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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") - s5 F* T% b! x* A! h* r" J4 m. b public double getMeasured pressure() { 6 Q) |( n& G7 J# H return measured pressure + ? R" J; H, D# K# o } + k) m* m$ @$ p; U2 q public void setMeasured pressure(double newValue) {' T2 u0 a& k: j0 Y6 \
measured pressure = newValue 6 \6 t) F: ?. o) Z4 G4 h" i }+ G& Y. \4 g) k4 ~3 l7 k
public double measured pressure = 0% ]. A5 c$ F, U* K# C+ N& |6 F
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/**$ M8 L9 J& }* ^
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* This value is used to automatically generate agent identifiers. F, r8 m4 O2 A$ N/ c * @field serialVersionUID $ ]4 a1 \, e+ W1 v1 O- b *" S/ P A2 l# t* D0 O+ |
*/ + i& Y( n9 ^) [' C2 G# A private static final long serialVersionUID = 1L: ~/ z/ P) p! e4 V6 g( o1 m
1 S8 D% M# K7 K& h2 `0 d+ k3 {
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* % c2 @: ^/ P* T- y" C * This value is used to automatically generate agent identifiers. - Q: A) |) O( c" U9 P * @field agentIDCounter" `5 d: `# a5 q4 P
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*/ ' I8 c4 Z# m; W0 e2 R/ @3 R7 Y protected static long agentIDCounter = 1 7 f1 W$ `; ?1 f/ w0 d' _ {3 p3 B- Z- `7 b8 A6 E. V9 o; p# K- l
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* This value is the agent's identifier.0 j" H9 f- ~. g d) X& J, }& J
* @field agentID : n$ l5 ?% n! f0 ]0 D *4 D9 H K; h0 R1 A% m, {
*/ 0 x. S8 {. d9 K% d! o4 } protected String agentID = "GasNode " + (agentIDCounter++)1 `) f4 R0 @0 W1 n/ w' J- ^
, Z; x/ x* Z/ J2 s+ d /**% }( x7 I: Q3 T/ u
* . j0 L; r* I9 B; i; Z$ [ * This is the step behavior. , U# T) l3 C5 e * @method step ) x, e. I: ^8 O, {; ^% { f, W& p * 5 w2 X2 {" o, M. w) [+ W' B0 l */% l( N* R4 Z$ E0 |# a
@Watch(( C) M/ ~. i* [, f% {8 t& w
watcheeClassName = 'infrastructuredemo.GasNode', ' i/ G) J/ @& t watcheeFieldNames = 'pressure', 2 M( r6 e1 Q: f( k$ F query = 'linked_from',- @: |; I1 Z. \
whenToTrigger = WatcherTriggerSchedule.LATER, ' U: {0 m6 f, N: ? scheduleTriggerDelta = 10d6 ~6 l; X2 `3 Y8 y q
) * _+ P9 m! W6 ~3 c3 F, L1 N public def step(infrastructuredemo.GasNode watchedAgent) {! {$ C5 A8 W% s5 @
( R5 Z. O$ y5 Z1 E7 ?( y // Define the return value variable./ q6 S% t; l) x- x& |) H
def returnValue% d$ G# @2 Z6 @" f3 C
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// Note the simulation time. * B/ y y& q, t# w# L def time = GetTickCountInTimeUnits()4 I# z4 G/ d9 V% s# O) M
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// This is an agent decision. 6 V8 e3 e! C5 @ ]. Y if (watchedNode.pressure<200) {9 @9 g. E5 t( U* v" u+ `3 W
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// This is a task. ) y( B9 h& Z2 E) M) Y' Y( h setPressure(watchedAgent.pressure)1 Q- S& _& ~* x2 d5 P7 \& p, S5 d
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} else { , @5 P& ~: j1 M3 z1 F3 H! p9 `8 |& ]! P( g3 l2 Q
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// Return the results. 8 o1 p3 i$ O8 j: ~ return returnValue$ i) j7 |. t' r7 E- y! n: o ?5 I
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/**& F a1 G6 n, b4 m& ^
* , o2 j! t) p+ V4 T * This is the step behavior.: ^6 K9 l8 m4 t s
* @method step . |- Y6 S. C( ~/ a" ]0 B; A* |& p * 0 s+ N, U& Z, k$ r8 W */ 3 |' f. G4 L, f% B! }0 w5 | @ScheduledMethod(# o/ N8 i' G( w. Y
start = 1d,( O# c5 L( j5 O0 m) g: t; E
interval = 1d,$ S0 a4 x) J( x% k
shuffle = false . l. `* `( ?% d( Z7 l" v ); m& H( _5 O( i. {) N4 v) q' }
public void step() {* U; g0 t9 ?% B7 \4 d: T0 E
$ e g1 c. |5 D // Note the simulation time. & K7 O, e4 ?7 p! R% R+ S: | def time = GetTickCountInTimeUnits()/ Y2 Z% L3 X1 X/ U: [
0 r3 t+ U0 s" X6 H$ V6 l! v // This is a task.! z# u2 D* }4 \1 ~. E
measurePressure=pressure+ RandomDraw(-20.0, 20.0) , y T- h7 y0 P+ m; O% }! V // End the method.- f2 }+ ^6 i6 |$ { O# G7 \0 l
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发表于 2009-4-4 12:21:26
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