- a+ r. [; j8 U# |6 ~@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")9 a2 H# G$ A. g( t3 o' h
public double getMeasured pressure() {9 ^) n y9 V- F( n' v- @7 q
return measured pressure2 U. R% Z& b1 |& f* w# Q2 W0 P
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public void setMeasured pressure(double newValue) {3 |" w( y6 D$ }! X% z
measured pressure = newValue ( X% p- E$ E6 Y" p } 6 O; v$ T* H) Y! W6 F V8 k public double measured pressure = 0, Z7 [7 [% `! q% S, d5 m/ j- h
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/** & M9 D8 P0 w2 B# e0 Y *" f# J: ?; E3 k9 Q6 d# z
* This value is used to automatically generate agent identifiers.* V( p8 R+ v" T& Z5 h
* @field serialVersionUID 1 L. I/ c5 C A; {+ a *( Z6 G: m7 q0 _' G5 Z5 k( ?8 Y, F
*/! d5 Y2 N9 h4 j* [! x
private static final long serialVersionUID = 1L% V* ^9 a: [- ]/ m) D5 a
, J; ~, c8 c2 U2 F /** 5 }) N+ {* g$ l5 ~ * & C- g* `( f5 q- J+ n V * This value is used to automatically generate agent identifiers. 4 C7 {* ~4 J( g3 i* `) P, b * @field agentIDCounter 5 U1 Z& Z8 W( T* x3 _% ^% z8 l& K *% V9 y2 ^9 k6 ?; ?8 S
*/ " J5 O3 b) Y+ z1 X3 r protected static long agentIDCounter = 1 1 K# g: C8 I0 c) T5 i6 M1 V6 _6 I/ x: |# U
/** 3 y/ z |) P& Z! F+ b *3 D) g( u) m2 e* C" r* f: P
* This value is the agent's identifier. A8 O* V8 E* S' f) X; {" Q
* @field agentID , y( w* O: G4 z+ Y *- P P1 k: K2 {4 \/ q
*/ ) {. ~' L+ P# ^) g8 f protected String agentID = "GasNode " + (agentIDCounter++) 7 c+ H$ c8 C- J# O; c$ `0 G8 R3 H2 {/ [' u7 \4 t8 i9 K
/** * K2 T" I/ P0 I, p( ] *7 o. e% g* b3 m+ O9 N
* This is the step behavior.% |* Y1 k9 u: L/ ~+ q
* @method step * z( }6 \; r0 [9 E8 m6 T3 | *) l9 H* I* n. b5 P* `
*/ 7 A" r$ h4 m m0 L6 f* c, {" L @Watch( ( R$ ]0 [4 }& @/ T* [8 L" r8 F2 D# y watcheeClassName = 'infrastructuredemo.GasNode', , B0 l {% O4 ~1 c1 O watcheeFieldNames = 'pressure', , E6 Q. j2 ~6 c6 f; Z6 V, d query = 'linked_from',2 d8 }+ Z1 V! w& U \8 J
whenToTrigger = WatcherTriggerSchedule.LATER,# L/ y+ e4 X3 l) [
scheduleTriggerDelta = 10d$ a; V! R0 o' \" F1 H' U
) / ^1 @( g, Q8 U public def step(infrastructuredemo.GasNode watchedAgent) {2 r j$ V; F8 E" U. @
) ^; I3 \1 T. p- F
// Define the return value variable. t) a9 r; k* @3 M' d- B2 k def returnValue ( P. e0 n y: H9 D# X 7 b6 O1 M, p0 K# D' Z1 r2 H // Note the simulation time.- c9 U$ I) U) n9 X9 k( r
def time = GetTickCountInTimeUnits() ! c- _" }) l- b- W( `1 r0 ^0 c. r% D1 _' v% x
5 |+ O0 N. G5 M Z' t // This is an agent decision. " q7 B, O& @) @" j4 i8 m' o0 w) c if (watchedNode.pressure<200) { 4 S7 I! k! j/ G8 l: s# H" V( v% u6 U* M
// This is a task. # D- ^# Z$ U2 I9 C4 o' m setPressure(watchedAgent.pressure)# `& ~" L2 q0 s0 M
. q; h% b$ r u' Q& u: F# U } else { 2 e0 G: L' ^6 E$ s! E & _2 I6 i, R* C: B& Q$ I- x4 F* l - F5 G0 D1 I7 S* P' T2 b } : \9 z9 M: {- N+ R1 [ // Return the results.) }1 L& G0 ~, k! p) |
return returnValue) B5 L/ d9 b9 X
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} : t9 m3 ~2 n/ a6 u # A* t: T0 a6 L, T /**8 m7 T0 B3 `8 |2 w+ j- _' e
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* This is the step behavior.6 ?- j2 `% D% z, Y
* @method step * V- o2 j, v1 K: J! |6 x5 ?( Z * 8 C; Q0 g/ P7 A; ^+ U */3 p0 _7 ^0 g; r1 e/ y0 F* ^
@ScheduledMethod( , y# S: B( C5 K( { start = 1d, . p6 l: h u7 ?1 I. P! q interval = 1d, " Z: B0 A4 L/ {: A. F1 v3 J% U shuffle = false- e% @( v4 x- B9 X1 ?: C7 x% C- X3 U
)/ q }! x4 N! b; i6 n
public void step() { 6 n& o- s# N9 t3 V$ O 8 ]# D* C% X% @# J- B$ ?7 o // Note the simulation time.1 X% I( ^9 p# N
def time = GetTickCountInTimeUnits() - `+ T3 C* R% c. Z ) w1 C. K9 r+ P ~) q // This is a task. ' u* K2 `5 j, t4 V' Q measurePressure=pressure+ RandomDraw(-20.0, 20.0) 8 a/ v$ P' X B9 j! B // End the method. 7 ~8 v) d. q# f! W: _* ~" p return / u' L. h" `; k( G1 R% z/ T3 @+ B7 a a8 o& d
}
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发表于 2009-4-4 12:21:26
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