) T- `7 m$ h4 @! c8 {@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") ) _$ v9 ]$ ], D1 g# d/ r; }9 ` public double getMeasured pressure() { + i9 D5 W2 |1 J7 x return measured pressure6 K. z, s9 W$ X: k* x
} & b# z: M" l/ S9 V public void setMeasured pressure(double newValue) { 3 }! J9 W6 T% D measured pressure = newValue 0 o, Q3 U9 W1 t* h+ e, _( t* g. c, ? } 2 i; }. Y' ~. h2 Y; j2 h public double measured pressure = 0 6 Q8 f# {( J( m( @" s& p X; e! |+ B( Q
/**# W" m) {9 ?) V
* ' B6 A: s" [3 t$ d * This value is used to automatically generate agent identifiers.# @2 U8 v: s& T% p* L! O/ q
* @field serialVersionUID) H% i& Q& l9 u7 U5 D: W% f
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private static final long serialVersionUID = 1L, t+ u' W w0 y! D, J6 G L& R
8 k4 C& G9 {; y+ ?: J /** 1 P2 w' H' M- z6 c# u& h5 j/ b6 v *0 `8 y0 g# T( _3 H' T
* This value is used to automatically generate agent identifiers. $ ^2 c' K! v/ |' q2 D * @field agentIDCounter+ \; U' F7 R4 p6 l6 S+ n) i+ m) }
* / c& U; L% F1 |3 x */& [2 b4 n T+ I
protected static long agentIDCounter = 1, z+ R" g6 S7 o8 o0 y4 q5 e+ y3 |
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/**2 |' E$ J( t# a5 e M3 ?
* [. l0 p* D) [. ^9 f6 W * This value is the agent's identifier. 3 s7 F p2 n1 C- ~ * @field agentID+ B F# ]; Y$ t
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protected String agentID = "GasNode " + (agentIDCounter++)5 [* L) f7 H$ x' m
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/**) t& O& k4 m- {
* : ^1 k8 j# t% h' l * This is the step behavior.) N. w/ Z# q: }6 y: _( D4 @% y& h3 u
* @method step7 Y3 ^% r2 o6 V% H/ l9 ^
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@Watch(3 V, r& f7 P, D& U o, ^: B
watcheeClassName = 'infrastructuredemo.GasNode',) ^' V2 ^/ O; ^5 z! \
watcheeFieldNames = 'pressure',5 W3 l4 K3 O1 V& j6 v4 | @/ b
query = 'linked_from', / @( r, E7 t. u$ } whenToTrigger = WatcherTriggerSchedule.LATER, 6 `( e- l) @: L3 b0 e; C7 { scheduleTriggerDelta = 10d 8 T( m0 | y; p$ s- X9 O )$ w' d! y" j. t& D3 t* @$ E. Y$ L) y
public def step(infrastructuredemo.GasNode watchedAgent) { $ l% w; U/ d7 e! e/ n1 {0 s- [; A 4 A( w; Z0 Q0 H$ ~% p) o5 l // Define the return value variable. 9 B- l0 ^: i# a def returnValue' k- P* u/ H9 `/ a( {3 U- h4 h
- m: _8 g1 y( ]6 C, s. |/ _( R // Note the simulation time. % m" M, r3 n/ V' C2 M def time = GetTickCountInTimeUnits()+ ]4 d* _- A$ V6 s- Y, [+ S
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) O- ]/ s4 m6 P+ |1 R // This is an agent decision.6 V7 @4 ^3 l' v* R- E9 N! A6 L# A
if (watchedNode.pressure<200) { @& p" l& ]0 ^4 J! w% F/ t
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// This is a task.7 k3 k1 B; n+ O
setPressure(watchedAgent.pressure)+ C( P A: q: G' ]5 n/ T$ d
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} else {0 R6 U( g8 k7 v+ S* F
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// Return the results. 1 Q4 `( D; J5 R- x$ N8 [/ t R! ~ return returnValue 7 `& S7 J E5 }0 H( s$ a" D* u; ~* e
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/**& S/ k( ?7 b! z3 m8 e! @
* 3 Q, `1 _9 ?; W Y7 ~ * This is the step behavior. * I _# J1 M9 i1 O: f3 h * @method step6 M3 H( z9 B* ^' v& R2 N& [! w
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@ScheduledMethod( * h% ]4 o- D- V: V1 N) ]5 [1 l1 w5 P start = 1d, 8 E+ Z% e; P' L2 E @ interval = 1d,# e& P! i) J8 r6 {" b
shuffle = false' I: M0 ]+ h0 O1 [0 L- C
) 4 j7 U" |2 o9 [0 i: s public void step() {0 x( q9 U% [5 b+ E; W
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// Note the simulation time.2 B! m- B0 f/ {0 e& x# }
def time = GetTickCountInTimeUnits() : p2 s4 D0 a6 l) U: d/ p" @8 w0 d4 K N5 E) H5 W/ h- m
// This is a task. * e5 U1 l+ M+ d- u. x. r+ z measurePressure=pressure+ RandomDraw(-20.0, 20.0)" @2 O4 @0 V& G, i6 z6 D8 G/ _
// End the method.1 m% u4 a% g2 l5 y0 z
return3 l# o) D5 U; j- i+ \/ R; `4 v
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}
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发表于 2009-4-4 12:21:26
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