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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")- O' ?& x, ~# c! p
public double getMeasured pressure() { : B8 c7 v1 M1 F3 j9 m! A* G" D return measured pressure 7 c, @/ ^" Z( j( S& b. p }3 i9 c+ g2 J3 y3 }- h. ~
public void setMeasured pressure(double newValue) { % I- Z! t. k/ \ measured pressure = newValue3 e2 O3 l6 w; r: i' `& s
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public double measured pressure = 0 # T7 g8 g( `" ]6 ]" U8 T# z6 Y. i1 X! i% S" D/ V
/** . P N7 Q5 {# z/ E; n% H ** M7 I, c; p t3 B% e$ m0 u2 ]
* This value is used to automatically generate agent identifiers.( J2 t/ v: T+ [/ @
* @field serialVersionUID3 @6 [7 ?% G% [4 |4 t- T
* 1 V( A/ W2 B1 b: V */, n# D# Q: D4 v8 L# M6 g
private static final long serialVersionUID = 1L" p& `+ N+ {' r" A' D% t' z1 u
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/**7 v! B# R7 s. A4 Q Q7 o1 |& K/ Y- U
*; @) r( U7 x |( @" |
* This value is used to automatically generate agent identifiers.5 P- f* O# [* V( u
* @field agentIDCounter& o/ o5 R* k( w7 K" ~& o) c% `. e
* # n1 Z+ w m- k2 ]" p; _( {1 n */ ) [$ @* Z o; s2 V% ~6 {9 M2 V protected static long agentIDCounter = 1 " d" i& n+ _) `. A5 H5 c: d8 d. l" m% Q0 } W/ n0 F
/**' n3 P+ a% l8 U, k/ Y; j" \# `
* % i, y9 h- Z% | J * This value is the agent's identifier. * h/ A; O" D2 j' y5 \; [* k * @field agentID9 V) o( v" C$ h& B9 J6 h
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*/7 C, h# T4 ?; l, s+ [ s! o
protected String agentID = "GasNode " + (agentIDCounter++)4 j2 L! X* G9 k! w
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/** o2 e+ p) ?2 v3 {
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* This is the step behavior. % l) b! b, G' F$ k' b8 h! U; ~ * @method step7 I5 B: v' Y' u1 d" a
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*/: [& B& ]4 a, h! C# D
@Watch( ; U/ F' Y( b. q7 h watcheeClassName = 'infrastructuredemo.GasNode',8 u1 | }9 s9 Z) ?
watcheeFieldNames = 'pressure',0 H& f& T0 K. |" D+ }$ b
query = 'linked_from',5 j8 k! F0 j5 f, o N6 ^ B1 J
whenToTrigger = WatcherTriggerSchedule.LATER, I1 C1 b8 d4 m scheduleTriggerDelta = 10d2 ~+ v( ]5 f+ j: b
)( W6 x( T% u; a, I( e
public def step(infrastructuredemo.GasNode watchedAgent) {& |7 `$ I8 `. _. u4 W
6 o3 I' C7 B; K0 |9 b" k // Define the return value variable. * V/ }+ A& h" {% ~8 O' K. X; F def returnValue ; K- c3 }4 g. t1 {7 V7 U: Y2 r0 [) z * u/ }3 G' y' S& _ Y l5 L // Note the simulation time. ( t- C4 Q7 f7 a/ r def time = GetTickCountInTimeUnits()8 {: c' N8 ~% M9 ]
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7 l0 G2 R( Y, U/ P0 y // This is an agent decision. 7 O' a' g8 j( `2 l; X* O if (watchedNode.pressure<200) { r A7 `, g1 a* r7 J6 p; D" ]) ] 7 e6 r5 M( a9 f( T$ L // This is a task.* ~& {7 c3 @6 ?9 b
setPressure(watchedAgent.pressure)5 j& ^" p0 x! d, B+ M+ k
L* C: T/ z- x } else {( v: x6 S3 r$ V2 X! L
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// Return the results.( l: f2 D; Q. Z2 F
return returnValue 0 |: [; m8 n" Q/ L5 ^$ H9 I& J9 \+ ]% t9 H6 i
} ' J& x6 [* B! E6 D. A0 i5 i( A . I' m/ k9 m3 v4 l2 P /**4 y( {2 Y1 c/ L5 X9 W
* 6 f& n {; T. E7 J+ {1 B. c * This is the step behavior.7 k' |7 O% ]' \. F+ ^8 X
* @method step $ d5 D2 d' O- _0 R. Q4 b& ~6 t * * q N) r) M0 o3 }7 u+ ~ */ ( F+ H, E) f2 L. ~8 ^ @ScheduledMethod(0 \4 |7 c- n4 }2 n: K4 }
start = 1d, ) T$ p q( I P$ Z) C1 U interval = 1d, 4 l! K, K: G) _$ H' s& `* | shuffle = false# ?% z+ l N0 Y7 B; J5 ?
) - J/ }, P2 x' V2 O/ ~2 C! B7 j public void step() {7 f) q" x9 Q9 _! ~$ w# {
% I5 Y" Y4 u$ [, d/ } // Note the simulation time. , a! H1 R/ A' `! v) Q2 F def time = GetTickCountInTimeUnits() ( A7 V+ w: _6 X & Y1 [( }+ b- P( w' u7 k // This is a task.& N- `" R1 C# `# q* [/ a2 w
measurePressure=pressure+ RandomDraw(-20.0, 20.0); k. F' [7 x2 [
// End the method. 9 D* e. C- U0 L; A* B return & j3 S$ z o( L% g6 C# u# W! g7 Z! l, N8 p0 ^' M* m9 h; F$ T6 O
}
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发表于 2009-4-4 12:21:26
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