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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")& M9 V6 Y7 Q* ]6 ]
public double getMeasured pressure() {$ w$ J- `% |' g& l+ w
return measured pressure) E% o& W: v5 ^: }3 |, v% H
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public void setMeasured pressure(double newValue) { + ?; {: T2 A' z/ Z% K$ F5 I4 z measured pressure = newValue / ?' f' m' b& ?/ ^6 r( L }9 h/ g0 g& C) X) g
public double measured pressure = 0 0 J( N: H3 n/ c. R, { : o+ H h8 M3 `! N4 O /** / e4 g% L" j: w o! u+ t/ }1 { * - k; D; D7 f/ Y8 [' J. B: n/ E * This value is used to automatically generate agent identifiers. 2 R* u& ~! U$ t8 v * @field serialVersionUID$ D- P6 Q3 e# m9 P& M5 w
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private static final long serialVersionUID = 1L . u9 W9 v6 l, s3 n- c. \* Y9 t6 f: M( T7 b
/** 6 _/ U9 c2 a$ Z * C/ Y/ b- C7 N) l3 P) L$ V * This value is used to automatically generate agent identifiers. - |2 G: _+ l9 C1 K/ y7 h: A4 i9 h * @field agentIDCounter; W: e k% _5 S! n0 k0 Y6 Y) R0 A
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*// t9 C4 ]! x0 I3 @
protected static long agentIDCounter = 1 ! M& b: ?( ^" V2 D" } ]% x& m: e( ~0 R2 j2 s! L `
/**% V2 j! S' Z) U
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* This value is the agent's identifier.1 a2 [" ~: ]$ M0 A1 \- H/ I# O, b
* @field agentID( N& ^9 m. o0 j. b
* # W$ Q# \3 D7 o1 h */! @* J2 |) a& P6 f0 m7 Z: l- P& V
protected String agentID = "GasNode " + (agentIDCounter++) ) E8 v' N F# P' g : P' \6 \" f# v6 e8 l; Z& W% g. j /** % J5 q2 _% y- l3 h4 z# g" I4 ` * ( ~8 i7 {6 R; d8 W9 Y& B# n/ C * This is the step behavior. 3 R. e# c9 n4 p% F * @method step* n7 X1 Z! g5 j$ u! p) h; m
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*/ % K$ A; y/ \4 a# T# j @Watch(5 E, L) J' r) s: r& h. ~) |
watcheeClassName = 'infrastructuredemo.GasNode',' r- ]! j" h8 r: u3 t4 y
watcheeFieldNames = 'pressure', 8 w5 f5 V2 {+ [5 a* |, D4 e) m query = 'linked_from',( K) B7 ~( e+ N0 x x: B
whenToTrigger = WatcherTriggerSchedule.LATER,8 E) k* G" z8 y; r) `, z
scheduleTriggerDelta = 10d ! e2 R( n# d, A& c' |, P ) " t7 Q+ K% q5 X7 | P) v: C' } public def step(infrastructuredemo.GasNode watchedAgent) { * J! p+ D- X9 ~6 h+ j, }/ E" u7 I+ Q# \2 C, d: C0 T( S O- `
// Define the return value variable. 0 @; e) x% P& I5 U& x def returnValue * G4 |1 n8 T+ \, l9 B; I ) ]! T& \% d: L8 O' f0 \ // Note the simulation time., p' `2 M+ n4 d `# d. U5 o! }) @
def time = GetTickCountInTimeUnits() 1 i& ?1 @6 O: ]+ x, G- R+ X; {5 U# V+ j1 x0 h1 ~" \
1 s) D) L: |+ _8 J // This is an agent decision.) u) v+ P7 u; s
if (watchedNode.pressure<200) { 5 s+ L- K% C" u4 g( |5 n+ C+ c* @9 q" }0 q% q, r& M( X$ z4 I& W, k: d
// This is a task.5 f2 L% W3 n% j4 @; u/ n( @4 v* }
setPressure(watchedAgent.pressure) ' T% b6 @, z% L/ X" w; ], I6 H6 `0 [
} else { 2 x7 e \- \2 A9 F* E8 d7 n0 T: o- B6 h v
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// Return the results. - }+ H3 ], ]: D) V2 t return returnValue , ]( o+ U1 s& p! }: ]; F + t( H3 w F( p+ ^ }# M) t) I6 L L) F) D" B3 ]9 s
1 N+ \9 p2 l2 s! u' R /** 2 w5 V4 a: n: a X1 X * . `2 Q9 ]) Q9 E' ~# I8 Y * This is the step behavior. : Z2 A" v& \4 |( q) \9 S * @method step 9 v: _ X- T6 i7 Q *9 m9 b1 D) |, S
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@ScheduledMethod( 1 v5 x$ X: T* C start = 1d, ( w- O. v+ i. L. r: J. G interval = 1d,7 B2 }2 B& F: i6 R: A1 D& O4 n
shuffle = false 3 o. H7 J, k) o+ J y+ b ) ; N/ f( t, P. w) n( u; \9 P0 p public void step() {& t) [# B% c( L6 c) o
3 W9 z1 ~' f: o% s5 V // Note the simulation time.' c1 X- O% q- C3 |- g7 S
def time = GetTickCountInTimeUnits() ; I5 z5 P G: Q5 A* v+ `, T+ r" E/ ^( Y
// This is a task. 1 w; Y' V; J3 o6 \, m" d! R9 ]. f measurePressure=pressure+ RandomDraw(-20.0, 20.0)+ k. }5 [+ J1 y: a. i6 H
// End the method.. Y% ^2 E$ v% Y* _
return% o S4 ~5 y! n' Y, d( m5 Z
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}
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发表于 2009-4-4 12:21:26
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