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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")5 v0 Q! H! q. ?" E0 O& A( J
public double getMeasured pressure() { ! {0 q R# p) \7 f# H5 c return measured pressure' `) X8 [ L7 m
} & p V, K) B% E0 ` public void setMeasured pressure(double newValue) { . A4 h- ]* w' @% F% U measured pressure = newValue3 T; E" H! u$ F, T
} % G; G* G6 z- A5 s public double measured pressure = 0. f+ ^ N* N' j2 _& k s- k0 R* F; b
" I u% D3 t! f* J7 e- g0 V /** ( q1 u% O/ S' E& X% O0 I3 E * - l2 r1 K' T/ Z7 \ * This value is used to automatically generate agent identifiers. I, |% ]6 X' d; p2 P7 Y& y5 a
* @field serialVersionUID: d. j1 O8 c) S1 \: x
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private static final long serialVersionUID = 1L6 |1 T, d& z1 F2 G! C% |+ B
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/** 1 a# H1 s8 ?" Z. }: w9 w ** D/ O4 m* w! I9 s1 t
* This value is used to automatically generate agent identifiers. % Q( @* z z+ `/ x6 r0 G * @field agentIDCounter1 T; M. X, V# Y
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protected static long agentIDCounter = 1 5 b/ o5 A s+ F q* M/ y9 J$ A
/** ) k& M7 W! B p. ^ *+ E/ d! l$ s/ v; v& c) r. x- F. o
* This value is the agent's identifier. ( S- R& R; V1 J$ F * @field agentID! C$ z+ R' m) H( T
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protected String agentID = "GasNode " + (agentIDCounter++) 8 H8 P8 ]+ X" Z . H, _7 N7 t& f1 ~3 z5 c /**5 B& ^9 F. m) Z+ k9 c' X+ w
* - G. M7 k% U, \ I1 f * This is the step behavior. ' s' Q) z& ?. d8 I d. N! w! v * @method step 2 B) r% h' T( [! @$ g- X5 P *! U6 v5 n- z ]# f$ v2 R5 L
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@Watch($ G6 o- h5 V/ n* ~
watcheeClassName = 'infrastructuredemo.GasNode',6 f' ?5 n. Q+ ` ?. {: y) G. p
watcheeFieldNames = 'pressure',6 T$ a% b/ {* }8 g
query = 'linked_from', 4 @$ d! I K) o1 X2 h: p0 V6 H whenToTrigger = WatcherTriggerSchedule.LATER,9 {) q0 W0 L3 v0 c/ _8 N$ `
scheduleTriggerDelta = 10d" R- J8 \( D2 p8 x4 y3 \
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public def step(infrastructuredemo.GasNode watchedAgent) { 4 d7 }# z+ i8 }9 Y2 }/ N: {' \ $ ?9 g+ a( B Z // Define the return value variable. % O) @+ l: o" g4 r% p! V( x def returnValue 4 f y9 h8 l0 O$ N5 a( g2 {8 o$ b8 z( E* u8 L
// Note the simulation time.- g# B3 F4 @6 V) V8 U5 x
def time = GetTickCountInTimeUnits()* a! |+ x6 ?# W, m5 z1 [$ Y, |. V
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// This is an agent decision. % [/ {; C' O0 K& M# L if (watchedNode.pressure<200) { % S6 \1 t/ x- q/ y' V. h6 h4 h+ S3 f5 i2 g7 I/ @+ [4 u
// This is a task. 5 I0 V6 B0 ~; S& {7 a setPressure(watchedAgent.pressure) , }2 O8 ]; ]* Q7 ^8 ]# m ~/ F* U4 K+ x3 p
} else { ; c' u" j' g2 g6 `* D& P 4 M' r* S4 \8 b/ C$ t9 B) I# c' ]0 {. ?2 Z& G* W# U2 ^9 A
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// Return the results.& W5 }/ D; t1 c6 k
return returnValue 5 c+ J5 m% e# r" x- b1 }+ W9 h8 i }. c
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* This is the step behavior.( n F9 {. R+ X( C3 H& Q
* @method step 4 A; M3 Z8 }- |2 r, {! g$ I *7 z9 `1 Q6 G7 ?0 l. b9 L" m
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@ScheduledMethod(- m/ N, }* d- r8 W: i& { s" j
start = 1d,# w6 j5 A. Z4 P. }1 W8 z0 Q
interval = 1d, " [ @9 C1 ?. Z' T1 R) U shuffle = false' c. o4 i/ u7 h& y
) 9 E+ s% y% z' ?" ~, \( @; y% W public void step() { ( D, Y& f0 q& C U - }" h+ j# q$ v) y6 K // Note the simulation time." ~7 W; x" `$ H/ s
def time = GetTickCountInTimeUnits() $ l6 }9 ?1 V: }7 w; o$ N* h0 F( U3 B! G/ {) e3 |
// This is a task.3 q! @! p. P; B6 B, y6 Q
measurePressure=pressure+ RandomDraw(-20.0, 20.0)9 V; t# m$ \* a) ]& `
// End the method. " I' w4 T( c1 J2 d# I return , z/ c* @& r$ W2 k. \- m 2 S7 M/ }. T4 J/ P* y X }
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发表于 2009-4-4 12:21:26
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