; p% C9 A1 j2 b- f l' P/ `@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")+ I5 G1 W3 b& u9 {7 m* ~
public double getMeasured pressure() {8 e: n! e3 k3 z
return measured pressure# B! Y+ J+ h, M+ r
}9 T- F& H& A6 _$ b* L
public void setMeasured pressure(double newValue) { & R. I- i, v- X& N5 R, N measured pressure = newValue , ~0 a4 C V8 |+ C5 z$ J' D; |; N2 |+ }% @. | } . W d4 b# U. \# ? public double measured pressure = 0 ' [' ?( I3 s3 Z& o2 O' H' p( W0 L
/** - j7 u k( L# [/ S$ o6 V *+ C* ^/ x+ a; J) a( @7 H
* This value is used to automatically generate agent identifiers. 9 Y# K$ D: l9 E* s& @ * @field serialVersionUID) q- \0 i/ x* f! {/ } |: a" S
* 0 r! k; G) J1 j/ @3 i */ ) e- |7 {2 c) ]8 L& [ private static final long serialVersionUID = 1L; {1 ]% c: O9 e9 _1 d4 e
5 c( q0 J( Y( o. }: h
/**0 |4 v+ W8 C2 |. b! }) ]
*# M$ O/ M) K+ m/ P
* This value is used to automatically generate agent identifiers. ' _7 K& u0 G4 M6 \8 O * @field agentIDCounter$ v0 q8 I1 t" R4 D
* ) q4 s9 `* W6 c8 R# N' I6 I8 ^ \+ B */ " Y9 V' ?$ H9 x6 M! { protected static long agentIDCounter = 1, |$ j% f m' m, |
5 H1 u( e# P) ^0 n0 z8 k
/** ) K/ Q" H2 @& X * ` a5 k( [6 P$ S
* This value is the agent's identifier. . U; T2 N; f: V8 ], b * @field agentID , V8 k2 R4 L8 o. C$ m3 S9 j" O * 3 H/ }% x/ s5 y% C5 n; W */ t& o1 D2 Z- v5 N% b, G% Y protected String agentID = "GasNode " + (agentIDCounter++)6 u+ U1 G5 u0 R; ?" m
- K# ]. Y0 D" C5 s$ N N
/** 3 e( Y ` G8 l& l8 w/ n. D *8 R0 C* ~: k. W& F+ \2 R% [
* This is the step behavior. P4 K5 P; h6 F; g4 L
* @method step: a6 A$ a- ~' y4 v
* 5 X0 m/ v! b4 U */ + [/ V7 E. u, B* \+ ?3 K @Watch(# E$ |( g# p a* s* G
watcheeClassName = 'infrastructuredemo.GasNode',, X; H6 I% |+ P: W3 }3 u4 D
watcheeFieldNames = 'pressure', # W, c- g* W$ k9 `! F3 _, O query = 'linked_from', 7 [" h9 O2 Y4 h; O7 J0 |. ?- | whenToTrigger = WatcherTriggerSchedule.LATER, 3 F. i* N/ y8 K6 B% _" K& S5 R scheduleTriggerDelta = 10d , P. |. }) i1 z& I5 H9 _ ) % Q; l" p) w4 i7 Z& ^4 h public def step(infrastructuredemo.GasNode watchedAgent) {* M I6 A1 M* z& D' j3 j' X
) A# g3 D) g3 Y0 l7 |3 x9 L // Define the return value variable. , X3 J. F+ n; X& _ def returnValue: I V4 ~6 M! _$ x
' g: T# A' F( a! V
// Note the simulation time. 0 t" B! s5 C6 ^" H& Z def time = GetTickCountInTimeUnits()5 n3 Q2 n6 V! K# _
0 b- [# \7 h* E/ M: v8 Q" S @
, [' P7 x/ H1 R
// This is an agent decision." y+ D" l5 ~3 A# W
if (watchedNode.pressure<200) { # {# n. ^& C% p+ R$ x/ l6 Q! w2 @ G1 o% k' Z5 i) t
// This is a task.; l! L6 V& a: e4 ?2 B* `. E
setPressure(watchedAgent.pressure) ) [4 G* ^. }7 j: `- A+ w$ Q1 L; K( L2 s# I# V I+ p
} else { & F6 q6 `. P4 s1 E7 ~0 P/ n; U* N d$ j' L3 ~7 v: x8 m
% u1 J9 n. b5 B9 `9 s$ G# I- m }% a, S( K1 W3 ^6 `" V# h3 M
// Return the results. 4 Y. D# o, d- Y9 \ return returnValue ]3 i1 |6 F b( o$ C7 |) {
: S- S, e+ _7 A% Q/ m1 w
} * _- q5 C5 F3 \6 P( e) s0 T0 k6 w / Y, k3 B7 r, z /**; V+ @1 s1 s% U6 I3 y
* 0 J& m' J0 t; ^ * This is the step behavior./ B' ^& G6 {3 ~1 S; s* m
* @method step& [- ~5 L4 e0 ^- y- }! o9 P
*$ w; ^# v- `7 ^3 j
*/ + `4 {) Q! G- \; Z @ScheduledMethod(' a% T- R5 ^/ l2 e
start = 1d, * w% R% N: G* V" Z& E0 N interval = 1d, # ~- e" V2 k; m7 g" s shuffle = false% s. o* [: o* {1 `& o+ R& k7 S+ w1 H
) . V$ m! `" ]& [4 f public void step() {: p7 s$ z& L0 ]2 q! |- u
4 u: w8 b4 c& [, Y# E- ~( K2 W // Note the simulation time. , Y1 N& L. \7 L: D' H- H def time = GetTickCountInTimeUnits()* F: _7 R; x! n( X8 T2 Z8 u; R
0 M- ~. B4 g$ `1 U. f( R" ~. h6 N // This is a task.8 ^ @0 s& X& T0 j) z
measurePressure=pressure+ RandomDraw(-20.0, 20.0)$ m) E0 T; W5 d. T5 J+ i; `
// End the method. 1 ?6 X6 J/ w. y2 M return6 c" W+ X% B) s1 P' {( ?# Q3 M7 z
4 A- l& c" C7 G8 I" n4 }
}
[复制链接]
发表于 2009-4-4 12:21:26
,请帮助解决 