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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")2 K. _. u$ I1 |4 V0 @/ u5 S
public double getMeasured pressure() {4 k Q7 F8 V6 `" o ?
return measured pressure 5 i: q; x8 E5 X: A }5 t" o# r) l4 X6 z0 N9 j" x( T! {4 S# d
public void setMeasured pressure(double newValue) {* i$ e. T' c& C0 T5 z
measured pressure = newValue 5 j! d e0 Y9 [ }9 C9 Q3 k \! }" v
public double measured pressure = 05 S: X* L2 J! c0 T
& s" t; r5 d* P, ~: _$ f /** 0 \0 A0 X0 v& J$ m0 v& I- P; R5 O# x * 8 r5 T6 p: h% B \3 G * This value is used to automatically generate agent identifiers.* O% h( l( Y8 P- G; D( w% u
* @field serialVersionUID / }- j" B2 w' R' \) r$ T* D *- r0 c8 j: v7 [
*// r( b% n% a4 {' D& I" M
private static final long serialVersionUID = 1L & a0 h: S5 }3 `& j ) t( h3 t0 b- V /**- M, ~1 V% f. U+ O: A+ G7 D3 B y7 O
* . K. q) ~1 K& D% V% E) ^ * This value is used to automatically generate agent identifiers. 9 ^) t0 v- l, V, Q) C * @field agentIDCounter 8 Z3 e: F4 y; U# f4 [8 Y* g * 7 f5 g6 ?( ~ {0 k" Y; T2 d/ \8 l- E */9 f5 j* @4 m8 O! C& ~4 J5 x( U; e
protected static long agentIDCounter = 16 Q0 a- Y8 t; L
4 Y% l/ r( l$ g; i /**/ E! \( W6 o! b* q- x$ E
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* This value is the agent's identifier.7 r! X) [, K$ e$ ]) e4 z! w
* @field agentID ' f# y8 g+ m. @2 L2 B. B( T+ B# L$ V * ; J3 ?/ c0 j% X1 _/ Q: ^ */% u) C, x& K A+ r! a4 d
protected String agentID = "GasNode " + (agentIDCounter++) ( ^2 @& H( @ V4 ]6 N: u7 A* w) Y# K3 a) z4 i- k B! h0 C+ f; U8 G
/** : y1 c! ~* b' F *" r/ L; r6 r; u& l# g1 p
* This is the step behavior.4 o7 F6 K' j) T8 E
* @method step " T# S0 a' N& s, b; ` *% Q* c p- E5 C6 k
*/ " i. \ r% l! W: A0 { @Watch(% w% }( l2 |3 W
watcheeClassName = 'infrastructuredemo.GasNode',$ k- U8 Q& D- H i
watcheeFieldNames = 'pressure', * e" A g4 S3 K: F( g5 T query = 'linked_from', 4 Z, ] g! _5 |* k$ U' I' E whenToTrigger = WatcherTriggerSchedule.LATER, # B. ^# F+ d7 \' z1 h+ j scheduleTriggerDelta = 10d 5 J, ~$ h* V9 p: x- e/ @ )7 ^2 j1 t7 r" }2 H- u: G8 I$ m
public def step(infrastructuredemo.GasNode watchedAgent) { , O# a- b7 h# s: k- l0 c: ` J# P$ K. f$ F
// Define the return value variable. " \. M# x; u" ~3 o6 |- R# ` def returnValue % V# Q2 F7 c* y0 U 3 W4 F2 _8 l4 o& P( R // Note the simulation time. ! Q L& v1 }0 T) s: _ def time = GetTickCountInTimeUnits()% b2 c$ _1 x8 c+ f$ U' U
, L* u5 Y7 e9 X/ Z 8 ~, Y* |% b& a8 s* \2 `8 z // This is an agent decision. # Q. K0 v: x5 N" o" V3 l if (watchedNode.pressure<200) { 1 M5 P' Z& F% B& x+ `' ^2 r& o5 x4 N" |' s" c: l' Y
// This is a task.2 f* d# \, z7 g
setPressure(watchedAgent.pressure)! g# o! y" E9 W/ u1 J1 j, } h
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} else {( Q6 ]* D) L! k- n; ]
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// Return the results. " ~9 P3 Q% p" e; {3 f" {, p5 j return returnValue2 M: O' J7 @5 W+ J$ u F+ G& q: }
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} ' v( r x# z! v! G - C9 @. y- H/ y/ { F1 U* ? /** * e. R0 L; I; @1 w0 w. F6 V; M *" x K( i3 ?! k5 Q, D8 k0 {
* This is the step behavior." W# w' b5 y" U& r! m! X
* @method step ( T6 _( p/ \4 [ *1 @, ~$ D3 m5 y$ d) r4 f
*/ 2 d$ h0 u4 `* v @ScheduledMethod( 6 [# o" w4 `) w2 V! Y start = 1d,% L8 Q- a% @2 m- }
interval = 1d, ! w! O$ y3 ~) q% l. v% k5 v- V; T+ l. K shuffle = false & b+ L0 v3 [7 k. m# r; e" ^/ r ) # \# @/ v4 r! ^6 @ public void step() {- x, L" ]4 y$ R9 }
: T5 f8 z0 A" A6 L // Note the simulation time. 8 K }2 Y) K" ~1 R; W) \0 Z! P def time = GetTickCountInTimeUnits()4 h( g& y, M- f) |
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// This is a task. * a) K1 W; i' |3 y3 i, c measurePressure=pressure+ RandomDraw(-20.0, 20.0) 1 E8 \4 ]. C! G' O9 a // End the method.: f, l1 s' {, x$ m: S
return# I, C* {( g4 Q; | g5 F" F& t
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发表于 2009-4-4 12:21:26
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