# g1 Z: H2 r" H if (watchedNode.pressure<200) {$ S5 k( @; P: ]# ]& l. }9 h
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// This is a task.. O2 ~1 `/ W9 R4 d% v: D
setPressure(watchedAgent.pressure)! S F* T" Y+ e, g3 D/ f& |7 X0 d
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} else { 0 G( @% b- m8 a4 {) F7 e( k 0 x: j5 u6 H! e6 {& c 3 d9 x2 e; F2 R1 \5 i2 X+ u } 5 ]6 l0 B% n- P. b) I% h // Return the results. $ f6 b q) _" u* P$ K- K return returnValue" d& w1 O8 ^' {
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} 3 d% K& [' u9 J9 X0 u9 B% D5 M: K- d4 B- o
/** " ~2 I C0 Y+ ?( w9 L9 M+ }: s *8 ^% `! V9 I, ] y" s
* This is the step behavior.( z7 k4 P3 U% o) e5 W2 U! G
* @method step 3 P& x i- f/ ]: w/ u% u8 ] *+ B; b+ F2 p, D( B2 m
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@ScheduledMethod( . w, U% e! `& X* H6 u; v1 r0 h* s start = 1d, 6 X; t6 G: P* ^7 u interval = 1d,+ f& x& i7 S2 Z* x% C( N
shuffle = false 2 Y* P$ q# D% B9 F' R% Z7 r L- l& z ) ; v: p$ D {( k( n public void step() { 4 y: W+ ?3 h% V4 x3 B( f, ]) A3 }' A. r# b8 T) C) b7 F& |
// Note the simulation time. , Y1 n- L: y! M6 d6 \ A def time = GetTickCountInTimeUnits()9 u& Q; {9 o9 A7 ^9 a; m' ]
1 N( b3 b7 L0 X; p# b // This is a task. + B' r4 L. y$ N) \ measurePressure=pressure+ RandomDraw(-20.0, 20.0), E$ d: z- K( W$ t. [; U
// End the method.3 D* g" ^3 X8 L1 Z" r
return ; X* c- y" N/ A* E5 k8 ]3 [1 F$ k& L+ z* m6 w h {9 b* I
}
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发表于 2009-4-4 12:21:26
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