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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 2 X1 b& \$ P4 D ^ public double getMeasured pressure() { : g. V7 M: p) T4 p: k return measured pressure# |" f# }* f" M: _ q
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public void setMeasured pressure(double newValue) {. i0 c f ~' X9 g6 s7 F
measured pressure = newValue # F2 i8 t& w! h, a/ Q' D }$ U) }. D0 @, T' o
public double measured pressure = 0 & T/ Y. ~' z' A W' h . t8 c0 e$ [ L$ {* D/ V+ m/ }8 n /** . V: ]. R4 K! U7 s4 G k9 F *# z; R9 v$ i, ~, |. ^( x" v1 p
* This value is used to automatically generate agent identifiers.1 }" a7 ]7 A1 k# `5 {' ^- s6 n
* @field serialVersionUID 8 I1 o3 A% _2 \- t/ k * ) O' c. G9 D7 _$ t0 e7 F */ : k( w( A. i4 C2 A private static final long serialVersionUID = 1L9 K8 N! k( D6 C1 C: q, D2 \' `
8 ^$ d$ {6 _( e6 Q% ?& s7 p /** 2 ]. f! f2 C& W0 N4 q * : ]) q9 ~1 v( Y4 g7 A * This value is used to automatically generate agent identifiers.8 y5 e: {) A$ ^2 V, {# b% b
* @field agentIDCounter' ^" b/ n2 f7 R. b
* 6 Z; G W6 e3 B$ D, r */ 8 D3 t" z5 @+ x6 ?0 d( x5 [. g protected static long agentIDCounter = 1+ j6 r, @) a- P) Y$ G( V) K; q
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/** h# [# Y5 V) S
* / A; g! P; Q* ~3 S; {, k( l& i: P0 b7 p; K * This value is the agent's identifier. : V6 {: h0 x; {& p# v m0 r * @field agentID* r A% V" u5 C* Q7 L& z4 E5 a
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protected String agentID = "GasNode " + (agentIDCounter++) " U8 \( ]$ a: Y: I 7 h3 u# h$ q3 L, |$ _ /**+ C. ?; C+ V, Z' \9 P9 |
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* This is the step behavior.0 b7 D0 y2 a7 X, K" d9 Y$ Y
* @method step; F* g& M8 C5 o- Z% V, Z
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@Watch( " X9 I! S' e- D watcheeClassName = 'infrastructuredemo.GasNode',9 R2 A% g$ J( F3 a5 C2 o C
watcheeFieldNames = 'pressure',5 C* o- E) T' u# Z* ?
query = 'linked_from', * U( _8 y- u4 a( @9 N# n whenToTrigger = WatcherTriggerSchedule.LATER, 9 N; {$ {; P: U% b0 R! O# [ scheduleTriggerDelta = 10d0 Y# U! e7 K6 @# o3 r! y2 ^/ |9 S8 G
) ( O( o/ H9 G$ l, f3 ^ public def step(infrastructuredemo.GasNode watchedAgent) { ( a; m6 S% O$ m0 {5 A# m; j& l( ]2 |* ]2 C' v5 D
// Define the return value variable. * j m, i+ Z8 \ def returnValue; M4 Y( w+ ]* d6 f( l
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// Note the simulation time.% l( i: F- S7 d+ `9 r
def time = GetTickCountInTimeUnits() & F7 m/ t) J+ d {. z7 m" x; @! v6 s' u% |/ u# \ f, C' [! b; K, E
" a4 S A9 X% k8 K+ A x) v. q // This is an agent decision. 0 ?; y n% U( \% u, n* _ if (watchedNode.pressure<200) { 7 a# J0 b, z# H) F# T, F; |4 [9 K# b : B" i. I5 [: z1 k, S( j6 a/ O" |8 ?: G. v // This is a task./ H! D3 L, F9 G+ G. J
setPressure(watchedAgent.pressure) ( @4 N, o. P5 k. V! Z5 l$ a7 G- t* e* A f: C* o
} else { & Q6 }/ H* t7 M& o' d; B. ^5 E9 G. [) Z3 u1 S/ u. D1 P! j
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// Return the results.0 l0 ]! S4 e. x: A5 \
return returnValue* G. |9 P( g; I+ L
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5 W! w6 K# ^ q3 U4 a n /**. N* |) n$ j, T9 P, d' C; K
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* This is the step behavior.% I, |( R3 ?) J
* @method step& B+ W& V7 [& C' C
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@ScheduledMethod( 4 m6 s( g# }" _* k0 K$ c start = 1d, 5 \2 u' C& m; } interval = 1d, 4 ?1 k6 o0 q! t7 {8 F A) v shuffle = false 3 ^: u. b$ _6 o$ v* b ) 7 f9 ^ Y0 K$ }7 ] public void step() { % X' k* j: S* u" |0 Y8 ?8 r6 X, n' `# G" Z' \! I2 u
// Note the simulation time. ' u0 B7 ?; b& \! ~( [8 G def time = GetTickCountInTimeUnits() , ]! e8 F, }( l" u3 X 5 [2 g" y% t4 [) h // This is a task.7 Z/ `3 {8 ~) f7 q
measurePressure=pressure+ RandomDraw(-20.0, 20.0) , `9 X! ~. j- Q# U H* k/ F, i( D // End the method.- H* L6 r/ Y5 \/ {- k: g( B
return) v* X6 P% ~9 s0 B' e% u
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发表于 2009-4-4 12:21:26
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