$ V, O1 K4 E7 H" q$ j' q@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") % v1 {0 u+ I* D7 F public double getMeasured pressure() { 5 t$ _# |) u9 a6 |5 q. [2 | return measured pressure , c( d) u, Z$ _8 V0 g1 H+ l" Q } 7 s h4 m- J/ O# D, K @+ ] public void setMeasured pressure(double newValue) {+ H! F( h6 F0 x2 m% H& M3 }
measured pressure = newValue % v; m+ x; l" O } + B4 | K9 S. ~/ P public double measured pressure = 0) m3 M- d, Y0 Z
8 X& [" }/ j+ x /** ( z# @ s5 n/ ]- q9 p; m" V *- e6 |' j$ Q- D
* This value is used to automatically generate agent identifiers. ! Z3 p0 f2 o2 s: z * @field serialVersionUID ~# n ?; ?3 n+ o- Q# j * , I+ Z( `9 z5 J/ {) r */" c7 B6 [& g; O1 @
private static final long serialVersionUID = 1L # R; N* [& F7 T2 n $ K% m6 j# {8 ~- O u0 b3 R) a /** 9 P8 u1 @* V* s * $ e$ g: J! k9 ?, s7 c * This value is used to automatically generate agent identifiers. + M, w2 x; Q/ g% m6 w( \2 m9 b * @field agentIDCounter ; W# ?+ v) {! E' b8 I0 d9 _ *2 U8 {$ s+ F- O0 c u! p6 K# R
*/: A/ a7 T y4 t' k) L8 H8 f) q# o
protected static long agentIDCounter = 1 ' t3 ]! i7 }7 n; H 2 y* ?+ c9 O* a& ~ /**' l. Q1 Z B0 t- I
* 4 d$ E6 D5 x, t" e, U& i+ f5 k * This value is the agent's identifier.* h* }1 A2 J6 i2 q* p8 {
* @field agentID * N+ G6 q# f* J+ M; O- a *$ h( a& d1 K3 r0 A7 a$ L
*/ 2 H! W" Z1 l* t- J! @ protected String agentID = "GasNode " + (agentIDCounter++)4 V0 [5 g& A0 w `0 q6 u8 L2 Q- g8 U
6 O1 x! G. v$ g0 a% C* C6 I9 ` /**( X* t: h+ t; f, D
* 5 S: u/ {! r1 Q * This is the step behavior. 0 t& p, r$ n$ b2 p/ d8 x * @method step 1 g1 w6 A* B9 f7 s, W+ F0 E * + b! b- T" [0 x7 B# f */ $ `5 m) u6 ^8 O5 W4 P( W( \ @Watch(1 `& Z( V& R' h
watcheeClassName = 'infrastructuredemo.GasNode', * G: m! g) l0 m watcheeFieldNames = 'pressure',4 l6 w# R9 [. T5 {
query = 'linked_from', 2 s. q' O. ?6 j5 X whenToTrigger = WatcherTriggerSchedule.LATER, , g) k0 b6 b- Z q4 V- O. d scheduleTriggerDelta = 10d - ]8 g3 I' Q1 f6 @, T' Z9 u ) ( _7 n% n" H7 } public def step(infrastructuredemo.GasNode watchedAgent) {% Z/ t$ O4 z/ k8 u8 }/ A
: C/ E! G* K+ c. L6 T9 J5 M
// Define the return value variable.( j- ]( B$ }7 Z {
def returnValue- Y8 E% @, e, p; `3 B7 ^, _( d
4 n# a& _* c# I9 z // Note the simulation time. / R: i5 l. i- t& `5 \4 g; B/ @ def time = GetTickCountInTimeUnits()6 J+ s0 }3 c# C, L
+ r+ ~& A+ n# w" F9 o, B" n
" ], k7 [* R( o, v* X
// This is an agent decision. ! z* U D8 n. a( ~4 W/ [, k if (watchedNode.pressure<200) { }3 h6 d$ o5 J) c
8 J/ v' B( Y3 A5 }
// This is a task.; C- _9 i$ o% Z5 o
setPressure(watchedAgent.pressure)1 h9 }( U# ] D2 {0 }- X, J; R
3 W. Y, j% Z M* Z0 l/ x# D0 l } else { - |) U2 N, U6 [2 g/ Y 4 k9 s, s4 q2 [" W5 x9 J/ \9 ]; M / t+ T3 [6 }3 {& q- [" D }1 p: l* ^; R7 u
// Return the results. ) p% _. \, \- E# B c return returnValue 4 A% t$ E: a- M/ V1 H0 j! w- T( x& g f {5 Q
}8 m5 u C7 t3 u- O. k4 v
' s2 k0 N" G, b2 r/ ?) k r8 x, } p /** / O3 y. g5 v( } *# [/ C9 n8 I M+ k! d* d
* This is the step behavior.& j, E3 ^$ P2 j$ V
* @method step( n) o: Z1 {6 M: W* a1 F6 k. w
*# Z" i4 x; M* D5 h, A- o
*/ ( a5 x! U5 Z, N! ~% G @ScheduledMethod( $ m Z$ t# V4 c8 a: j+ Q* K start = 1d, ( ] {, S) }/ \# R5 e interval = 1d," _* ~( q: K3 w( y; t
shuffle = false 1 g/ @' A% G6 l )' F1 Z, [' e2 g6 q$ _ ~
public void step() {! E3 g& ~+ v9 N+ A/ H" m* j$ e
) g3 M# k. C- ^# f* E8 O
// Note the simulation time. 3 i4 U; q4 Z# F3 V# V% j. T2 s, } def time = GetTickCountInTimeUnits()! _$ k# B- `0 M
/ F$ w6 F1 n0 y. e. i, [, a$ v // This is a task. 4 G. x9 F% L' X$ d6 ^ measurePressure=pressure+ RandomDraw(-20.0, 20.0) # I2 L. \0 \6 ~ // End the method. + [ R* x' }% a: P" {9 v return- F( E) k* N4 j$ W
. y1 W; Q: k1 m
}
[复制链接]
发表于 2009-4-4 12:21:26
,请帮助解决 2 j+ E7 E0 O& V4 ?& |4 M; _/ G