+ H8 F8 q9 z7 E" o, {@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")( ~; _5 F" \ A& L' d
public double getMeasured pressure() { : Q7 [3 J) R( d+ y, L; V6 j return measured pressure/ O4 P4 |9 W, @; m
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public void setMeasured pressure(double newValue) {/ b" O: D2 G3 N( T
measured pressure = newValue 5 S+ v$ e$ D4 e! A# i5 a } 1 k! i4 R# F8 o2 Z public double measured pressure = 0! c1 K1 a1 |; Q
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/** + `8 {6 P3 R! A *1 {' u: i$ b+ E; o* d4 d5 V
* This value is used to automatically generate agent identifiers. & t8 D5 ^ I3 A+ a# ^3 l& g: ^ * @field serialVersionUID k9 A' r: Q2 _# o' B( C * 1 A; ], H0 @1 N6 G M */ * W* ?$ C, Z7 _1 _ private static final long serialVersionUID = 1L / a6 v) k+ B* [# D M9 N6 N3 p. K
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* This value is used to automatically generate agent identifiers. . i) I; m& D# C' S4 j" U * @field agentIDCounter ' R# Y N4 `8 E0 {( w * / o/ x) A. N! p1 o% B9 t. h. o: e5 _ */8 d! ^! E$ O4 z/ }+ ~, `0 \0 W
protected static long agentIDCounter = 1. {5 H7 k, r& P2 I9 ?
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/**+ g! z3 X$ C4 Y
* ! ]- u) G" _& Y) i- } * This value is the agent's identifier. 6 [+ P# E' U' R * @field agentID & s' O6 k; ?# t3 z' e3 _ *) j& u6 i% M8 d# `
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protected String agentID = "GasNode " + (agentIDCounter++)$ s5 n9 }: i/ y' f2 z
" k. ]0 {; E1 X& Y /**3 ]8 N# |, U. i% b8 `% _9 Y+ r
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* This is the step behavior.4 m( b& G) B% e
* @method step: z' g5 w6 i: N/ e0 Q" Y
* 6 X, _. O* p6 X8 i) q */ # q6 \9 e" t$ O# _ @Watch( # B% {* [3 m0 u; C7 n& | watcheeClassName = 'infrastructuredemo.GasNode', % O2 j3 l- B+ S* f# k2 Y watcheeFieldNames = 'pressure', 8 P5 e9 s9 }: U; v: L/ c- E% }4 g query = 'linked_from', 3 g1 y5 b! w5 H ? whenToTrigger = WatcherTriggerSchedule.LATER, ; B" m* L/ b% K _* T3 z B scheduleTriggerDelta = 10d ; X! I4 Q! A( P. A! o ) 7 e8 A5 ?4 f+ o: Q' ^ public def step(infrastructuredemo.GasNode watchedAgent) { 3 {& g/ f B. i5 h5 ~+ ~ . e+ V+ l& H5 }' P0 ]4 t // Define the return value variable. 6 V3 p- i7 {' H6 O) c" x def returnValue 4 M5 h- ~" b6 j% x r3 t / q* i4 X+ |! t. Y0 N // Note the simulation time. ' l' j9 z8 Q6 P5 P" T def time = GetTickCountInTimeUnits() ( M4 u7 B5 r A5 Q' G7 z# W+ t2 r1 ^" G/ r, L
8 x+ z* s' O; z. ] // This is an agent decision. 1 p2 n9 F# U$ R/ U. A$ v if (watchedNode.pressure<200) {9 N2 ?: C6 _# z7 K" m0 a5 y# T
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// This is a task. 8 J) P, O- t# d) [ setPressure(watchedAgent.pressure) $ j7 @$ [ U, q" d) f ! d: u5 w1 W( A+ n } else {+ K/ O! ` l, Z4 P4 I6 h0 \; B
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// Return the results.6 J9 g, v* H+ D) t* h- u+ |9 x3 L* l
return returnValue' Z5 s% m* n0 l/ _( T
; |: Z; M9 H- H/ O% m } 3 m. B3 p; ~3 S' a2 e% F / V7 P. @5 P; ^9 a5 T0 S0 j" u# _. v /** & o- ~& d7 \8 a' l u *0 a0 r7 o, V! a2 v3 R7 k* h
* This is the step behavior." X2 m- f9 G( R* O
* @method step % _. c) e! e1 }4 v# D7 `8 \ *& G- {2 G- X! G" ^' k
*/ 1 q `) E9 p- Y1 L# T @ScheduledMethod(" K8 O2 ]/ `* N0 |2 k
start = 1d,1 i& K4 q5 D; o. b4 h# h
interval = 1d," k7 [% i% Q( A( h$ B
shuffle = false4 c, e" ^1 O' o7 B9 f" T- N
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public void step() { ) r( `8 o9 P" ]4 R) S9 l: U0 F V. b2 C5 J. _/ J# ~
// Note the simulation time. * q( [0 Q- [0 @! o2 a! k2 s, P def time = GetTickCountInTimeUnits()9 ]! J i# k! _$ V: d
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// This is a task. 6 I7 z+ y; U3 ?- I+ i measurePressure=pressure+ RandomDraw(-20.0, 20.0) % q5 D L# }$ P' l0 k& V // End the method. $ u( I7 D9 x$ ?4 t5 g# S return : r, z2 @; n9 m8 x: d! f) y7 k2 O+ _0 D
}
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发表于 2009-4-4 12:21:26
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