0 y; ^# M) `7 L/ K@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")) F: l0 n4 Z" k4 C3 x
public double getMeasured pressure() {- Z( R, j O1 ~: S' |8 Y" X
return measured pressure: V% V, w+ s/ I; e7 U! f- X
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public void setMeasured pressure(double newValue) {$ L+ e" v& j" m( G9 r/ }
measured pressure = newValue! [2 g3 a Z9 w" N8 B$ j% ^
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public double measured pressure = 0 & S: |# X/ ~. N' F" m4 A! H' B/ l {
/**( X1 O/ b! H. P# K* d. B
*1 J( _ ^- d7 X) u$ i' n) j) z
* This value is used to automatically generate agent identifiers.! ^$ }, p: M. o. R3 ~% Y
* @field serialVersionUID5 ]5 z, P6 s4 K0 K$ Z+ O3 C
* ) c9 F. |) x6 x3 M l- k */ % p' d. ^3 U# ?* w5 Q: d- g private static final long serialVersionUID = 1L* [) Y7 {9 x& F9 [$ N
7 u+ Q+ @ y; U3 h A$ S- h /** - ~0 S. T3 g" S9 C. J" o2 M& ^ *3 p, p+ a( U% T
* This value is used to automatically generate agent identifiers.5 ^! X; P% \! Q a" A9 e7 o8 R4 v
* @field agentIDCounter2 r4 |. H& v2 `4 Q T& D
*" |- w4 R, |) x
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protected static long agentIDCounter = 1 9 u3 o9 X/ r5 Z! F! K) d9 d3 r' y# F
/** , N! w& {! s9 g! K) i+ Q' n+ S `* e* n */ Z* n9 g8 o! o1 J
* This value is the agent's identifier.9 c5 M* N$ u6 x
* @field agentID4 h+ g1 V4 r {5 J0 r
* 7 ^) d2 o8 R- H6 }9 Z. d */ 7 m) K9 N8 h- `+ \# A6 G* n$ ^7 R protected String agentID = "GasNode " + (agentIDCounter++)8 A: @, s- @- ^2 t( a
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/**/ F- D0 H4 l$ [
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* This is the step behavior.; N2 d4 k+ f6 Z7 }* S
* @method step ! }' z2 j5 x4 ~. @ *2 X5 P+ W A5 C) A6 B) y$ w2 A
*/ - q0 `( b% a ]6 c) U @Watch(( p5 h2 \4 S" b6 m
watcheeClassName = 'infrastructuredemo.GasNode',( K2 P# X1 G9 A- r7 I1 P, S
watcheeFieldNames = 'pressure', 8 X4 d3 m2 B4 b! e query = 'linked_from', ) z, ~' z3 H/ f1 V1 R5 L whenToTrigger = WatcherTriggerSchedule.LATER,- d' b' b3 A0 `7 h f
scheduleTriggerDelta = 10d- t7 P A, y9 N
)+ T) _+ U* l. A! x( s4 ? Q$ ~
public def step(infrastructuredemo.GasNode watchedAgent) {5 | a8 z3 G9 [( D: r0 R
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// Define the return value variable. " y, s U% M' P& d! i" v' Z def returnValue 5 L( C& m' j; x* ]" x) j# U5 e4 T
// Note the simulation time.9 A) A, c8 Z) G( `% c
def time = GetTickCountInTimeUnits()2 l! d. L2 N8 Q7 C# ]) \% s
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// This is an agent decision.3 \! R( a8 a: y. ` Y5 p
if (watchedNode.pressure<200) {, c; u$ c: e$ q3 S/ u! Y
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// This is a task. ) \! [: c* P) H/ O& R setPressure(watchedAgent.pressure)8 b( {: w& s4 e# ]
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}! o2 A. b B8 I, v' o, b7 f4 j. z0 n
// Return the results.1 e8 _# ?6 ~; f0 K
return returnValue2 i" w9 ]3 r3 S8 [
) ?3 |- J4 U3 s5 J } % d1 [$ S* d0 ]$ K. M 0 t' B4 S/ `1 g9 P2 a8 p /**7 m( D& N1 f3 \, g3 ^) i
* ) m% ~/ f' n" j& K0 |* [$ D3 { * This is the step behavior.9 o& ~ L2 e6 H8 n) O0 O' K
* @method step% G0 i3 D9 \+ [- m+ D5 q, z
* 0 c/ h4 X" Y0 u% }$ S/ a3 p) s$ Q; S */ ' }: [' v4 {: q0 Z% k% b @ScheduledMethod( , q+ P& c* V H0 X start = 1d,. n4 `, X& k# i5 c! a
interval = 1d,# r! H- g- c" S& U3 C
shuffle = false( N) g6 t5 J4 _& K. b
) 3 j1 P& Y* M6 E! y5 P" m O" l3 q public void step() { ' j/ | e, [- S" v9 T6 J8 c7 V$ d 3 w: ?3 S( w' }. ~" u8 f* P // Note the simulation time.7 _4 m1 {* w2 U# Z' O5 }( A
def time = GetTickCountInTimeUnits() + r2 ]3 C Y% M3 [) A- B6 Y! m" i1 p
// This is a task. - Y- l" R7 o# R5 y3 d: R measurePressure=pressure+ RandomDraw(-20.0, 20.0) - Y7 _6 K( I0 w6 N* L // End the method. G( ^& H; _ E4 m# Z" L2 [* h
return* A+ s% N2 c8 B q# ~6 m
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发表于 2009-4-4 12:21:26
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