+ F/ B* _6 }8 _@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") C2 C5 J# Y% p: r* ~ public double getMeasured pressure() { C8 U. o* m9 J6 ]1 T8 [; k& L
return measured pressure* M4 s9 M0 w; B3 Y
} 7 k1 C3 Q. X7 l/ H public void setMeasured pressure(double newValue) { ) j* p, M6 f7 D C) V5 C measured pressure = newValue 7 S' k6 m+ E/ t } 6 |0 \% J; G; L' [" L( A1 [; T public double measured pressure = 08 I' [$ e- ^0 q
8 v; J. O: N9 m* T7 D /**. R; b- c" y: N0 W
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* This value is used to automatically generate agent identifiers. # \) M8 J# n. K, b( ~# M * @field serialVersionUID5 ^5 H& j& u: `, D& {
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private static final long serialVersionUID = 1L4 c3 m ?3 H. s1 |( U( w1 h
% [, y. ^6 ?" y1 Q9 h /** ! t1 l! l# V3 K7 g * ( T0 R' K2 X+ ?) }$ j4 |* d7 ? * This value is used to automatically generate agent identifiers. . }7 y& c" G) `# L. W& d) b * @field agentIDCounter8 Q6 S! |3 I2 u# F( w1 i9 }( S' d
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protected static long agentIDCounter = 1 ( G& P) s* Z+ q9 ~( C ' C9 b- E+ p8 Z4 C0 `9 {" S: T2 ] /**" V. |' x1 [; Y: t2 s- c+ o
* : j. H9 U/ M! t * This value is the agent's identifier.+ t S: E4 W- Q8 f; F
* @field agentID3 V8 {' @+ o: ]# Y6 E% u$ U
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protected String agentID = "GasNode " + (agentIDCounter++)2 M( F3 j, q# C) G
1 s4 q# ^+ K. X8 l0 S6 s /*** @, Q4 P4 l9 ]( Z% F1 a
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* This is the step behavior.5 h8 \& |2 r% ]0 M
* @method step ; Z# ]. ]4 n5 v( O4 b( I * % l+ w! V% c& }8 Y */ 2 u$ J5 A. Q5 q2 ]) ~+ n4 } @Watch( " Y) k& [' k9 k- V, ] watcheeClassName = 'infrastructuredemo.GasNode',; K7 c( G* y3 N6 X4 k
watcheeFieldNames = 'pressure', ' n3 K% F1 T) Q1 N query = 'linked_from',: Q9 T/ b" I* q. |, J8 {
whenToTrigger = WatcherTriggerSchedule.LATER, * E/ n# _7 R, d" e J scheduleTriggerDelta = 10d # j- h7 g h" C ] ) # Y9 \1 O0 `0 c public def step(infrastructuredemo.GasNode watchedAgent) {+ P7 L, v2 Q4 x# j9 I m
) Q) ^9 I+ \3 r/ l( ?) V // Define the return value variable. " @. s5 d2 L% L x; w1 c def returnValue# c) r" r# R- O3 `0 _! Y
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// Note the simulation time./ C2 `0 K% R* L0 ^ r7 e& m
def time = GetTickCountInTimeUnits(). M" ^3 W4 @: d: ?
& [2 R6 j: P1 D4 F( V% V; @- s4 u 9 ]7 n( |- ^3 H0 |9 j // This is an agent decision. - r8 \4 u/ Y* R; z if (watchedNode.pressure<200) { M6 e) v* |' H* _* w) j; b5 d
' w" c$ K2 {) r0 W% z // This is a task.3 G/ f1 I1 U: T7 ~6 w* t7 p- y- m
setPressure(watchedAgent.pressure) / G' { i0 D/ e& b1 w0 L8 S' C8 A9 R6 d3 `& {# @ t$ M
} else {% X! u- U$ D: O; p. i" J
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// Return the results.$ y" Z- w e# Y
return returnValue9 L: X! I& h4 S8 g; @: D! O
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/** , s8 H# ^+ r! X5 P- r2 |5 j" q *3 Y ~. a" Y3 W7 \
* This is the step behavior. $ i+ ~% P( l- f1 e! _2 F: t' E1 M * @method step" }1 \( V3 i1 T- n( d
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@ScheduledMethod( 0 ~. j6 H$ }, y$ R$ r! I start = 1d, * o4 x! Y9 f2 T7 u interval = 1d, ; L- L) e: c( h$ h shuffle = false9 h/ e( h W+ P2 `( C7 s
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public void step() {4 b3 M* B& Y5 D; R4 l
, A0 K m2 \. g // Note the simulation time.: m0 V; o6 y2 Y! Y @1 k% |
def time = GetTickCountInTimeUnits()+ r/ v4 J; p. r7 W y# x: s
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// This is a task.' Z# C& k0 g6 K/ V- d$ `9 \5 b
measurePressure=pressure+ RandomDraw(-20.0, 20.0)6 S8 |2 A% w4 `" N: {7 W- `0 Q8 x' f
// End the method. & v' L. B0 e3 e4 [1 f8 R) b: Y. P return, B U% H& a* z$ Q J _; a1 W1 N6 u
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发表于 2009-4-4 12:21:26
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