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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")5 Z0 ~- x' s4 F' R B
public double getMeasured pressure() { t# m5 }; y6 i# H: h
return measured pressure, o6 T1 a. H( Q5 T
} * T2 _& V& o. H9 F( \. w& X( U public void setMeasured pressure(double newValue) { ! A$ b3 B& w8 z2 R measured pressure = newValue 1 `/ r0 ?' b+ P2 O$ O }) R7 T j* [$ R. ^; n' D. i: ?5 f
public double measured pressure = 0 z1 A- ~; M: i6 s/ b' U
% }! s! S$ T M/ S9 m /**9 y; o. k3 m9 \2 M8 ]7 _1 U1 ]
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* This value is used to automatically generate agent identifiers.# C3 I, r( ?; m: L- } j
* @field serialVersionUID 6 @6 V* D# D M * ; o8 K7 I/ t0 ~$ l4 T */6 j8 p1 ~, \: f1 y" f8 t
private static final long serialVersionUID = 1L/ C, d, w+ A- H6 X) f+ t+ [
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/**- } H6 g/ r, f7 p" a
*! }% f. n4 U* T) ]( c$ i
* This value is used to automatically generate agent identifiers.4 l( M4 _. ^, m/ R8 w2 D
* @field agentIDCounter' h- r8 b$ D" ?. |4 \
* & |* a; R# c, p) D. |$ @ */' \7 i+ f j% f9 ]* W6 @, C
protected static long agentIDCounter = 1 9 t5 N2 B" ?+ C7 s% ^* a9 {3 n8 S5 o% o2 r- w
/**# p+ v. z. E; @) M9 k, [, W
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* This value is the agent's identifier. , y) z7 Y. t! d+ }4 O * @field agentID 9 i" D) j+ u$ Z7 h" c/ } *8 `3 e3 _: j& U+ f
*/ 3 j- f- ^9 U0 a9 ~ protected String agentID = "GasNode " + (agentIDCounter++)4 x+ L5 w# X1 S1 ^' k! y
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/** 4 }4 V" |& H y5 ^ *4 ?, |+ s: a5 L: t9 N0 \
* This is the step behavior.0 I, m3 u3 d/ S R9 v+ i# W
* @method step ' J" }7 R5 \ y7 g. Y *& H6 w w" g! s+ `* r8 f" o c
*/7 M l3 `6 n+ R3 d* @3 c; Q- t9 }
@Watch(- ?2 ]4 H7 b1 T; B2 a4 T9 v
watcheeClassName = 'infrastructuredemo.GasNode', ' h9 ~$ X5 s0 L& @ watcheeFieldNames = 'pressure', ) E+ T9 }2 _1 p query = 'linked_from',4 a8 e+ v7 T9 r& Z' ?+ k
whenToTrigger = WatcherTriggerSchedule.LATER,, |8 A+ @% \. x5 ], }
scheduleTriggerDelta = 10d9 M% u5 _: E( W2 v. n7 q; m
)/ ]0 U1 F" k: G+ ^
public def step(infrastructuredemo.GasNode watchedAgent) { 5 }; l |$ P6 i ) n* s5 K; Z& M4 E3 `9 i // Define the return value variable.) \6 B0 [* W" Q9 F
def returnValue ) u, H# R% `+ ^& d; E; u: e& S! } a# ^6 j: a2 \- b
// Note the simulation time.3 |4 Y9 u. W4 D2 z
def time = GetTickCountInTimeUnits() . G; F3 A& W5 v# F6 o8 F) j) y0 h+ R/ _: D" ~3 w' M: t. B
: F3 X2 w( Q, x& Y% ]: ?! [4 B$ A // This is an agent decision. 3 y% m3 }- [# {+ O; U if (watchedNode.pressure<200) { G8 m2 x% `% }' I; y" A: F, |( D" P' m: }* j
// This is a task. ' K | y0 ^8 n$ K setPressure(watchedAgent.pressure) . R0 K; [) G* v, n- z$ Y4 m, @7 \- U' V; j- i: g
} else {+ I7 W. d9 e: K6 b
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} ) s0 ~+ D# x2 c7 Q! z+ k9 u0 L+ y1 T7 P // Return the results.$ x7 F1 u6 F, B' i# x2 l
return returnValue A& A# j4 {9 I# c4 S0 n& N ' j* i. Q2 N" i+ g+ r0 J, m }8 a7 p. t+ {7 D
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/**! y6 G) n" S p- C- q2 ?7 i
*1 q4 Y9 o$ r Y7 G8 }
* This is the step behavior. % T8 J. y% C- |1 g" l- x * @method step* x' l1 O3 z+ A, H
* & Q1 ?4 X2 g! _; w& s */ 6 I1 F! B5 I* O* X @ScheduledMethod(+ Z0 U9 Q) R2 m- `
start = 1d, % n4 u: c% p% T interval = 1d,- o1 e6 T1 |. c3 c6 f
shuffle = false 2 b# g+ ?7 Y/ J+ y& c1 n) k ) ; O- X6 c9 ?4 w: r- O: ]4 ] public void step() {% y% P- ]5 w" e0 j+ E
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// Note the simulation time.3 p; t) ~* [; ?; i- y
def time = GetTickCountInTimeUnits()+ C0 {3 }3 O( x7 E! a
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// This is a task. # W! U# Z B) F& T' ?4 ^ measurePressure=pressure+ RandomDraw(-20.0, 20.0) ) b, b5 L# S( |$ }: x& m- m // End the method.) h; \" Q. D6 `5 ^8 n9 U
return 2 n9 E; V* D$ `" P! q% t8 H$ _0 W , H( {- d& B; }/ N2 U }
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发表于 2009-4-4 12:21:26
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