# D. Y W3 o; E& b- L; J& m 0 \& R" q9 i+ Y7 F1 S' c( l@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")) G$ y6 C; \$ p
public double getMeasured pressure() { ; @ L* q) H9 d9 K" e: q1 J& D: | return measured pressure% b8 g* U( ]- b0 H1 V* o8 ^
} 7 U7 W/ k7 G: ], M1 e public void setMeasured pressure(double newValue) {5 W5 Z- f% _: t6 }6 |( P$ b$ a
measured pressure = newValue" R, S+ M( L5 e; ^, p
} ; D( |% i: ^$ T+ w3 ?* L public double measured pressure = 0 # {, ~ h( |7 W' ^* P0 U$ G' x ) R9 a; j8 m7 j% r: u: p& o /**" T- W# I2 `6 x. G/ `
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* This value is used to automatically generate agent identifiers./ z C, \! [& W# J2 _/ Q' U8 T
* @field serialVersionUID ' ]1 G" r5 \! o+ c9 ~1 H *" L" B, ]" l) ~; z% L- s
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private static final long serialVersionUID = 1L- r% j- Y; H0 m9 Y0 ]! ?8 t
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/** & ?( v, s2 T2 S * / l. E- G0 |; r+ }8 p! u * This value is used to automatically generate agent identifiers.0 ?1 G- d- a# `- }% Z) F r# ~
* @field agentIDCounter N0 M' z; c& T- A8 u
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*/ * w8 l! f. e0 E$ @8 T9 o protected static long agentIDCounter = 16 V+ Y% f+ n/ b0 m/ {
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/** d- a% C: `# R# \& x4 J3 I *, ^5 H% V0 [4 y8 H2 T( F
* This value is the agent's identifier./ R& c' S. E b
* @field agentID 0 Z5 _& W& S Z `; j* R# E *0 e! e P7 o5 E
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protected String agentID = "GasNode " + (agentIDCounter++)9 B$ V/ @9 a) E- {; Z1 V
' h W2 x! ]# @* I' s3 d9 {7 c /** 4 ~7 X0 |# X1 p9 ] */ I6 D! F2 u- A# i4 X! O
* This is the step behavior. * G2 I2 @# y2 v" ~' ] K * @method step0 \; L) R0 [# _ |
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*/ : g" _* n- [$ ]/ G @Watch(6 x( a/ k- A8 I! y+ a8 u
watcheeClassName = 'infrastructuredemo.GasNode', 1 O0 s3 g `2 P watcheeFieldNames = 'pressure', ( |) @6 y: J9 L1 j9 _9 |5 I, s query = 'linked_from',1 @0 J$ p9 [4 ~- s
whenToTrigger = WatcherTriggerSchedule.LATER, % ~& w) b; }2 [; [9 U scheduleTriggerDelta = 10d 8 B+ a' X' f: O2 B# s1 l; L )6 R/ Z1 _1 E) e7 J8 P
public def step(infrastructuredemo.GasNode watchedAgent) { , k, p7 J4 J" Q+ t P" ~! o3 ~ 4 F3 P+ o; ~$ M5 A% O; v) _ // Define the return value variable.( o6 O L& E- L! c0 J
def returnValue! j! V1 ~ W0 d" B3 n
8 l% o2 U4 L: w // Note the simulation time. " w9 H. K# \. q3 i7 i0 O4 p) E/ ` def time = GetTickCountInTimeUnits() ) H/ m3 ]* w$ f; K 4 \- I U* Q1 u, w# C+ n+ _8 `6 ]) n& q2 B$ U
// This is an agent decision." b6 w) y7 l# w7 B
if (watchedNode.pressure<200) {: [8 |5 {) c% H) k5 n, A T7 z
# F" |3 l# D4 I% A // This is a task.5 M# j- F$ F( [* @- Q/ @' D+ K1 C; x
setPressure(watchedAgent.pressure) 0 n& ^# m4 v! P; }! i; _9 t U6 V7 M- u$ |
} else {- U8 o% M# ~! f; H, \6 g. k T7 S }
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* F Y D! Y5 p' g p7 ^+ A } 2 ]7 }! ^* U6 o; Q // Return the results.& L) m0 W5 O8 V) A3 V' e
return returnValue : [" _3 I0 V$ r+ H" F- V) I$ G; i5 }5 h8 i4 k. Z# |+ o2 q% i6 j# ~- m
} + K- }: i! ]& d1 r+ H * a( d8 y. L4 O' n& }# H /** 4 V# e4 M8 u( c6 {, ^ * 5 T; Q5 b! k: O) y( u7 o% b& M4 Q * This is the step behavior.0 m5 k5 j1 [ }! a+ K5 b
* @method step 5 J% ^$ y* _# d) N2 H6 G8 r K * ' u; A* S, V/ H' A6 x4 o */ & _; [9 r; B5 E( Y @ScheduledMethod( . c0 ]! e/ o G) n+ y9 y, V start = 1d, N# U" u2 O( ~) c8 f interval = 1d, ' x/ E3 J, x J% A' J shuffle = false # U2 R, x! E* j) V: [4 V- _ ) , W* ]1 A6 }% n+ s6 _ public void step() {9 p& h3 J1 E6 ~9 v7 O6 N
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// Note the simulation time. $ `% h" m* u/ T& e/ A. e8 y def time = GetTickCountInTimeUnits()- c8 U3 d1 D! M
4 d8 q% b( `6 j6 @3 K: y& ^( J // This is a task.* Q* E( a! _( M! a L9 _9 ?8 |! Q) C
measurePressure=pressure+ RandomDraw(-20.0, 20.0) 9 i) s2 D0 D6 v0 H" {& z // End the method.+ `, n( E9 V$ ?8 u+ b* V3 s+ `# R
return& O" S. G; b' m9 a3 V2 X
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发表于 2009-4-4 12:21:26
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