8 l4 v( Z2 H8 |# u1 k & N8 m2 q, u' R, N5 O@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 2 T1 I9 v6 z4 b. E v# I8 N public double getMeasured pressure() { + y2 x$ R) \$ ~3 N return measured pressure 3 N) l. P6 W; W* m$ C } ( O/ H" ?# g- R public void setMeasured pressure(double newValue) { & ?! P! F! X4 P" j2 n' ^ measured pressure = newValue # s1 ^6 `8 W: D3 b8 c$ o# s }6 f: ^2 m* q, w# l
public double measured pressure = 01 v( C' k( u0 ?2 j) z
2 X+ X6 `) N. q, k m /**: g! P1 G1 T6 V$ R
* 9 W: Y2 H9 ?: [" @* p# ` * This value is used to automatically generate agent identifiers.. p I! j/ e3 W! L' U7 T6 u2 N$ q
* @field serialVersionUID4 [& ~! R6 T& S9 l" _7 |
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*/ ! N" S- W' ]( J private static final long serialVersionUID = 1L + @3 a8 J3 Y! Y- q {, v5 O1 h0 }, j /**4 Y* j1 B. B. }2 W% F3 f5 M
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* This value is used to automatically generate agent identifiers. 1 L+ S: R+ Z: C' }6 r* I# a * @field agentIDCounter & M' U* v: E' M' w7 U+ x * * ]8 T5 w0 W9 b1 x) F; [. O */ 4 p6 Y: S3 K+ F b' l7 s protected static long agentIDCounter = 1 5 _9 L! R' R; E4 h. k M 8 C9 G6 T+ T% P. W /**4 ?8 U& w; G% T7 h& A" P R
* - n4 a) H% w5 @ * This value is the agent's identifier. ( v3 _( Y) _" H H/ _! {1 w * @field agentID 1 v/ N7 ?4 ?) U! i *7 P) Q9 f9 i* G* A$ R
*/ 3 E1 W }# P$ m( A. p( N( Y protected String agentID = "GasNode " + (agentIDCounter++) 8 {4 j! k9 x/ c) }8 M6 y5 J 6 N- A! f- J7 [6 {/ v1 `' k9 B /** : }6 N/ H0 v2 d6 Y- d2 g *) @+ _6 ]4 F; i3 O1 ?8 i
* This is the step behavior.+ R& s% {* J6 d+ }
* @method step9 k3 d) {+ H( ]# w- l, V/ C
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*/ $ j: W s/ W$ q: p) ?! }( \7 l @Watch( , t8 y* O& p; _. C1 ?: _: n watcheeClassName = 'infrastructuredemo.GasNode',7 ~! C& V0 F& ]$ }% B4 T
watcheeFieldNames = 'pressure', ! h8 L L0 c$ h1 W( b0 e query = 'linked_from', " k$ y6 H2 `. U: \+ y1 {+ K whenToTrigger = WatcherTriggerSchedule.LATER,0 p$ W% v3 q7 K3 L
scheduleTriggerDelta = 10d 4 w& n l/ U$ t. |& R ) 9 \+ G4 |3 \, V/ i6 D# i public def step(infrastructuredemo.GasNode watchedAgent) {- t- o! e& r- [
. M/ g& N( |) H7 z // Define the return value variable. f1 @+ v1 o4 \- W def returnValue 5 V+ I8 j1 y% R5 W ' v, B* D- Y* x' Y // Note the simulation time. 9 ~; |- {; F. m8 e def time = GetTickCountInTimeUnits()$ H i8 j F6 K* d
4 T( s- y$ W6 b; L $ G" A8 l X4 ^4 f1 ^6 @3 P // This is an agent decision.9 ]# ~/ K c% v( w( u
if (watchedNode.pressure<200) {% ~# y. f, Z2 Q' B/ u$ _
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// This is a task. ( H: ~* k3 X( d+ @0 j& P setPressure(watchedAgent.pressure)6 ^: Q/ t5 y* B' g- P
1 y2 c1 _0 Z% F7 j G! u& t } else { 8 |! C# e h9 s A/ W$ o9 D' I/ E) T: l" \. H0 s3 W
- Y4 b6 v/ c4 e: y4 W } 6 b, Y# |: J3 _' ]1 b // Return the results.$ q: P I) r* H# ^ x/ p: ~$ V1 `
return returnValue $ i. M3 D& B! Q9 p# |: E G 3 y; U; ]6 k4 z- t. F( u; H }/ A5 P* y" N6 ?" w a4 E7 |) C% U
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/** $ T" O. n* r8 e * % p N% p9 M3 ]' L% R * This is the step behavior. $ c, h" A& M3 v! k0 X( \ * @method step & [7 {' m9 a0 S% [9 f. i$ s * 9 C( j% X% t" t. E b& i7 o6 W3 O2 g */ ! X2 F2 t/ b- @5 o @ScheduledMethod( c- K! V5 Q' A
start = 1d,9 D' O( j! Y& u* ]3 l0 a7 W% M
interval = 1d, $ n6 [7 R4 R% L% i9 e l shuffle = false- V8 P+ q0 K9 ]
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public void step() { # I/ j c: W k) P1 U# G; E( a+ s5 J6 ^ `1 o
// Note the simulation time. . P& U- z5 P- R* k4 `$ L) e( \( w def time = GetTickCountInTimeUnits(), p+ O: p& a6 _% L
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// This is a task. * A* V' e9 H- N* }* @ l2 F x; G0 F measurePressure=pressure+ RandomDraw(-20.0, 20.0) 1 q2 J% @% ~, j // End the method. + n/ ~: u$ M3 ] return, O8 x' w! b% V A, _
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发表于 2009-4-4 12:21:26
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