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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") ; ^- F9 w' g- Y! T! s# o public double getMeasured pressure() {( z* z5 }9 a. C" D: y
return measured pressure) D$ ]3 ?7 o$ q- r4 o- Q) U& c
}. m$ Z3 t# j7 K: |! d& ]3 r/ F
public void setMeasured pressure(double newValue) {2 z9 P1 g, L$ C0 m0 B6 r$ E/ b
measured pressure = newValue6 B0 \! ^& V! `) a4 z" ^) A6 X
} $ Q" T/ m& R% k public double measured pressure = 0 6 A% s! v# L, _+ r: [' ` / b. L% ?- ~/ D3 I /**" ?: Y% q$ ^/ `7 v6 w
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* This value is used to automatically generate agent identifiers. 9 y: Y2 L! j1 L1 O+ S8 V5 F- d- F# ^ * @field serialVersionUID 3 l- `, m% W/ Q( S" C0 V *2 K6 ~8 b n, Q/ \3 g: _9 i
*/ ' J6 H& c0 ]0 F" U1 }7 u: j private static final long serialVersionUID = 1L i) `& V! n5 l% ?, } q, A5 @5 v+ Z! ~6 ]- v8 l0 S5 @* z" V% d9 ~
/** 3 i( B8 u- h% L1 b5 p *- n7 b5 k# n6 n4 z. j) {( D
* This value is used to automatically generate agent identifiers. / o* p3 ] j3 d6 P$ f: x2 o * @field agentIDCounter5 S r- r0 c: B
* : J) O! @3 S# m' g3 _. k */) [* X$ X, [) ]+ c
protected static long agentIDCounter = 1 4 N0 O9 t3 k9 m% z7 g4 E6 E; \" V, v! D" Q q0 |+ | A) X, [! }
/**/ D F1 O3 X7 o% K3 x: e
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* This value is the agent's identifier.# y: o8 D4 S4 W! C& ]
* @field agentID8 r3 F/ Z/ N# E H& a
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*/% ~, e! ]' W& P8 p: J, @
protected String agentID = "GasNode " + (agentIDCounter++) $ \% U* F% N" ^, |) a* ]1 S! c* b& s$ ]: U9 z
/**! ^4 F% k3 Y5 o' F4 ~$ I, w7 d& L
* , |3 @" q7 I+ w5 ?/ } * This is the step behavior.- F$ V7 k: ^9 X; C0 x) l
* @method step5 b# J- _- y, H* E) |0 x0 P+ z
* ' ^/ y" U9 u& b; g3 r */ " n: Y* l& r7 H }8 y @Watch(% a% p. P- A6 Z' E+ {
watcheeClassName = 'infrastructuredemo.GasNode',5 z: {' u' M- M1 W% v
watcheeFieldNames = 'pressure', / ~$ m7 R9 `7 _% L' N query = 'linked_from', $ Z \5 \, B; L- }- Q+ g7 ?- Z; y whenToTrigger = WatcherTriggerSchedule.LATER,0 a- W& S0 [! y; k. |
scheduleTriggerDelta = 10d# N! _0 _% c# |' f
) + u3 Q2 W3 c" _% R1 y5 L public def step(infrastructuredemo.GasNode watchedAgent) {0 Y% I$ u" Q; y. _
! J/ s) d ] N& _, @; x! Y5 P, p // Define the return value variable. - \7 Q* g. ^) I5 k- [& @! V def returnValue / g6 h$ v( {) m5 ~- q ) n# O0 V4 h" |# \: ]2 ]0 x% T // Note the simulation time. ( y3 R; }2 B( L! q def time = GetTickCountInTimeUnits()9 r% D0 l7 I9 B$ B$ k d3 n
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// This is an agent decision. + w S5 r: G. \9 q9 h9 h if (watchedNode.pressure<200) {& ]& D- W4 \1 K' i
" R, p2 T, e& w2 G8 H // This is a task.8 q6 o; n3 ~ U- D2 {) y: r
setPressure(watchedAgent.pressure)) G5 k S+ p8 g4 k* S- d8 F) N
8 W) a' l+ d4 x3 r } else { & T# H3 F) }, R I% l" v3 I- q9 Z, t' x# B+ q! v
+ I; q4 l; H. { }" B% ]/ F1 s# T6 `) W1 k! {( j0 l7 I
// Return the results.% v, z7 i. j# P. B( @
return returnValue 2 r0 }5 [' N, G v3 `; Y& }9 ?1 H' s6 P& l
}, ` r, r! Q% C1 x+ q
6 q& }. ]% T" b7 e3 L' P /** ) v$ c4 M9 J/ U * . @8 d/ \2 [% S1 Y% }+ W8 s, x * This is the step behavior. - k3 o( |, m. l1 `" B * @method step5 O' y6 ?7 `( d- Z
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@ScheduledMethod($ [: b' Q% E, z1 }" b
start = 1d,8 q2 J, {8 X" g! V& T
interval = 1d,! r1 ?; s- `* }( F* W# _* K
shuffle = false, E$ \- G: d% _% I
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public void step() {8 C( {( {! S+ W8 ~: s1 {6 [( f
3 J w' }0 b2 B2 q // Note the simulation time.5 v% ? z6 ?+ L4 f4 I/ \
def time = GetTickCountInTimeUnits()4 a# m! X9 O; N E# e+ f3 x
" t- |2 z- p, O A' s4 B: d // This is a task. 0 ?; `" V7 c8 Y0 g measurePressure=pressure+ RandomDraw(-20.0, 20.0) , }; g( X, ]6 t4 H2 n8 z // End the method.7 T3 U A: b& j& }' P4 b6 b! r
return 7 [( X, f0 j0 j: B7 y4 q! y: U, S4 Y# n$ o( X- ?3 L/ ^/ K
}
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发表于 2009-4-4 12:21:26
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