- j) d& R2 a0 l; b@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") $ v8 _8 k m: R& |3 W, R# v public double getMeasured pressure() { ) | ?, z% c# }! {# U: r* G return measured pressure 8 `- ?3 B+ U! z* E) B& s' s% ? }" u/ f1 H* k6 l6 `
public void setMeasured pressure(double newValue) {8 r4 S7 O% P5 B* q0 S( {# E
measured pressure = newValue$ _: E+ \7 v3 G3 J r* Z! ^1 L; ^, P
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public double measured pressure = 0 ' y4 O0 e4 f, D* q1 I# X* [; b4 H$ ~! L; D6 A `7 D: P
/** % {$ x4 t; B# C! Z *, M( y5 h( L8 M( W1 s
* This value is used to automatically generate agent identifiers.: x2 f# M W M! k" r
* @field serialVersionUID* u# F- K) C" \* y2 T8 K* E" N
*4 p, b) q5 u4 d# o2 d' C' J
*/6 Z3 w9 k* a6 R N& D9 A: f' s
private static final long serialVersionUID = 1L # r& J" K0 ^6 j1 {/ W( S# A3 o* q, b9 n. x
/** 5 i/ w1 _& m& F" q6 { * & R6 b) q9 m; V" W7 q- _/ v; w * This value is used to automatically generate agent identifiers.: c2 a& e- X$ M) U, M
* @field agentIDCounter % [5 E/ ~4 D+ K% F% G *; d& D# D2 V, B5 n3 m7 ?
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protected static long agentIDCounter = 1# G+ ~8 v: H+ R& b7 H: p
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/** . N- ?8 J2 W! T5 d2 z, K *" x1 K D( x" S) ]8 d5 j. e0 S
* This value is the agent's identifier.* @: V2 A5 m) L7 D" R A
* @field agentID! a. a" g5 s |5 I6 X1 e
* : s# \$ F2 O+ E1 ?* G$ Y */% y; V# m* t# A
protected String agentID = "GasNode " + (agentIDCounter++)' m0 [! l0 A1 k' |7 M. ] S
4 `' k2 z+ D6 [( s& Z4 a; Z( S /**! y; t: h; l' D" d2 s2 H
*0 ]2 L- m2 N# ?. z% {
* This is the step behavior.; `) b# `- {5 a/ K9 H8 Y
* @method step ) e% f1 W1 [! h( U: p * 4 X; v9 \' Z1 c6 L5 ]* p */$ I o8 w; [# y& B7 ]
@Watch(/ C x4 y- y- e9 j+ B. g* g
watcheeClassName = 'infrastructuredemo.GasNode',8 L- Y& M' M6 M) u2 o0 g
watcheeFieldNames = 'pressure',8 r+ r$ D6 m: V3 L
query = 'linked_from',3 q0 d% L* x; e' ]* h- A
whenToTrigger = WatcherTriggerSchedule.LATER, 1 v: b/ ^; l O& }% L P- H scheduleTriggerDelta = 10d + g" B! q; r$ Y* {3 h7 b ) # V! @7 U- V6 q* U public def step(infrastructuredemo.GasNode watchedAgent) {' S' c( i T# D+ L
* [6 g) Y1 Z+ l // Define the return value variable. ( ?! V- U: Z# W6 V def returnValue1 j9 D* C) x4 A3 M! o; m
' D# f' e7 d8 a& _* ^8 q3 H // Note the simulation time. $ _0 Z/ h! j* k- Y6 d def time = GetTickCountInTimeUnits()3 G7 r+ G0 {( ]5 A6 r, f
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// This is an agent decision.% d9 L8 U0 N J: n
if (watchedNode.pressure<200) {" Y* U$ f8 k( F5 _) }# H
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// This is a task. ! I3 W' C% g7 j2 z setPressure(watchedAgent.pressure)& L5 n1 N9 y F$ [
8 @' X/ p& ?3 I- z; k2 T/ i } else { + l3 l+ Z/ V4 n y+ B9 O7 G2 d! s# z( H# _ 7 @$ \9 m0 E+ D1 K1 l, Y/ j- }; s# z! ]% B& ]& z6 o: s8 ~$ i# S4 W
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// Return the results.* E* f7 S6 i$ [
return returnValue ) J M" Z0 Y& `1 D4 Y- V7 r/ t2 s& x: N; a2 J) m
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/** # G, x# D# ?; D, c8 f0 e ** G( [7 V* ]: P' Q* W& Z
* This is the step behavior.5 U$ [" L: G1 }' ]" j9 t
* @method step9 `: t; e. Z+ W& k3 g
*) U! Q7 }8 K% O/ i
*/! n) b. _: Y$ Z: W' f
@ScheduledMethod( 4 b4 J( f- C" G4 ^ start = 1d, . e& s7 T# I. N7 B interval = 1d,9 o4 a4 N: T" z6 V( v0 G' A* a& z
shuffle = false1 }4 |. u/ v( A. k* ~
) " v0 m2 p! S5 Q public void step() { * U# T0 u9 ^$ m9 ~' t ) p) Q' r6 g4 v0 g6 X; r // Note the simulation time. / g, y* j1 u1 P, e D def time = GetTickCountInTimeUnits()6 u& {2 Y& B2 D0 B9 o3 H R& Q- {" @
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// This is a task. 9 L( ? x+ Y2 |. L- \) x( I8 `( t measurePressure=pressure+ RandomDraw(-20.0, 20.0) 6 p6 \4 s% C+ }+ ]( z8 g$ o // End the method.* K" G" L2 I; t% d! d8 ?# a# E; Q
return / N$ g2 R: B" ~4 h, x+ m : ]3 j6 E$ F* q9 s }
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发表于 2009-4-4 12:21:26
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