+ o% A. v: q$ j$ _7 Z2 D; a0 |% K6 P. }- b4 t( K1 r
@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") - W$ l# @$ r; K) {. k public double getMeasured pressure() { " ~+ A7 J* v1 k5 [9 `. w return measured pressure1 L# }6 k# L: k b
} % ~! X' j& p9 T+ v9 v# p public void setMeasured pressure(double newValue) {4 _8 ]! n9 z) l2 J
measured pressure = newValue+ i: m7 G t2 q
} ) U5 V; A O% Q/ C public double measured pressure = 0 : E$ L% c+ W' Q9 k 6 j6 p5 W" z. M /** ' v2 L( c: I9 D *' M# D5 P8 o4 {4 }2 m' h. w
* This value is used to automatically generate agent identifiers.4 Q6 ^0 t. K5 n- ], Z. X# k
* @field serialVersionUID2 C$ Y) v [2 l. q8 L* ? b
*, o# O1 I5 c+ j8 r& ^1 L
*/" A( U8 I) u2 y! o
private static final long serialVersionUID = 1L7 n" N8 E4 }; M
; D9 B' T) f2 i! p( H, o1 U. [ /** " c0 @" p" h% r1 K6 h& u% R5 x8 m *9 p* M4 `8 `1 n0 x9 \2 \6 s6 j& i* P T
* This value is used to automatically generate agent identifiers.4 t S: a0 a j' ~9 n
* @field agentIDCounter 7 X1 C# a: k! x *( ]! y( u3 ]' n- y2 c& l
*/0 ~, J* M* K! c
protected static long agentIDCounter = 1; j- H" @. Q$ J# B4 H3 [
Y6 _/ B7 ?6 ^: w0 E* E! t2 W) l /**2 ]& d! K$ J, Y5 ?) T% k2 U
*( P& _4 @/ y1 F6 r" s6 n
* This value is the agent's identifier. ! o# P3 i) f' W2 J- ]( e, h- l * @field agentID) z& _4 l1 j/ G) z2 u# s
*0 H9 P! W/ U3 E; @/ [4 z- u- @. |& m
*/$ E, ^3 T8 X3 i, q9 |8 A+ H
protected String agentID = "GasNode " + (agentIDCounter++) % i* O' n2 L1 p" T5 ?5 |( ]0 D' H) L+ S
/**/ e+ W' H& x2 V- O) C# `6 h: l
* 6 }6 N( P7 D- i, \! D5 I * This is the step behavior.. V7 ~+ `; i7 T+ y9 W' F3 g' k
* @method step 6 q' c) z& Y9 K, ?! w( m: H *3 K, g* O8 S8 p. D) m
*/ - @" K$ q, \+ u8 }; \. e @Watch( 5 B0 S% z, [! ]" z watcheeClassName = 'infrastructuredemo.GasNode', $ K) w z4 P j( p# M2 y6 s watcheeFieldNames = 'pressure', # n6 G7 o! s1 T3 `' |7 G7 L query = 'linked_from', / ^( ~" W6 J/ y" F- F: z2 P$ G whenToTrigger = WatcherTriggerSchedule.LATER,: I' Q9 ?% k+ {3 k1 |
scheduleTriggerDelta = 10d/ L5 |' D. D7 u8 z1 c- J y% @! Z
) + Q$ I, P% E% P8 L4 ^( h/ |' B public def step(infrastructuredemo.GasNode watchedAgent) { + {! x$ j# J+ d0 L4 U. T. i: I/ M b* \5 I
// Define the return value variable. - i7 t" t: g7 T/ k& b, R' ?. L2 m def returnValue 5 p# L5 R" k2 i0 S/ V4 R Y/ D7 Z# d* ]
// Note the simulation time. $ H! v; n$ K4 v( | def time = GetTickCountInTimeUnits() * p1 w6 U9 g: C: ]) C2 D O% w3 s. T; U1 q7 m1 f8 n5 L
( P9 c P7 x& }& D! c$ v! W // This is an agent decision. 9 l6 g) C6 w& b. |6 ]# M if (watchedNode.pressure<200) { `0 _4 s' n8 S: w& s 2 e9 w$ ?" r9 P, _/ C // This is a task.; ?4 ^1 w$ e2 ^6 X
setPressure(watchedAgent.pressure)5 O" d" O5 ^6 T2 q1 n
/ a P1 w* S! [& r9 p } else {/ U: c; \; E4 o y" h; R6 S
+ Q/ K! y7 q+ @ u& C( K* N( y3 E( O: y8 m5 i% H; |
} - ~* i h0 H0 a3 E" G // Return the results. : b6 R# _7 ^) \ return returnValue 5 i: q5 ^: w- f( h8 G% j O% c, N# l. U5 I
}7 ~9 p- N, ~6 D, V* a& V1 j5 g
& |8 t) t0 X& p( Y$ U+ b9 Y
/**8 p. u9 C; M4 `' H8 @
* ) C/ S. E [) U: Y* B * This is the step behavior. W( ?: |5 Y2 t7 Q; _% o- m
* @method step; i# Z$ t+ x% [4 c8 \$ _) x
*8 ] r8 J U O( Z+ t
*/ ! ~" m& d6 _& P: v+ r @ScheduledMethod($ k% U. m, }6 {) B% f9 {
start = 1d, + d0 a. Y* x3 s; x interval = 1d, 1 l5 _! U. y/ ^0 C; P, q shuffle = false. T. |/ g: t, I
) 5 U; B7 _# C7 h4 w public void step() { ) c, L2 q% n; c5 \/ P- P& j% ?+ b) Q1 W2 n
// Note the simulation time.) o9 x8 i* o# @6 o( H9 n
def time = GetTickCountInTimeUnits() 1 c" V) W4 E. N0 \; M8 h, i# l: i6 M& [! W" [7 A. {
// This is a task. 1 R0 k0 @8 l5 L P measurePressure=pressure+ RandomDraw(-20.0, 20.0)1 M4 d0 K# m( [$ u8 m
// End the method.8 S4 |. `% ~6 e
return 4 M) c' h( ~0 N4 l3 D* P; q$ i4 g 0 ^( Z8 a( a; W0 u& v }
[复制链接]
发表于 2009-4-4 12:21:26
,请帮助解决 4 ~# x2 `! ]1 \0 ]) o; v3 S6 D: @