" d% Y" M3 L& j: S: y$ X9 ~@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") : A, r4 e/ b( x4 [+ k8 R* q$ T public double getMeasured pressure() {8 f' Y1 i- x1 U! X7 [! ~5 Y
return measured pressure( ~6 N, }# T9 v, w6 @
} 1 \2 A! T0 h$ k0 R public void setMeasured pressure(double newValue) { 2 z3 N3 _# h! v4 ~4 Y7 f measured pressure = newValue" J0 x- r' e. h- {6 W( h+ H
} : T, f! ?+ C% M( Z public double measured pressure = 0 ! I. X& W$ i/ p2 _+ M 0 w' i4 \% X2 z9 D /**: ~* X) K3 H) \
* 2 o* p4 {7 M* [9 O% F * This value is used to automatically generate agent identifiers. ; S& S8 S1 G! {2 l * @field serialVersionUID$ s! h" E6 }1 I O0 i ~
* - n6 @; c$ d) W( R4 |. R */$ M( t/ A2 ?4 T; h6 i. k- y
private static final long serialVersionUID = 1L0 D$ B2 j% [: E+ n s! [
, l# w8 t/ O1 P6 m /**' i0 `- U3 i4 @/ k
* 1 O# ?9 n* V8 Z. Y * This value is used to automatically generate agent identifiers. # O8 \0 A* U" B * @field agentIDCounter 6 x4 b9 [2 b8 C- w# a7 e * ' D1 [& {; I- J7 A3 o */ - ~4 t$ b# [) _/ F( ^& t protected static long agentIDCounter = 1 4 S. x6 W7 f" [& z) r4 I: s+ l' {2 W9 l: V6 A/ i {
/**+ i, O% R5 t9 g# h( Z0 s
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* This value is the agent's identifier. ) b1 n' T3 _5 E! c * @field agentID 0 G$ |6 a# ]+ _1 v/ n4 G * : ]; l& c& `# D3 [5 o/ f* [4 C7 A */ / E( M3 e4 N2 c6 U. T# i protected String agentID = "GasNode " + (agentIDCounter++) ' z. j+ c0 A% {# b7 h 5 q4 X; a) D9 }/ p) }) J /** 2 ~9 `* E l i* A9 w. I *' U% ?! F9 I4 @
* This is the step behavior. 7 y7 N$ z. X$ g+ l7 p8 r1 q * @method step N+ h. H3 b ]
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*/2 P8 U; V, \; \0 U* `, ]9 n
@Watch(1 |# G5 j( Q$ Z
watcheeClassName = 'infrastructuredemo.GasNode', 7 D0 {& E& H; E! o# N+ i! M/ F5 g watcheeFieldNames = 'pressure',+ W# r/ M$ \: I' w- b m/ O
query = 'linked_from', ; K+ E; j; ~% A1 ^8 q whenToTrigger = WatcherTriggerSchedule.LATER,! X5 R5 L' i( u2 N# S- M3 c
scheduleTriggerDelta = 10d % |+ Z5 _8 P0 j ) % ]8 G& K. P+ b/ h public def step(infrastructuredemo.GasNode watchedAgent) {, v5 N) P# K, X" B/ G, s
1 }( b' y# i" h2 w' G' N2 F: S! U // Define the return value variable.- _# f0 j! i5 |$ j E
def returnValue ( u3 v0 M y" h [# T; V: _ 4 L3 G/ f* U8 c( x) N+ R7 G# j$ M0 v // Note the simulation time. . l6 \; h; q; h0 Q2 F+ d def time = GetTickCountInTimeUnits() 9 p: A) E# O& b4 s. k* s & X+ [0 c6 S& A; k" N" q 6 \/ v( m; i6 e) d: S. J // This is an agent decision.+ K$ J/ a5 Y; g* n. z' x% c- B. \' ~
if (watchedNode.pressure<200) { ; g7 I0 j V) L5 q# o s 1 O4 ^) S2 Q& y0 A$ f+ o" I // This is a task./ |5 [: J% |1 j7 u" j- {) k: g
setPressure(watchedAgent.pressure)0 ^$ _$ _1 p; z, ^& }" M8 |1 V
0 j# z& Q. N/ L" k# t } else { * H2 J: v& C4 |3 \' w: e. p+ Q0 j7 L
! X, J2 {! J7 s; i' |- o } ' ?( P/ _/ a. z5 e+ k1 Z( G // Return the results. - i9 w; b! ?& n1 D C' }- }/ { return returnValue* i. u/ l7 [4 x- D7 v$ F0 }
" c2 S' ^' ], P6 w' s0 ? } ) R7 i$ G- z: z; y$ B y# o/ J7 x ! p+ `+ R: k6 q% d /**" l# b& A; G# b; o3 l5 q
* 3 D/ t- h* R! G& c * This is the step behavior.2 m/ F8 V3 _" @. s$ {
* @method step; U+ p- I( g0 S R
*% y) _' d( W7 A+ g, {
*/" V* _2 m/ K9 y% d- L. m8 `
@ScheduledMethod( x5 h+ x) C/ A8 ?5 e$ ?: e! n
start = 1d, 2 s* H+ O' H, U7 a; o; w interval = 1d, 4 Q$ ^8 p% T% M. W/ U shuffle = false' E( \4 S- ~" R3 n$ u2 j
)- p6 b8 p4 |. g' e6 y: W% V2 x
public void step() { ) Z' i9 `) w9 b P3 { i0 @ $ o; H1 T* A; u/ Z( l! S/ i // Note the simulation time. % T) v9 n9 q/ q; l) S+ m1 ?$ K, ^" x def time = GetTickCountInTimeUnits(): b- n8 C& {3 [' f& i' ^4 j5 m
" V ~" B6 l% U) |+ O // This is a task.; H1 |6 W3 J- H# T: X# F) X5 ]& @" `1 p
measurePressure=pressure+ RandomDraw(-20.0, 20.0) 4 i B; ?( }3 i' o // End the method.$ b! ^( c7 q5 w, P- } O
return ) y O Q- ^' w2 r I: i( e' P( p0 E( ^ }
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发表于 2009-4-4 12:21:26
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