/ Z$ l; ?# q% [ B6 ?@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")) n4 P; [- L( ~! i# | ?3 j0 i
public double getMeasured pressure() {4 R* }. k+ @: F1 U8 k
return measured pressure 1 n4 ?3 w& q( {- B( W( [0 ~ }% {4 B' W' p$ B4 g* E
public void setMeasured pressure(double newValue) { ( r7 C9 Y+ T: W4 L6 h measured pressure = newValue 2 c9 }! y% S0 X* T8 |/ `- s }( ?% u* u. e: d p1 s: v) G# m
public double measured pressure = 0+ w2 G% q5 Q) ^
. U7 Y% [* A7 H+ [) G /** 4 T4 k5 K" x. i" p% Z; B *& r, ?& o+ q3 [% }
* This value is used to automatically generate agent identifiers.2 Z! A, x" {, x
* @field serialVersionUID 0 B) z+ C( d# i9 F *; G- D# G: L: n' e# o
*/ % M+ Z- r w3 y9 I- z; z private static final long serialVersionUID = 1L & k) S+ X& @" d" J8 M; x: f ; l* p7 `5 |4 ]0 J /**7 W( W: w8 [% }7 v) G/ f
* # Z9 g# }3 u R" c( F6 ?8 x+ c! T * This value is used to automatically generate agent identifiers.+ |' b: ]4 C5 G5 V8 e6 H6 X
* @field agentIDCounter8 ^; h. a M; o; b4 n% [
* * `. K# q: a6 W8 f' ]+ _ i */ . W: K6 f: A9 q9 [0 ]" q$ p9 J protected static long agentIDCounter = 14 B; F% Q0 _+ [/ m( u
, e i6 \" }/ J7 A8 u) U X# f /** : C) f* I; y8 E9 f- S3 S, y$ k/ i *2 h% `% \2 h' k5 K+ x2 `4 ?* D8 ^
* This value is the agent's identifier. " q6 v2 }1 f1 Q * @field agentID/ {: Q9 |: F2 i5 z
* 2 T! z8 O9 W/ {, Z0 f# ~/ ]: S- t9 ^ */+ s# }! u n- o- i- [
protected String agentID = "GasNode " + (agentIDCounter++)7 u; _% p: A- [$ \7 _ f
2 p+ F1 c9 x$ D8 U2 t /**5 [4 x. j5 D% d' B- K
* % d5 E2 j& e# V# J * This is the step behavior.' M4 v( G- d( f' i( E- z
* @method step9 F6 U- T6 ?0 N+ V2 |+ T
*6 t5 v2 ], `* `
*/ x" [; _& {) j6 f
@Watch($ E, E6 m+ `" n" ~
watcheeClassName = 'infrastructuredemo.GasNode',( \) D; u4 A4 b8 F0 E, r# q# B, j
watcheeFieldNames = 'pressure',2 M( @# a) P* Q/ E( {
query = 'linked_from',1 [- g. b; `6 @; B
whenToTrigger = WatcherTriggerSchedule.LATER,6 P8 x" y) `/ f+ y# s; n1 I
scheduleTriggerDelta = 10d ! U' u( n( G7 v% X b* w ) 9 C0 f$ }) ?8 z/ v; ?. n/ k: L public def step(infrastructuredemo.GasNode watchedAgent) {% r( ?0 g8 L% k! x) G
; w+ H: S; _$ H; W+ ]0 F
// Define the return value variable. 2 A$ v& c8 `7 e8 m4 o- e def returnValue w# U; b- u, T2 Y0 W5 c- `* C% z! w) C
// Note the simulation time.1 p% E! i8 V& M: a- W$ {+ b: k( f
def time = GetTickCountInTimeUnits()% E# A; N) N5 r* y0 L8 h
) h4 c( [$ v( z. m8 X3 M3 {, Z, A5 O; | q
// This is an agent decision.0 G' z$ u" t" G$ q; e) B* X
if (watchedNode.pressure<200) { / T' r! n5 f! w+ V* x - Q, `" w& K) w5 ^; V // This is a task. # K$ n& I5 g& d h$ N4 s% O" C setPressure(watchedAgent.pressure) 5 E3 W2 x# n9 n. b, G$ k8 m5 m6 m+ P" ^% I; V( b1 N7 {- B
} else { " y/ n9 v' ^: y) d% X1 t/ G' d; C, }0 f- X8 s" g9 Z
& c. D* T/ H, m1 v$ w6 q
}% q* x' b7 ` z0 n1 x2 V
// Return the results.* ?% M+ j9 x: f7 B: M3 v
return returnValue % T7 F! k4 M+ N! Z) i- h4 V/ w ' u7 H0 B' u- b4 w, V5 ?5 e) B } ; w* W1 A! A5 h6 R2 D8 O% C 2 f3 ^( }% [% U" a4 ~+ v( E8 Q /**: \1 X- T# Z* J1 W% e9 v
*7 E; }: P0 Z8 U- s! C" ?
* This is the step behavior. & `8 j+ D* j* z6 Y! L( p. @ * @method step" c) i, i4 H6 T8 w
* 4 b7 h7 }3 M" U' M9 U# ?" ~8 q */1 z, b/ A% Z- @! R% l; J
@ScheduledMethod(* i' f# X. ^3 ?5 p C
start = 1d, 8 k2 ]. g/ F& i4 p. ~! J! l interval = 1d, & u- r$ ?3 f) M0 |8 Q: S shuffle = false % i f* C/ q W& _ )5 x$ m, C6 ~/ \ G4 H: e; l
public void step() { 5 ` |" s5 _6 Z$ E. Q" m% E ) k: I) U( @/ g# |1 j$ r // Note the simulation time. 1 N/ K" }% G1 g/ p: n9 l o( s* T | def time = GetTickCountInTimeUnits(); s/ D9 J5 z( `% \' h, R0 k
4 v# _) b7 h2 T m! z, S: H; _ // This is a task. # p5 t+ Y* b) B1 W' a8 U8 ] measurePressure=pressure+ RandomDraw(-20.0, 20.0)4 t/ L3 _/ P' t r
// End the method.- Z# t8 @2 o4 x- | X9 W; _
return& l( A4 Y# H. E1 F5 n( s
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发表于 2009-4-4 12:21:26
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