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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure"); V9 I& ^( w8 ?
public double getMeasured pressure() { / X8 S' L( K" w' s return measured pressure9 B& Y2 X( Z! D W9 O
} , ~9 g- Y- P: l Y4 G! j P public void setMeasured pressure(double newValue) { : o. M _) i {1 j: f; f7 d, @ measured pressure = newValue 4 @( A- g p2 Z0 C! V+ _$ F }% f. V+ y! X" u1 \" r
public double measured pressure = 0; s# P# S7 g8 F
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/** ; Q- A5 [/ Y" {# d+ P * : V: j2 A' V7 l1 e! I * This value is used to automatically generate agent identifiers.1 c) O4 [1 h. E# Q0 S, s
* @field serialVersionUID 0 y7 A* D( r/ o7 @ * # q0 _- W" \* V3 ` */7 @2 H; f7 i" s0 u% H1 V7 e5 r9 T) g
private static final long serialVersionUID = 1L ( V* f$ z: U8 G2 H % \7 h# a5 l1 c/ N4 a; j /**+ Z# f; v$ J8 W* k
* $ V$ f/ N8 D* L9 d9 J# m * This value is used to automatically generate agent identifiers. % K6 W( b1 e+ v$ J& d5 F * @field agentIDCounter( L! D$ V' P3 `
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protected static long agentIDCounter = 1% u+ B4 p- _: {+ i
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/** ) o8 j+ y4 _8 e& |0 z6 D/ X3 h! E * : }6 r1 a# L4 z% [ * This value is the agent's identifier. ' \: y' Y# D8 c B# l * @field agentID : `+ x7 Q$ K3 I9 y: k *) v7 d2 P* b4 s# f3 o/ Y
*/8 g/ Y& e* v& e/ H$ a3 Q0 ]
protected String agentID = "GasNode " + (agentIDCounter++)& ?8 y# y- A5 @: p3 p# V
9 Q" o9 F9 W2 T q /**, v- O# O" t% E" X& l: |
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* This is the step behavior. : m9 `/ b2 F* C# M * @method step & \ U" C- f) c+ C' i3 v * + {+ P. d4 q6 o# l */ ( G' J x' e7 r; D7 S* ~ I" ] @Watch($ @5 T- m% o+ Y( d- E+ p
watcheeClassName = 'infrastructuredemo.GasNode', F/ n. I$ U; \2 B$ r- J- |! {
watcheeFieldNames = 'pressure',# z/ O# h: t) ^- d) @$ k$ U
query = 'linked_from',4 z0 O2 }7 @8 S2 a4 C+ ~
whenToTrigger = WatcherTriggerSchedule.LATER, ) e& d+ @' ?& @4 [0 j scheduleTriggerDelta = 10d 8 r7 P8 H7 C, ^/ U )8 Z7 l' X3 Y% \2 u7 R2 }
public def step(infrastructuredemo.GasNode watchedAgent) {) D' j. O. ^* m9 U' i
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// Define the return value variable.4 f& v' X9 o+ ~
def returnValue5 u4 v. L7 g9 A
; {- Y( L( Y; k' }
// Note the simulation time. 5 p# s9 Y8 _; T' t M- s def time = GetTickCountInTimeUnits(); p$ v) P( U9 X3 P4 L) b+ t$ R( j2 h
# B; o+ h: }: }' [" ~+ G3 x3 }* @ " T0 B2 m6 q5 f& i8 C/ J1 q8 d2 C" F // This is an agent decision.- \: e4 F, s4 _6 R
if (watchedNode.pressure<200) {" ^6 {! _- s$ E {
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// This is a task. , f% D1 o- @2 T! E setPressure(watchedAgent.pressure)! E( P+ y5 {. e5 a7 R/ L+ X
2 R+ G7 F. m/ j) E% u } else { & E' K) D u* h% l x D& @" v; V9 ?: T3 J% a& \
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} / ~% M& \) J2 D" p // Return the results.. D* Z4 i0 c) e# w: \/ s) n
return returnValue- k/ W5 I7 X( h! \
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. a4 i; \9 Y2 T% _2 U% o+ B /**% ?0 p0 c( y1 j1 [) j
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* This is the step behavior. : C+ l& m9 D* `- d; K, D. e, d * @method step- Q( z i4 a; V
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@ScheduledMethod( * K. i5 C" ]- x# u3 a z2 K5 L9 t start = 1d, 7 F0 {' C5 p/ u; e- \) R6 [ interval = 1d,7 ~, e2 e* A2 ~ B q
shuffle = false $ F0 F9 r8 M8 e ) , g8 l: O3 ^/ q! U public void step() {( f. V, ~2 j' c+ y% G
( d! t: U" o) T5 Q: `- x; a8 R
// Note the simulation time.% I' U8 Q: x% M- W7 a9 Q
def time = GetTickCountInTimeUnits(), u! P3 j* `) h' z6 l' @; N
6 [ i$ m2 H2 R // This is a task.6 ]/ x% H# i( A
measurePressure=pressure+ RandomDraw(-20.0, 20.0)+ Y4 L, W. @4 g) I( v. N) x& C
// End the method. / K9 C E' N1 S, |( F& _ return - ?; N4 X* ]! Y7 F; n6 n 7 {4 h5 p+ v9 |9 [8 C e1 s }
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发表于 2009-4-4 12:21:26
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