1 ~0 e% f( y% x# Y@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")4 r# k" y0 B0 K) D
public double getMeasured pressure() { , I+ d* J0 m' p1 u2 K return measured pressure1 x6 _' e+ I) l3 Z0 S/ j. h
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public void setMeasured pressure(double newValue) {& O0 l2 K: F' }# a1 ^. ^: ?: p6 E
measured pressure = newValue 8 c B% u/ Q4 a }- x, I8 p! `4 q# {
public double measured pressure = 0& E2 \* ^( x- D- k1 B }
7 C. s9 K: g( S, `/ |8 L /**& ?# C5 ^7 h- l! P, g" m
* ( h O4 J$ ?! I$ P* Z, q * This value is used to automatically generate agent identifiers.) D0 Q; N7 A2 U. }+ H( A2 j% ?
* @field serialVersionUID/ n& C1 l) r2 M+ u" s$ |! B
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*/ ~1 g8 N0 d/ t2 `5 n/ } private static final long serialVersionUID = 1L ; H, ?; l/ y( M3 t6 m4 t# p8 {6 x4 l: j" t
/**$ ^9 q9 j* X: ^' j6 z
* # W2 @- G" X6 e * This value is used to automatically generate agent identifiers. V+ A0 u! n, q- h; s+ N. I
* @field agentIDCounter4 l$ I6 ]) z8 `' J% [0 S! m, i. b
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*/ + ]* j1 p) L% U5 ~7 N3 Y1 o protected static long agentIDCounter = 1 # D5 Q' ?9 H1 o5 W2 T" ]* R* Q3 K" K6 ^% t$ C) k q% d* Y
/** + y" S/ o( x1 K. K ** x+ U5 `6 H$ v5 ]% x2 t+ n3 A, Y
* This value is the agent's identifier. 3 w# i0 m0 L7 V$ q7 Q X. R * @field agentID 2 s5 t) j1 F! l) E9 _5 r *; G! b0 y$ v9 G0 y6 g- a
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protected String agentID = "GasNode " + (agentIDCounter++)( P2 C, w1 k4 P5 d
: \) V8 |. Y% g, n /**3 C/ v0 {9 ?$ C9 y9 I
* + `& S* n# ~" l% X! r1 o * This is the step behavior.7 P) J2 y! f1 v% [
* @method step 0 {0 E7 K: b4 ~- u *& f7 @1 K# \/ A2 t
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@Watch( " ~( U* s* W5 m4 q. F0 Z V6 v watcheeClassName = 'infrastructuredemo.GasNode',: N$ P$ e( l" n0 t3 T! T3 C+ v
watcheeFieldNames = 'pressure',' f; U/ Y' e7 z1 N1 W0 A
query = 'linked_from',% d7 q% h8 [/ H; k& T% y/ P: h
whenToTrigger = WatcherTriggerSchedule.LATER,- A. K( m5 }: Q
scheduleTriggerDelta = 10d V% ?7 e5 _% k) m+ w$ s ) $ ]$ R' e. T: h# |& m( O! Y public def step(infrastructuredemo.GasNode watchedAgent) { 8 N- {; N2 v/ S: e1 Y : z; Z3 G5 b9 Y( a$ J q. q // Define the return value variable. . Y) D I7 x! J def returnValue 2 J$ }. |% m: Y/ Q, m# c, y. Y, `. i0 K: K& b z
// Note the simulation time. 2 j1 y0 l# i( \ b9 j# e+ V( U7 [ def time = GetTickCountInTimeUnits(): S; |: @# E/ r9 g& b6 |% a
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) Z& @- n% h) J: J! N ^ // This is an agent decision. 7 O3 S/ T. v1 L) X if (watchedNode.pressure<200) {# ]1 K! C9 {; a9 H8 L" y
8 k; u6 `4 @3 ~8 p. ] // This is a task. p) u8 [: c5 O w! \5 Y
setPressure(watchedAgent.pressure) - `5 m% q: r' U5 A; e( z& s" a2 T; A' |0 O% x
} else {" W q6 d+ a3 R+ J
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// Return the results. ' P0 O3 s% \2 v return returnValue : Q8 _5 E% Q; u5 B) |. }2 o1 r3 l, X; [
} . r5 a' u; V: U8 P: m, C) Q ; K h$ E/ l( o6 B/ D- p /** 6 l) q. ]# N; m; A4 G* }: J * # [! Q- d1 L3 p, r" H * This is the step behavior. / a* x% l! T# l6 P+ }/ m * @method step " p# d: n7 Q% {& C$ c( d! s1 n *5 l( L" H: _* L
*/ 9 [ k! K0 [! U0 k, ` @ScheduledMethod( 1 D" |1 ?# n% N! U. B( l( V. D start = 1d, ( I0 H/ t) h: d. n E; J interval = 1d,; B# x# @# F6 b4 g6 {
shuffle = false / ], T3 i9 L. `& J& c6 d% y )9 J: K& z- I) N2 p4 `: k2 p
public void step() {" C- }8 f: r/ p. }
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// Note the simulation time. # O: I5 N9 D3 m: ?! Z3 u- X def time = GetTickCountInTimeUnits()4 C! P( z8 K$ j% K2 P
$ k; p- d* ^. d' f" O7 X0 P // This is a task.4 H5 O. m3 f! H o+ F4 E' _
measurePressure=pressure+ RandomDraw(-20.0, 20.0)4 b, f* h5 X$ i$ V" Y6 ^( ^% y \
// End the method.' E0 P4 w- G7 n3 E9 P. x
return ; b: W) ~: w7 U2 ^2 ~ O, F9 U9 `1 [5 h/ t! U
}
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发表于 2009-4-4 12:21:26
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