8 s4 P8 l/ w, T0 y" \5 k@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")8 j1 J& h7 u$ [' u- K
public double getMeasured pressure() { 7 W5 |- d8 U2 B7 n* Y4 w, Y, T/ Y' W' h return measured pressure U. S _7 A8 K; _ } 6 {( [# v, s: { l* h, y$ a' m public void setMeasured pressure(double newValue) { ) {4 n% B. q; H! p+ Y5 X) l measured pressure = newValue & s+ \2 f J& q* V, R/ x W } n' [; o. H$ n" a% q public double measured pressure = 0 W0 p, n' i: J4 g& J0 k7 B" O" Z5 ]- ]+ v2 n
/** $ o3 X3 r; J1 q' @ *9 A" K7 ~0 ~0 |2 t! {- X
* This value is used to automatically generate agent identifiers. / n4 k4 B( d" ]% B8 d0 X * @field serialVersionUID& f, c1 ]1 ^# t1 ]+ N( a
*9 t: Y5 T7 G4 C- v# E7 a* z; W
*/ , r$ x: y) X% T* M2 p private static final long serialVersionUID = 1L3 ^4 ^8 @: i) I; y6 ?; L
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/**; F$ d0 w+ W# y- Z
* ( N" w( ^5 Q6 F: V y- P: T% e, y * This value is used to automatically generate agent identifiers. & g0 S- i+ R6 ]6 _9 W * @field agentIDCounter6 _6 K% N# n1 b" ~* i; |5 j1 M- `
* ; U ^) b9 S: }, Y */4 f0 V3 v# F v$ L
protected static long agentIDCounter = 10 ~7 K* b. \+ B- @( n& |
$ j H5 s4 U r0 V/ ?9 r/ s /**0 D$ V' D; f+ q5 l6 I
* ; q6 o" r* N ^9 f1 t/ y * This value is the agent's identifier.- u. ] D+ T3 }# n
* @field agentID 5 P9 }# u5 }- G *6 ^& k9 Y: O! ~ `$ @
*/ ) Z6 _/ u% E2 {: V9 z protected String agentID = "GasNode " + (agentIDCounter++) ; |4 ~; o/ _+ W7 J2 {* D/ E0 h# h4 ]' V. r; {
/** + s* J( ~# A" J; q% N) i6 k. d *1 s/ E; y, b. L2 c
* This is the step behavior.7 {& U6 B9 f2 `* Y# c
* @method step 0 ]7 u8 g4 i; m! k6 _ * # y, E$ A% i( T, w- K */! j- | ?5 z( t! M; {6 v
@Watch(% _2 T: S( G" N- x( ?
watcheeClassName = 'infrastructuredemo.GasNode', 7 M# N9 C+ ]3 J) E+ E8 Q; O% q$ C watcheeFieldNames = 'pressure', * i! z# l; _3 d1 S6 r2 L7 x query = 'linked_from', 5 K0 \1 c% a9 \+ e whenToTrigger = WatcherTriggerSchedule.LATER,2 Q6 ~2 }- d% d/ _; N
scheduleTriggerDelta = 10d) m, c/ F$ R5 _# R6 {1 L" L8 X
)* ~* S9 v( ~4 {1 ]( s; S; S
public def step(infrastructuredemo.GasNode watchedAgent) {0 c2 ] z2 _" r- _0 {
0 X2 x' m! ?; O a4 T0 R# c2 l$ c' l // Define the return value variable.) M, N% e$ H# d1 u
def returnValue 7 ^' G9 U' \. D( {; Q' P+ M 3 L4 k# V9 W1 U // Note the simulation time., _/ W" o S% R% i. d4 H
def time = GetTickCountInTimeUnits()# u3 A) o& k( b Z2 W7 W$ B
0 t y D" k0 T/ z+ m$ O/ l 0 N1 h' n- g4 l // This is an agent decision.3 Y; u2 r$ H9 U% {. i
if (watchedNode.pressure<200) {9 O4 i' q& m8 X% j! T Y, e! {
1 W" |6 N- v& |, _ // This is a task. , A- v' i! N; g) ^" q6 u. u# ] setPressure(watchedAgent.pressure) b+ r# S+ u) R& r$ p! h 4 A0 Y, m; y7 D* W } else {. H- y, l, _/ V9 F
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// Return the results. + q, u1 R5 {6 V8 o return returnValue) O( v6 ]0 c9 F( M5 D
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/** 6 I0 |: B6 u6 D9 Y" w0 ]$ Q6 X8 W. }* o * [6 a! ]- B& R: c3 e* _
* This is the step behavior.) n9 V7 v* `: j& A* S1 R- x
* @method step7 Q2 X. X: U$ ]" Y% n) i
* ) G) d) h8 n1 [+ c0 v */- K/ n) m& B# y6 H: y9 }6 c
@ScheduledMethod(4 [; f7 B# }+ x) G# m0 Y x) [
start = 1d,1 O5 B* Z/ R. ~' }
interval = 1d,7 Y( [( v g3 E5 h7 ^
shuffle = false8 B3 H }" i2 T9 C5 a8 ?/ _- T+ }
) 5 }9 r$ c9 X# Z" P- ? public void step() {8 V' q1 Y" o9 M, p
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// Note the simulation time. ) n. W# x, K* ~5 y5 T, X( X: T def time = GetTickCountInTimeUnits() V3 b. _/ d$ @, p & z! V4 V- Z) G6 U' D // This is a task. X; n2 G* F8 f, `: D( j3 P6 T measurePressure=pressure+ RandomDraw(-20.0, 20.0)% @3 ~% S* }5 r4 j* J, ~
// End the method. 0 M( a4 \2 K5 s- p return 6 E2 ^9 B5 W- L2 o+ X 5 I9 f8 G$ f5 S$ Z }
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发表于 2009-4-4 12:21:26
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