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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")+ U* m) T: G' }1 Y
public double getMeasured pressure() {8 g) B- o3 S0 W. ?0 U
return measured pressure6 T; U% f5 r2 ^) s: L/ p. U
} , j+ j6 g( _' w, i0 ? public void setMeasured pressure(double newValue) { 1 e8 I, Z3 I$ \' s1 G0 v! D measured pressure = newValue2 d- \' x: T: `1 r( l
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public double measured pressure = 0 5 }0 V5 i& o) Q) d2 t0 H; B 2 f7 U! u: o. J5 t; F0 o /** * o, S! S) |& ~$ ?; f w *. N. U' h4 G) o7 I6 d
* This value is used to automatically generate agent identifiers.9 Q, h8 a% ^' N5 W! q" E! C
* @field serialVersionUID , T) N$ m, V C R* S3 C; Q8 ]1 K *7 l$ v3 Q" o' O8 ~
*/ 4 C! D. z G$ @3 @5 n; b private static final long serialVersionUID = 1L5 f- n2 C$ V2 I) q6 K- p8 q
" I5 ~% }! @: i4 X3 S- @, x /** ( L) h/ v$ F& f * ' h3 |& D4 m" F8 G2 x * This value is used to automatically generate agent identifiers. # l4 g1 i2 O" O# y4 m * @field agentIDCounter ! `6 _, w+ _( \ *% w5 c$ F" k) C9 s! G3 r/ N
*/ . c7 ?! X- r6 r protected static long agentIDCounter = 1 ! H1 v f/ S+ D& U$ H5 t% X+ x( n# C* B) j2 ~+ p5 }- J! o
/** / ~% `# e7 g+ X2 d: L2 \ * 5 C) \+ W- X& ?# t * This value is the agent's identifier.& h% |8 R# J/ o- M9 [
* @field agentID ' s2 ?( k# o( p1 Y& B) X * ' A' ]1 m$ Q/ X6 K, d2 p */ % o+ J; P$ C* q protected String agentID = "GasNode " + (agentIDCounter++) : _6 |" L3 m9 V% i3 }) E6 ]# o 7 O7 f! |1 Y$ u/ [" _% a /**( G" r: H1 A( B3 S0 t
* # L ?6 R. T% k * This is the step behavior. 8 w& q7 t: `' S" \' R * @method step - m; T6 u" g" i% m2 R7 _ *: o6 Y- {5 K! C0 M1 A- N
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@Watch( # G/ x' t/ ^+ W+ N# j watcheeClassName = 'infrastructuredemo.GasNode',) w# I. b. M8 G2 T
watcheeFieldNames = 'pressure',. }3 U6 j1 V1 |
query = 'linked_from',) Q) E3 n) N% R6 w3 K
whenToTrigger = WatcherTriggerSchedule.LATER,- [# I. x( T7 M4 C& r+ w3 G; n
scheduleTriggerDelta = 10d + z- v; |: {/ O% ?5 g6 E7 J v* r ) 0 m8 g+ u, y$ p& g7 W7 \ public def step(infrastructuredemo.GasNode watchedAgent) {! `$ ^1 }0 p1 I8 G, D9 Z! _: [
- d( ^- [- @9 |8 K( O& s, W // Define the return value variable. - @! Z+ X, A9 `, X ^) D" M def returnValue 0 A2 y( `' Q- r+ g: p$ b! x6 j4 D$ d
// Note the simulation time.7 V' ~' K6 _6 P& J6 v) W* ~7 l
def time = GetTickCountInTimeUnits()# Q5 a+ I! S5 Y2 m. y' @
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// This is an agent decision.8 s P. w4 f* c* Y
if (watchedNode.pressure<200) { / x/ y" o* t( W& e! k- }! P6 w, J) r* t 3 m9 Q: g. W. `+ X R, e6 j // This is a task. % Z9 H k' D2 y, W8 b setPressure(watchedAgent.pressure) 0 a0 b1 H. m" F6 p' X9 W 8 h5 z6 ?% O5 g4 k* S" N; C } else {6 w+ W8 x) w& N& z* m& u
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// Return the results.* F1 U$ U$ d2 j7 E
return returnValue6 W9 f+ l2 n0 g+ a! n
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/**% h6 u9 h8 V2 {2 N8 t, N
* ) ], Y( I( K9 _7 X9 O+ ^ * This is the step behavior. / L% G0 @! w' Q, L * @method step! x( ^+ ?2 F; a, Z& M
* # v. N4 c1 \0 ?# x; D */ 4 n' _' K. Z; H8 l @ScheduledMethod( ' V* ?# l; i3 s4 J$ o4 v% X; w7 _$ g start = 1d, 6 O& s# N2 _ J4 ^; H interval = 1d, ! |3 S& c+ o& J8 j- C! ^, q shuffle = false; s) \( q# C+ W! d
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public void step() {: |, P: O, ` D5 c6 q1 b% E
# d& T* z Q5 \/ S) W8 a0 S // Note the simulation time.9 p: l0 U% `, G+ v! M3 ~( ?
def time = GetTickCountInTimeUnits()0 g* [* H( t" n1 _
; z( q u' e3 D // This is a task. % X1 u% [; R$ t, \' M4 f8 U. ^+ \ measurePressure=pressure+ RandomDraw(-20.0, 20.0) 8 X" S/ ]. L1 } // End the method.+ ~9 S9 w, G! }" L/ v- `
return/ a; V3 k, C1 ^
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发表于 2009-4-4 12:21:26
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