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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")7 k& i# a9 f9 C/ i4 x- b. K
public double getMeasured pressure() { 4 j, |. _! n# e! Y7 o return measured pressure) O \) \# r e t
} 5 I* C8 _- }: {/ b W public void setMeasured pressure(double newValue) { 4 ^% |1 \2 h0 m c: Q( g measured pressure = newValue, |% O& y' Q* \$ b! T
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public double measured pressure = 0 E7 m4 U0 X7 b; V$ b% b: o0 e9 A
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/** ) b8 @8 |( ~9 w& ]$ B */ ?% {$ U# }2 V, r
* This value is used to automatically generate agent identifiers.3 }: ~# D; g! S) n4 v6 m
* @field serialVersionUID9 p/ y' W0 v g1 ~' s7 c
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private static final long serialVersionUID = 1L1 j' p$ k* ]& Z% m1 [/ S
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/** % ?! P) S: A6 q" } * 8 \, f6 ]4 U' B6 @ * This value is used to automatically generate agent identifiers. - Q; x! d W! V0 B * @field agentIDCounter ! k5 G% z0 q, A% u2 T2 G' u& R * " e+ g' E' n) D( X */ , d) u u) Y3 o% Y) \ R! R7 v) O+ m protected static long agentIDCounter = 1 3 w& F' o `0 b4 h d7 v8 J" [ ; X" u3 |0 w& \. o& u /**6 c& R) V& I5 ~/ v5 m
* 0 q6 `" ~/ L5 V * This value is the agent's identifier. 4 o; D# ~ K8 r * @field agentID ' D( q, s o+ F5 T6 F *7 b! C6 e1 ~) v. _$ @; [
*/ : A8 t1 a8 ~2 J3 ^ protected String agentID = "GasNode " + (agentIDCounter++)( J% v! T) |: q1 e
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/**' L0 J; N- L& K" n, G# x4 b4 X+ d
* + e* L$ D1 B E( B# W1 m, M * This is the step behavior.! b) p" k5 E( u- a: x; B+ X6 d
* @method step - @/ N/ n2 x# \5 v9 U( N: ? * 1 h( X1 W% |6 g8 w! w1 F */$ {; [$ l6 l* Y0 i* K
@Watch(7 ~; W, v$ i. F- `4 C
watcheeClassName = 'infrastructuredemo.GasNode', " ~' G2 Q$ ~8 f \0 M9 w, ~/ N. } watcheeFieldNames = 'pressure',& @* S9 c2 {! D) k! A6 D/ O
query = 'linked_from', 1 v9 g. \+ |. @, f- t6 ~& U% v' a+ ` whenToTrigger = WatcherTriggerSchedule.LATER," i! G9 {0 W5 C: t. H0 K/ H9 q: ^5 y
scheduleTriggerDelta = 10d ) m2 C8 d6 y) N, @ )1 x) b: ^: y4 K9 {9 P- W, x
public def step(infrastructuredemo.GasNode watchedAgent) {/ _8 \3 U- M0 s6 R& `
3 d% B9 W$ K1 O. j // Define the return value variable.2 q+ [% ?. O2 A7 x- g2 R
def returnValue, z6 F0 J$ n/ l
% b8 A' K: [$ r9 @9 Y // Note the simulation time. ; Q' d# y3 ~3 \; E def time = GetTickCountInTimeUnits() 8 t( T5 }8 x; S. J& V( ~4 M- e 2 C5 @& g6 k" G L* r ' B x/ c1 b4 a( D ~0 J* X( w0 ?5 g // This is an agent decision." t( B2 j* f' T& t5 K7 {* v
if (watchedNode.pressure<200) {1 q O& [9 G. I9 D2 H& L2 J+ D. N
3 a, w% G" m2 J/ c# {) b- X5 W' E5 A // This is a task.$ \* Q, ^6 H: J) |3 H Y% `
setPressure(watchedAgent.pressure) & f9 I# K4 A8 K: T4 @6 `$ I# I/ n/ W- `2 S- i
} else {" _9 |* r1 F- _/ D
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} & F) g, S0 Q4 [ // Return the results. & ?7 a& j0 g4 }2 H& b# H return returnValue! p) G$ K3 \# {+ W6 V9 _5 V; d5 w
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/** % Q) L. U2 c- c+ W, [+ o! h *& a+ w, e+ r3 u) z. G
* This is the step behavior.% u f5 L; N# Z) G7 o. m
* @method step+ _4 ]- i- U6 f9 ?5 @: Z! X/ E" l
* $ U( |7 `) S8 m/ ^, E, a */ 5 @& b- g7 l4 b I7 I5 ~ @ScheduledMethod( 1 ?/ M5 E$ ?1 s: V& x start = 1d, # F/ P* F: b0 k2 O interval = 1d, 5 n4 e' h, B Z' t o3 | shuffle = false $ z, a' Z! v+ ^2 v ) $ Q2 D5 ^& B% e. f# C5 c5 j public void step() {: J5 s! W4 a' L
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// Note the simulation time.$ ~8 x6 |$ F2 Z8 w
def time = GetTickCountInTimeUnits() ' U) [# K9 ~6 w* b8 b# N/ j& v0 P+ ~% ~1 |# O0 ~2 Q
// This is a task. , ` p3 b0 U8 L measurePressure=pressure+ RandomDraw(-20.0, 20.0)( W3 E3 V a$ ~ |& C7 A3 F
// End the method. # r$ Y7 l; ^0 V7 a return/ K4 k- Q9 v8 W% e: E* [- l; z
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}
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发表于 2009-4-4 12:21:26
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