/ z( }* u$ Z. h- R % Z6 l1 D5 D. }2 K@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")( C' J+ D% l% a
public double getMeasured pressure() {1 R- c0 v0 }) @" v8 Q" Z" g
return measured pressure 4 B) d, l: c! K0 U }9 M/ R9 o, q% j+ S: Z
public void setMeasured pressure(double newValue) { 6 x0 k. A. T% }; r1 {! T measured pressure = newValue 4 L" B; t! _4 y/ I: G' }0 x: h } n! a2 ] r8 [: t& K% r
public double measured pressure = 0 / ^( C# M n; X; s3 l- N / j1 r3 g4 ]% }' a8 k /** + q4 f4 Q+ D [ *+ T9 b* w' Z: W' C( X
* This value is used to automatically generate agent identifiers. ( n T9 {' d- N6 k * @field serialVersionUID ' z* g/ D: o* c. J% M1 M * , O" ~4 {; E) y, R- D; h */* S8 o8 v, Z' D0 j9 L+ l
private static final long serialVersionUID = 1L $ w/ i }8 r/ @$ k- n6 h: ]3 u) e" t/ A8 i; Q. F& k
/**, u' S# ?- r" v! R' U& m6 `# w
* & A/ b; l- f1 Z6 o f * This value is used to automatically generate agent identifiers." R7 t* {9 |4 P0 R6 [# a* M
* @field agentIDCounter1 X+ b1 n& j2 g" M2 Z2 E
* 6 u; ]1 u7 G- [, r8 q/ m. @ */4 d/ ~* c. g- g$ ^0 g
protected static long agentIDCounter = 1" G. E% E7 p% Q" I! x, e
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/** j" \/ q. [( Q( u0 v* T * " {# P, y* t0 M: H+ C% F, U: ~ * This value is the agent's identifier. / \7 V Y5 u* _0 G& F * @field agentID 2 B* h ^! D) B4 O$ U% X *- t1 P" A' ~& p. i- Z1 v0 _! u
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protected String agentID = "GasNode " + (agentIDCounter++)+ q6 E% ]9 ?- I4 W7 F: ]
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/** - |- A$ `& C& ~+ K4 ` * " |! {, l' s" |: f * This is the step behavior.- M7 A: G! r0 _8 j, L5 C! X# c
* @method step ' I+ C1 p% U. e. F5 ?' _8 c * & f4 O. A0 p& y: O" [5 ` */ ) Z$ G; {0 U# N7 Q+ ^; L @Watch(! N$ }7 N3 m4 I# J
watcheeClassName = 'infrastructuredemo.GasNode', G/ {/ [, @* a% `( F) t
watcheeFieldNames = 'pressure', Z- x- F P3 V& [+ c. e
query = 'linked_from', # h8 i* m/ B$ J$ f* F' I whenToTrigger = WatcherTriggerSchedule.LATER,6 H; K5 { f3 S) n+ Q- L0 a
scheduleTriggerDelta = 10d, B/ K/ W4 ?" u3 b" I0 \ Z
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public def step(infrastructuredemo.GasNode watchedAgent) {, T! G* C$ u7 Y$ c0 m9 d+ v
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// Define the return value variable. ( l% X/ n% w& d$ C+ u; ?1 ~ def returnValue u R- e9 H; M: F* b- Y & F. \. J5 w0 [6 _; Z: p* w& n2 I8 M // Note the simulation time.* |( d% N+ y4 p
def time = GetTickCountInTimeUnits() 4 k8 C/ L' |& P! G" Z% n, d 0 z+ O) A+ E! B. Y3 {( p % x( V9 c1 L" J' n0 u; c6 c0 s // This is an agent decision.& }' [7 `! ]% {+ w! }7 i6 |' T
if (watchedNode.pressure<200) { ( `* {# q1 P' p, P8 c ! Y+ ^7 ?3 ]; Y8 N' M, S7 ~1 e8 c // This is a task. , a; y: O/ \, ^8 b7 J$ ~) c% y# R setPressure(watchedAgent.pressure) ; k/ {% r+ y4 x, _8 X; ?) w4 d& P1 }2 m. i5 K3 @
} else { " l& m$ }6 i0 G& [, g4 ^# R9 F / h3 j; G; K9 c/ M$ V# U% n' S( v' I6 K9 F7 r8 e
} . y# `: k: T6 T% [ // Return the results.# d1 ^7 i% ^0 p5 G) z. u
return returnValue / N; u7 }+ Q" O6 R0 U0 \, R! v$ T; N& L. q; U% Y6 o% F
} 4 [' p, s; X* Y/ R6 Q( w- V 8 w, W* L8 k* u0 s7 g; { /*** X/ s5 q4 x1 H. U# y( `% }* ?6 [5 w
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* This is the step behavior. ' a7 ^0 l. ~$ K" y' J! n: A! N * @method step 9 n, K W3 P( l. H! C * E O2 ]# K) p" a: Z- |
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@ScheduledMethod( - _3 b* l) D8 m5 H" ~. w4 z. f start = 1d, 3 s2 j6 A5 _/ p; n* O interval = 1d,8 ~) w+ e: A* v
shuffle = false 8 I% X+ k k; B; k6 r$ A, f9 d ) . W3 O* G& z p public void step() { . Y& D; v8 f- `& C3 ~- j* o9 X! r( m3 ~0 n) U, m; m
// Note the simulation time. & K1 H0 B9 ^+ p6 W5 J- t; p def time = GetTickCountInTimeUnits()% ?$ O! j. C$ n& f' |% A; v
4 ?# C+ z/ }2 x+ \% m" t // This is a task. # H7 F* v+ h8 C& f4 _, Q8 Q# k measurePressure=pressure+ RandomDraw(-20.0, 20.0)% I6 n) Z4 q9 w r
// End the method.- K) B+ o: X: F; ]4 O" Z) m$ j
return * P* v3 G, S, ?! L! C' }4 G . f. x& B0 @# K5 E. m# Q" i. z }
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发表于 2009-4-4 12:21:26
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