- n, G8 v' J& ^/ G /**& {6 x0 ?2 _: z2 k/ L; r
* 1 C3 [+ |% d" L4 x* v, i * This value is used to automatically generate agent identifiers. . w9 w) H) n! R * @field serialVersionUID* D6 Q+ f0 e1 _: B0 q. G/ n
* ! |( R T; j$ _ */9 A+ ?' m7 [# p) {
private static final long serialVersionUID = 1L! t5 i0 h4 ]+ B/ z6 @
8 |# L9 m7 S) D6 X /** - h. {0 D7 [& e8 ?" ^ * % ]9 {) C* t2 ~! Z$ W * This value is used to automatically generate agent identifiers. 1 R5 t% o& O6 |, l" Q& [: s * @field agentIDCounter 0 M9 Y8 G' o3 \. n# F0 |+ m7 f * 6 V+ C7 }* N" H */2 ^7 M+ P7 t) s' }
protected static long agentIDCounter = 1 * D' @' ~% ]! e/ d( x0 f6 n* D% R+ {5 @: O& x6 L7 _" q; a }
/** 3 N2 D9 U) `5 I5 d9 w3 s8 x * : n9 C9 W* h$ U* ^8 M$ W * This value is the agent's identifier.* Z2 A! {. |7 J0 I; E
* @field agentID# C4 P" f: H6 w7 |/ w4 t3 S
* G" U# u5 N2 ~1 B. X7 ~7 r- c; p( |4 R */" A' n3 @" z( c7 k# m
protected String agentID = "GasNode " + (agentIDCounter++) 2 p$ h( a, \" s( B 9 s1 `2 e$ {1 r /**+ d' N# ~+ n+ a1 h" @- [) o+ Z5 s
* " T$ J/ t* L ]' G * This is the step behavior./ d: z P0 Q! P- r% b! ^
* @method step1 X# s$ o X( {! K) G& }4 B% V& P
* v; @% f" M' Z$ U$ i+ D
*/ ) b0 \: W0 `1 S5 X' d% U4 m; U* R @Watch(4 p8 h% V/ c5 l
watcheeClassName = 'infrastructuredemo.GasNode', 6 ]8 f) g% `& m. E8 c3 r watcheeFieldNames = 'pressure',+ Q |, C. t+ X
query = 'linked_from', 5 T- O$ j2 i1 s, M& J) @ whenToTrigger = WatcherTriggerSchedule.LATER,! @7 q6 g8 J8 ]& M
scheduleTriggerDelta = 10d , ^0 @$ {0 w; a) w4 G' W )7 m" c- w7 T' `
public def step(infrastructuredemo.GasNode watchedAgent) {: N, M5 ^7 j4 F. ~
; R* I3 Y/ a: V `. a" H // Define the return value variable. ; J* j: v3 M- ?$ K def returnValue* g; t( H m# y- T
7 y8 G7 W3 n, Q/ L2 ~
// Note the simulation time. 9 a/ r( _& v' ?+ v$ o- L2 D def time = GetTickCountInTimeUnits() I$ [' d$ B: ]2 v# P3 t5 u o2 _1 K3 v
% Z3 Z: h# Q/ B* c5 P) A6 u
// This is an agent decision.9 Y4 \+ d7 p! ~* Q3 z, D2 Y* S( m
if (watchedNode.pressure<200) {$ g) D$ Q4 R4 n7 O8 y
5 h3 B3 [" o( ^ // This is a task." H9 N& Y5 l m) T* y; k" G8 h
setPressure(watchedAgent.pressure) 7 A3 j8 o3 o) i3 A) ^5 d1 X: _ : R" I* |; ]! Q* B } else { T1 h! H* d& C& |2 f5 j9 T" F9 e; O. A' u% F4 b' i
7 ^, `; ?# A( q$ E4 H* x }. m# t) D5 @( R0 y
// Return the results. 6 R8 Z6 ~; R7 i, ^ return returnValue / w2 [; k7 E8 R# n0 d s+ t- { w% A& W$ x8 E5 \, V
}/ F, e4 ]7 b. [9 h2 ^5 E
) [! f# Q0 {& {: r /** * B2 B+ p; A. }- v! ? * 3 o' q2 v1 |9 |+ F, O * This is the step behavior.: F! x7 S1 `' }- Q' L/ ~
* @method step 2 X- R- L' u. H* v *1 z7 x, F: m3 r4 y* V0 `5 K; ?
*/ 9 n( k$ q# u1 B. N( l0 L @ScheduledMethod(2 `4 r; j: o! b
start = 1d,5 J" L( H8 K/ f& |/ ^
interval = 1d,2 l. S( p, p1 v
shuffle = false ! R. I W6 ?: k+ h# v" j4 R+ [ ) ; w" r1 S% }& i1 h5 N% L public void step() {2 V& A/ V8 P0 v
" ~0 X# k9 E6 N W, J4 _# ] // Note the simulation time.* \1 X- p( o$ h
def time = GetTickCountInTimeUnits() # v, e0 F, j5 S4 a4 [$ f0 H4 F" L. |) a4 _
// This is a task. * K9 `% L$ @/ x X- i, p0 W' v measurePressure=pressure+ RandomDraw(-20.0, 20.0) , J1 U- f2 X2 C7 ~: a( f0 d2 t // End the method.% O$ u# I0 \* x4 {
return9 A% \7 [' T6 _8 y: e3 J$ _0 s
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发表于 2009-4-4 12:21:26
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