( I6 q9 N9 m4 M' a5 j@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")4 A& D7 B+ V/ B: q" A, x
public double getMeasured pressure() { 9 h3 L8 R, t8 R0 H return measured pressure 0 N1 L/ y8 M3 q3 h% [4 ]$ t7 E } + \9 W+ a7 X* K* M x public void setMeasured pressure(double newValue) {. |. w# L! B X
measured pressure = newValue; o) c! ?- Q( m1 H, [3 W9 g- C
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public double measured pressure = 0 0 ]( E6 L0 B9 B9 m6 k* ^! Y9 J2 ~/ e4 {7 T7 A5 s
/**: B4 s% q" e# Q
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* This value is used to automatically generate agent identifiers. / n) e, q# o$ R1 q( u) d, g * @field serialVersionUID3 ?! J5 ]9 K+ [( W/ I& E; ^+ M# p
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*/ : V2 y0 D' l: b% x' }; z* ]$ L private static final long serialVersionUID = 1L( d3 i. w1 ?' M/ P
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/** , M$ Q1 M u8 y7 ~" A {# Z/ C% r * . g8 J/ H- N3 P/ w8 W * This value is used to automatically generate agent identifiers.' F6 ?' ?$ R4 t# @) }
* @field agentIDCounter% `! u2 x, Y# a
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protected static long agentIDCounter = 1 : c8 o* z9 z# }* x: p3 T& I! D7 l, M" x& m, K
/** # v- K Z% Q; c! E% R * & U- q. a. a8 V% @# D0 a * This value is the agent's identifier. g& a6 E3 e5 A0 U * @field agentID0 N& T/ O+ [7 [2 [ h# U2 M
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protected String agentID = "GasNode " + (agentIDCounter++); [! M( g% }8 x; v
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/** : V1 A X7 j1 X7 n6 s * 7 \0 _4 _+ k5 _- o * This is the step behavior. 8 ?2 N7 m$ }7 x * @method step" z9 U0 p0 `4 v3 [ [
* - }0 A& }/ T i$ e, r. y& i) L0 g */ ( Q' r7 l7 ~" ^. l" [/ F! D# X1 o# @ @Watch( , [+ S4 N7 x$ y' U watcheeClassName = 'infrastructuredemo.GasNode',% l+ q+ ^8 f5 e0 P# a
watcheeFieldNames = 'pressure',( P! y! L8 Z! q5 k5 N3 l3 y% ?
query = 'linked_from', ! B c) N( `/ q" Z whenToTrigger = WatcherTriggerSchedule.LATER,8 ]4 u7 b: w5 e5 n. c+ V
scheduleTriggerDelta = 10d# H3 |2 P) [8 N) d
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public def step(infrastructuredemo.GasNode watchedAgent) { 0 v- _- B$ I4 A8 v0 Y% P9 w3 ~( ^" G( l$ ]" H- L3 j
// Define the return value variable. 5 t8 l, k0 o! H' a& Q def returnValue , I# J# f7 Y% }* V6 m: }( {9 Z( I( T1 u6 k4 ]+ F+ J
// Note the simulation time.+ V7 r) s2 d) W6 S) a" K* V9 A e
def time = GetTickCountInTimeUnits() 2 u+ X6 d- [6 W$ j. S6 C* |. @$ z% R
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// This is an agent decision. 6 m" I% l- x1 P3 B L- n: v if (watchedNode.pressure<200) { M# \ @5 C- s/ t7 C K
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// This is a task. + g& K" r, S' [ setPressure(watchedAgent.pressure)! @) ]0 s/ y9 C ?- C4 H
1 @+ d. O3 m8 e6 | } else {0 `8 i0 m7 i. m4 o+ [0 w( }7 j& t1 z
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// Return the results. 2 g* w0 q/ q5 j( b! _ return returnValue $ [- n! w8 ^* ]0 `# U7 z7 l2 `' Y: |* i) N
} 3 w3 g( b0 M! o" V 4 v& `+ u) P2 w0 B /**' z7 F* h$ `. `
* 6 Q6 y# Z$ R4 y" R$ V+ ~/ F, x * This is the step behavior. ( `! o1 v$ @# l( B2 z9 h2 j * @method step ! A8 O3 d- G) V1 o" Y4 q9 @" h *) x' ~% A% F; M% t3 j4 y0 e
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@ScheduledMethod( / U5 V" |$ G8 {# `0 F6 ~' `8 H9 r start = 1d,# z7 `$ y, Z9 z8 H; \5 R1 @
interval = 1d, : e$ v/ N$ G3 g shuffle = false' e s6 E' n& y: ^& y6 G/ m2 M# ~
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public void step() { 0 f+ m. t+ Q( A: a - i6 |/ c4 _4 j& g+ C, E // Note the simulation time. , z1 G1 Z; |; r) a8 s* U def time = GetTickCountInTimeUnits()4 x, m1 n6 ^! |8 [0 T
8 B6 W8 ]/ o1 n% i // This is a task. 0 s, N0 f* i4 |9 D) h$ P1 | measurePressure=pressure+ RandomDraw(-20.0, 20.0) t/ j9 C- B3 S6 U8 Q6 |
// End the method.% t' S n8 S' I; E" U; v
return 8 X( |, ]/ O5 I" X 1 y, R4 h: n' n }
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发表于 2009-4-4 12:21:26
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