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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 2 y; ~6 f% F/ k8 M- u. t1 r public double getMeasured pressure() {0 |0 }( c. w: M5 }3 M- ^3 ]! f
return measured pressure* b$ M2 x' z3 m* o# e
} # @/ X) b. k' \ public void setMeasured pressure(double newValue) {* B4 Q. S' ]9 b6 [% H1 A% Z* ~
measured pressure = newValue- A9 I. Q. d; x1 K( T
} / q$ G$ q0 I: J4 c public double measured pressure = 0 ) C, H: ~. [8 D5 \3 y1 W3 E* O) P4 [
/** % y$ a4 N* V& M7 z% S [ * 1 n- r$ e" \2 _+ M * This value is used to automatically generate agent identifiers. : [" k0 v+ k3 b# p1 W6 t * @field serialVersionUID 6 f) P9 W! a6 t( S) ^5 F$ g9 v, Q * 8 w& F1 k8 X. T9 I. ^" L, k+ A */ 9 w5 v6 V+ |; M) m private static final long serialVersionUID = 1L( w S! ^1 N- h
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/** . R6 x n. d- s: \ I *( C$ ~8 W# ]+ k; {# \
* This value is used to automatically generate agent identifiers.( O' B' N! U. n" P
* @field agentIDCounter 3 x9 b2 _: |8 b& N2 [0 _4 K+ D, L * & b! n- A4 Z a6 V/ _: Y1 F */! z; G# {* [8 K, ]/ N# f6 ^
protected static long agentIDCounter = 1$ Q" p, Z" s/ V" G. a3 Y# N1 Z
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/** # k4 a" r$ e6 \& {& P- i2 b *# o& g( |+ @, k% `" o
* This value is the agent's identifier. ! K g; W- R: J7 P( \8 F- b * @field agentID ) Y" V3 }0 b: Q * 0 m4 y8 L( @; ]2 y6 |' Z0 B */ ( Z1 a) {! `: N protected String agentID = "GasNode " + (agentIDCounter++) 6 V* F7 I+ U) Y6 M8 [7 W4 t, t3 Z% }
/** : Y/ W3 p' U# S* G& V4 l% t H * 9 q6 u; i& F0 K7 k# b * This is the step behavior.* x) f; N' c$ ~5 f' q' g0 D
* @method step 0 f2 a- f- a- b" M0 W2 `& S; E *: _) U+ g4 K6 Y' ~- E! O" h( D3 s3 x
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@Watch(# f0 C/ ]) D8 V* b s+ a$ ^0 A& W' U
watcheeClassName = 'infrastructuredemo.GasNode', / B7 H" U# `% j0 ^* o; u" n4 [ watcheeFieldNames = 'pressure',2 L' A! ~$ c* s( w* X5 {
query = 'linked_from', l' \# a! B" h' M# j* s9 I
whenToTrigger = WatcherTriggerSchedule.LATER, # F* r' ?/ V5 T6 l scheduleTriggerDelta = 10d: r3 R: G. [5 u1 o8 _0 c ~" n" S
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public def step(infrastructuredemo.GasNode watchedAgent) {$ i, A/ e. D$ T% b" v
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// Define the return value variable. / T2 N3 b: P; Q& q* z def returnValue ' c" t6 V3 V/ y7 i* N6 ^, a! ^ u& m5 ?; }
// Note the simulation time.6 u$ o" z9 N9 C h: P* h" }6 [1 e
def time = GetTickCountInTimeUnits()! d+ C& m9 P1 J0 q' c
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7 k: J ~3 h* ^+ |( W& |3 k+ i4 Z // This is an agent decision. 1 P: |1 [* d7 r1 \/ G3 F* W7 J if (watchedNode.pressure<200) { 2 S/ y f- Z5 t3 D3 j, z, |) j0 P: f# k" D, a
// This is a task. t- h$ j9 A, I) o" N setPressure(watchedAgent.pressure)8 T% x u- C- o7 ?
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} else {; `, `+ d; K$ E8 e
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// Return the results. # V( S( u! t& `; X return returnValue: F( z3 l. v( f! `- Z, c' V+ E
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. t- t& Q0 `# A3 a: F% I9 f' p6 U /** 6 i9 {2 H; ^/ c$ o * % \& e/ W2 z9 b0 t1 A1 u( M * This is the step behavior.4 {4 f5 N9 ?% F
* @method step# F5 a7 S6 f; f5 p$ F6 q; Y5 I; J& o7 H
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@ScheduledMethod(; t/ j( I, Y+ _. P9 ]1 p3 [8 G
start = 1d,$ _% {8 S0 f8 r
interval = 1d,* j" H/ [3 l; q, R9 B2 w+ @ j! ^
shuffle = false3 I4 Q5 J! U. G/ x3 C4 R
) 8 }) y9 b) A# I! i public void step() { 7 E' a b3 e. A+ J% Q' e+ L. M& i" y: \ s
// Note the simulation time. . D) o+ s* C' ?3 t def time = GetTickCountInTimeUnits() ! `, y' G4 X {/ x" @6 L ) `% R8 i/ i' u // This is a task.6 W- B! n9 s) Z5 p
measurePressure=pressure+ RandomDraw(-20.0, 20.0) + U0 ~$ Q# F6 Z // End the method./ D2 X, @* X# n
return" Z5 m0 Z3 B0 U5 N8 y
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发表于 2009-4-4 12:21:26
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