! o' F/ }9 j+ d3 r@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")3 f& @) S C& ~: ?2 s+ Y
public double getMeasured pressure() { * P% g& R% M, Q$ _$ _2 @& [7 N8 F4 |: [ return measured pressure . |& Y, Z" M$ e# O u" R3 ?- j } . n+ {% h# P+ P+ R, f8 ^0 H+ N public void setMeasured pressure(double newValue) {+ B* ^( M) l; K& Q
measured pressure = newValue 5 t1 p2 a4 t4 T7 @; h8 P& f4 s } * M% ?1 B, ]! @: G( J public double measured pressure = 0 / u4 o7 I: s; b+ O& f" Q. e0 L0 r, q
/** . M2 J1 l* m0 r7 [5 y2 V2 G9 S *% p$ C# r Y! Z- d% Z9 @
* This value is used to automatically generate agent identifiers. ) E/ |& s4 c/ ~/ c) [ * @field serialVersionUID $ g# C, Q U0 P6 y *1 v9 x. e# i6 |) U* S1 u b
*/ + e5 G$ x: r& v' A9 j private static final long serialVersionUID = 1L # d3 C, i/ w' m" [1 u5 F' b5 B8 A) A, B) b2 }: U0 l8 n% r1 f
/** $ `1 u+ K) R: }. F * " H4 S4 T2 q* \ T * This value is used to automatically generate agent identifiers.6 ~/ D4 r: a ~9 n
* @field agentIDCounter. Q. o: W; Z/ S; D: B) q! _: h4 q% W
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protected static long agentIDCounter = 1 : u" c* R+ X( Z7 t( K% M Q+ _+ ?- c$ l- J
/** 5 v5 o' {: W& o; S8 A3 q *8 o; D2 i: v6 W% r- `; E9 R
* This value is the agent's identifier. U+ M2 U: A+ M5 ] * @field agentID9 A; y1 C8 p8 [
* . B5 s- W/ f8 g */! h2 Y0 s7 Q1 |
protected String agentID = "GasNode " + (agentIDCounter++): A0 d9 W Y' x
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* This is the step behavior.& i7 C2 C' o: M. A$ f% h! V
* @method step " @4 L- f3 g( A: v; @ *9 n8 B l8 ?3 @& d/ ?3 s+ v
*/ 5 e9 h& S9 J1 ]) T* T @Watch( h: o% J X3 O, {+ U- @ watcheeClassName = 'infrastructuredemo.GasNode', ! @( ^5 N* v( t$ q# | watcheeFieldNames = 'pressure',* k# h" |5 f9 q' O6 C. l
query = 'linked_from', 0 l; ]! N& J9 _% t8 B5 ?1 P whenToTrigger = WatcherTriggerSchedule.LATER,' O' U' w% ?% @7 F5 s
scheduleTriggerDelta = 10d) n& b! S6 g. {! f2 P
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public def step(infrastructuredemo.GasNode watchedAgent) { * f* e, J' Q8 m" l, O* k; W% u( n" `1 a. t1 m: R
// Define the return value variable.3 @. v* z! Y) n
def returnValue $ Q8 Q% S6 E5 ]: d4 z + d8 u1 A* M' F& D& g" | // Note the simulation time. P" e1 l8 @6 v8 N; Z, w" Y
def time = GetTickCountInTimeUnits() $ y- [, P" V1 l- ~2 u - H5 A3 v! B/ [9 P* h6 a$ {* {; ^; v* _; c2 X- \' ?" h4 L" C
// This is an agent decision. * m% A) V% ?% Q, L2 U6 q4 i8 k7 } if (watchedNode.pressure<200) { 7 W8 z$ p2 {$ f, ?7 a4 D r/ _6 t6 ^7 e7 V
// This is a task. ( v6 m+ S# z7 t( g) B) v) T: x setPressure(watchedAgent.pressure) 0 S/ B: Z. q5 o& W2 `/ u+ g @+ ~1 v: ~. Q# c( Y
} else {) W* y3 ~, x b( K& `
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} ' h, i2 r1 r% N( h& o/ J4 M // Return the results. 9 f' a# p) n& S4 X$ H6 I( @- n return returnValue* r' s/ V ~- q3 U, J+ o; W
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* This is the step behavior.# F. M ~; z) m9 q& I
* @method step% L5 r) p7 N! U K( l% X; W$ M( L
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*/ # ~3 Y" U, D8 ^' J9 M @ScheduledMethod( ' `0 k" F: T U. N4 B# D. S- N+ } start = 1d, $ ~" R/ R' m( k1 A% U5 A+ {, V- \0 } interval = 1d, 4 a. c2 G* |6 G. U% C* p# F shuffle = false # L+ U6 \/ X- Z4 R7 L3 N5 B ) E i! ]; W! Q3 T9 z: ^8 V
public void step() { : x; d! `/ R. d0 |/ X* R1 R 1 G7 G6 y+ h U/ c // Note the simulation time.0 z6 J: e3 ? C( z) D+ ?8 i% B
def time = GetTickCountInTimeUnits()- I8 m) f. q/ R- U' p
& F/ W& z6 h6 @% o$ R2 U" _ // This is a task., u% Q1 b! [; x: K
measurePressure=pressure+ RandomDraw(-20.0, 20.0) 8 A/ |; j* w2 i4 ]& `- K // End the method. 2 I4 o) X2 l, @6 b( Y+ z return8 \( V* |+ _ |
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发表于 2009-4-4 12:21:26
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