, j8 q" k) C, Z/ T# ~9 \@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 8 O) A( w9 T. b, l7 _! T( k( I public double getMeasured pressure() { . ~0 |, B: ^0 e return measured pressure : D5 M: s7 q4 Y( d }, c, u4 u$ f3 d$ `7 s& h3 ]
public void setMeasured pressure(double newValue) { % v' }/ a( Q( J measured pressure = newValue8 n4 ^/ ^, o ]: v( K" q
} ; O# s6 a+ y. p; k" ~8 w2 g public double measured pressure = 0 3 W0 j- P/ X" x& }& ?; d+ q/ z* E3 _
/** : E7 D. Q3 Y5 [ */ K! T& J( ?4 g) f. ~- J
* This value is used to automatically generate agent identifiers.$ }$ Q/ B9 ] x" x; x0 \. q) a& k' c
* @field serialVersionUID & h1 T$ x9 |3 Y( m: b *3 s' O9 ?7 j( k, t$ I# B- f5 |
*// h' F3 G6 p }1 R6 l
private static final long serialVersionUID = 1L, P0 l) L5 c) e* H: B
: ~; u2 E" z9 S8 x5 _3 O /**0 i' N+ J2 z" q2 [5 V3 b
*3 b ~, @) s, Q! [
* This value is used to automatically generate agent identifiers. , z- \9 p# {/ X( z0 ^ * @field agentIDCounter / _9 O8 x8 B! Y( j * 1 X- K: _ a- P/ f- v. v1 @ */! n7 J# w% q/ D. S# K
protected static long agentIDCounter = 1 4 A; q& ~ j3 }1 t8 K, v$ F9 p0 s( x" r
/**8 z/ a) e5 H+ _
*4 D" B, Z" H2 t
* This value is the agent's identifier.1 J0 {5 @" H8 Y4 \9 j
* @field agentID; Z& R6 d3 R) g i7 F- x" m! m6 m
* 9 x! {( v2 c' `. W */7 }$ L3 I8 g) X& y d( a' @7 F I
protected String agentID = "GasNode " + (agentIDCounter++) 3 Q: `' Y+ C% ]. c- X5 q$ }( Q c
/**8 u- _8 ^4 v2 |) m2 f' ?3 ?
*9 ?4 O. d* [* d) p* N8 b
* This is the step behavior. 2 i# F2 ?' n% q% `9 m/ Y * @method step' F2 V2 O' B$ B
*+ Y6 M: s2 T) r, O& c1 G! U
*/% J4 D( ^1 C& N9 t* Z# p/ z& I; o. P
@Watch(3 u5 j3 i; E7 {' Z& ^1 ^4 ~; t
watcheeClassName = 'infrastructuredemo.GasNode',) i: [8 m: W, P( p2 x3 i! W# L
watcheeFieldNames = 'pressure', 1 C; h p- U4 k* G! V query = 'linked_from', 1 k; i4 i2 o( k8 f, d whenToTrigger = WatcherTriggerSchedule.LATER,- f% p% ]# A. O1 b
scheduleTriggerDelta = 10d8 i) N) W; j& ?+ V
), T( Y* P. O0 H$ w: y8 U, X4 |
public def step(infrastructuredemo.GasNode watchedAgent) {! v4 Z+ U5 v, w' D2 l
2 `# Q+ I" Y- s, e- O // Define the return value variable.9 k i |: `+ Z, R# O( F
def returnValue 0 ~1 f( z# c% \4 [0 m: k2 Z3 E 5 {8 Q# |+ S6 a // Note the simulation time., A$ G8 T) V+ c3 l' ^! w }
def time = GetTickCountInTimeUnits() ( s0 |, I9 S% C2 q6 O ; `- I' a: M! ^; W# J% |+ a0 Q& u- |* |8 t) u h6 P. K
// This is an agent decision.. _; S, R9 _+ B; Q. n6 b5 f. S
if (watchedNode.pressure<200) {% g! g% C3 P: ]! j2 C1 l K) j
- t7 i8 z3 [6 @( A3 B) q" V" m // This is a task. 4 r3 P, z5 ?+ k* C/ w1 u- |- Y setPressure(watchedAgent.pressure) 5 j0 O" O( ]+ I6 f- V/ k % r, v5 x ^2 g' Z) c } else {3 v4 I3 j# M9 _ p) ]1 c
& r% N, D: O3 U# S
9 x! f5 C' v y1 a |2 O! `- u }4 R+ z; x9 F2 E" s2 p7 g
// Return the results., x& U \$ W* ? |9 c+ C# Q7 J9 q
return returnValue3 B% D, T; W! b) o. }# Q( y0 X4 i
/ u$ t5 ?8 h# J( e* H ^ } ( E; B) V7 L+ G( S6 s- H( I$ r& J1 s( F6 {
/** 9 O- ~4 V. }6 b. c. r3 Z, z* d9 V *" A7 O" H7 O' a. x# @
* This is the step behavior.: m+ | @/ l- u. ]2 f
* @method step2 `1 I. M$ |5 T+ D2 V
* . z" V; Q8 P8 T, j; p1 d" Y4 p */& d1 I1 `! Y& n4 ?; [
@ScheduledMethod(% z$ y% L" N/ e1 V
start = 1d,. s* G$ e7 T) c2 v, M+ A+ x# N
interval = 1d, ) y4 e& ]2 U9 Y9 I2 j, u# }/ m shuffle = false0 Y' f3 G' S" c! k1 r
) $ s% i7 S6 j! { public void step() { ) I R9 r7 ]# g, F9 }. L- t * l. p" E' z7 M1 {5 c, L% U // Note the simulation time.: l% }; y5 u) _& g3 O' ^4 l
def time = GetTickCountInTimeUnits()1 M. p/ I( c/ i( e
: V' K" k6 P9 P4 P4 O
// This is a task. 0 h+ Y1 ?& w& _4 r% N0 P$ D measurePressure=pressure+ RandomDraw(-20.0, 20.0) 3 G. N; ? `1 O5 n# q0 ?# h // End the method. * p2 i) }1 i6 b' t# e: @: w return$ O* U) f# k. x$ D R0 x" p
[复制链接]
发表于 2009-4-4 12:21:26
,请帮助解决 9 H, a6 c0 `7 u4 q( m0 l