4 B% N5 O8 s6 w, M/ }- k /**+ P4 T# [$ G( R
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* This value is used to automatically generate agent identifiers. ; B+ J% ?/ {$ F' r * @field serialVersionUID 4 f6 n. B) I* }; \ * $ c* p; D; @2 B1 z' g7 J% c */ 6 ?4 h& U; v2 h; F3 M2 [- [ private static final long serialVersionUID = 1L& O( L7 s7 Y8 g
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* This value is used to automatically generate agent identifiers.6 \5 f$ l m7 `% ^, g' H. N
* @field agentIDCounter 4 S% U5 Q) |. }; X6 G * 9 x8 b3 T. [+ C& f; X */" U% z4 ^' I: z1 B. q! k& `* s& d
protected static long agentIDCounter = 1 + \ y1 I A. s. @. ]# b& Z9 `# w+ W! B
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* ' M$ {+ X- i. `" ^ * This value is the agent's identifier. 2 i G8 J. N7 C9 i: C1 f2 G& I * @field agentID ; y$ [5 I, H/ I *7 F7 _5 z, a3 Q# q+ ?: h
*/ 1 ^2 d8 [' M4 j7 l4 w+ A protected String agentID = "GasNode " + (agentIDCounter++)" K- a- N) h C# W; }% J. n
' U3 e* H2 i, w2 u$ j. ~ /** ' f0 s6 u( H9 G& \0 K1 O) x" h9 L) p * + h, a1 O3 ~2 a* C% T( I5 z * This is the step behavior.- z3 d$ A& u! h5 V; ^
* @method step$ u r1 K* I/ F3 U& J
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*/ 7 c. y) P" |3 r! i @Watch( 3 G1 O8 K9 s5 U3 r watcheeClassName = 'infrastructuredemo.GasNode',, W" ^) L: \" s4 G
watcheeFieldNames = 'pressure',2 c; e5 L8 O/ z' M6 w
query = 'linked_from',+ R1 K8 H9 O0 R3 R: U
whenToTrigger = WatcherTriggerSchedule.LATER, / Z, Y+ J. e. ^ scheduleTriggerDelta = 10d + V7 M+ U0 ^' V3 J ) : A* g& A; b$ { public def step(infrastructuredemo.GasNode watchedAgent) {6 Q" F; z ]- \' s; `6 S* V2 _
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// Define the return value variable. # S/ W7 T0 Y) b/ U1 J7 t+ F def returnValue/ M, |& Q/ `* f6 I7 A8 {$ M
: a0 X- Y. C- h // Note the simulation time.1 N: H& y- P6 {
def time = GetTickCountInTimeUnits()8 k5 C# z9 j* m! m3 S
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// This is an agent decision.( _+ [7 a5 b) I; m( [, g
if (watchedNode.pressure<200) {& w# @5 [ W7 P/ }
% x8 I* O6 H" d& ~2 J1 z5 n // This is a task. 7 @& u, e( M8 S% o- |4 X; b+ [5 M( y setPressure(watchedAgent.pressure) ! l8 ^" f0 F* H + L1 X% x0 N) U, e- J } else { U% B5 d, B) F& R% R" j
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// Return the results.9 P/ F& S E. \9 {; C
return returnValue # p8 C, x/ \4 @1 d7 { 8 H) a3 I! d! b4 Z$ x4 i( Q1 p } ( k# J7 E: M1 B. v6 A/ n6 v( b; N# g& T: S6 `
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* 6 Y7 q/ q1 Z3 O9 E5 n+ B* L * This is the step behavior. 5 _/ o6 R+ w9 s& y- ~. W1 s, ~ * @method step H/ A6 e1 u4 P' T" |
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@ScheduledMethod(3 s6 A: Q# U% n8 O# ]+ j" ]
start = 1d, ( J( T2 T- s+ C O8 p. l4 W interval = 1d,1 d7 P0 B# m# y
shuffle = false 8 d" f- A& U) D/ c3 x% M ) ; r1 g7 F: {5 q* X+ C# H% H( {6 E public void step() { " T" Q8 V K" c3 U& Q& w+ y) C + n9 W9 |; ~/ P0 y; W* G) ? g // Note the simulation time. m+ o; ]% P8 ^2 n6 ?
def time = GetTickCountInTimeUnits() 2 R: }: @+ {2 X, a+ P# z & ]. n/ Q. U! p+ z7 ~. B9 E3 F // This is a task.; [4 P: a; Y8 h6 H4 d' e: l
measurePressure=pressure+ RandomDraw(-20.0, 20.0) 1 H3 L9 d U, H# ]: i" o // End the method. * T4 `. G0 }, u return( C# X) [ z$ t/ X9 e. P% l
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发表于 2009-4-4 12:21:26
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