0 d( V- ~: V( d: w$ o% y5 p0 C@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")7 j% A2 C+ F/ n
public double getMeasured pressure() { % a. a# C, p' W: X$ _( I- j return measured pressure # R' J9 S& `1 Y }% z: Y2 Z4 X1 q( n v
public void setMeasured pressure(double newValue) { , l d. l# {7 c. g/ m, M* B measured pressure = newValue / S5 ]8 D9 e* `4 @# R* L$ P% e } 3 k: f) b# n5 X' a+ U public double measured pressure = 0. e# u1 |1 \: y" _2 Z' z
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/**9 W c+ n2 `, X8 B
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* This value is used to automatically generate agent identifiers. " K% q& \! b. i, C, r * @field serialVersionUID: b. [/ [% t Y5 j7 k
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private static final long serialVersionUID = 1L% q" k" q; C6 D9 Z1 Q3 Y/ A
4 V- n8 z1 E! I5 ] /**8 A2 Y. m o+ k
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* This value is used to automatically generate agent identifiers. 3 a, @, V5 E" Q6 Q9 m) f * @field agentIDCounter & n6 b$ Z' R j9 z" ?! h *# t, m) v4 z+ ? J- v
*/ 7 o! Q" B/ L! v D! P- y protected static long agentIDCounter = 1 : V+ [7 p& Y- o$ o, Y7 m+ \/ L" A' h1 K; N
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*! s: @. e0 k; N- z; H# F5 {
* This value is the agent's identifier. # u2 U( h" Y3 x% N * @field agentID. [( n9 ?5 G) h% ^! a! Z
* 2 {0 X: X! |. T */9 ^/ X$ l. m. @. Q- J4 K- |* K
protected String agentID = "GasNode " + (agentIDCounter++) $ l: P3 m/ ?; r. B ; U5 }9 ~( m& o* V$ z5 P /** 6 [7 ]3 l( j$ B* `9 m* C: x *8 G" v/ w% `* Q0 p
* This is the step behavior. * N4 Q( H, F# t+ P9 o- F * @method step 2 e, G6 L$ W0 A * 3 e* {5 H0 [! p: _& H( @1 q */ + g" @" }& \. Q' x9 i0 ? @Watch( 2 L6 b# g! g9 i. y1 Z" g watcheeClassName = 'infrastructuredemo.GasNode', , e( |* I1 U+ n' t) R% ^+ w4 T( y- \ watcheeFieldNames = 'pressure', 4 G, l9 Z4 l2 W6 d9 Y$ V query = 'linked_from',$ i6 h E2 G0 |
whenToTrigger = WatcherTriggerSchedule.LATER, 4 G, J& v/ Z+ R$ a scheduleTriggerDelta = 10d* E* ^* B8 h) {( o+ b
) 4 d9 ~1 k$ h4 L! @6 ` public def step(infrastructuredemo.GasNode watchedAgent) { 0 o) U! |# V% i. ]1 v M" @" m# u! K* L! P4 o
// Define the return value variable.1 X4 O# K/ q4 W2 g+ \6 F( f1 k& P
def returnValue 0 e* R. T3 f9 h5 Z/ M) Y% B( j3 X2 R+ D- @9 t
// Note the simulation time.( N8 M) {2 F' s: p0 U
def time = GetTickCountInTimeUnits()2 p0 u2 M/ I* D0 \2 ^" t+ F1 a
4 a+ U. V/ Q, c( w {
" n. Q( r+ I) |+ \$ U7 \1 E // This is an agent decision.$ }2 O' c5 x5 x3 V4 z1 ]& Y" K0 c
if (watchedNode.pressure<200) {* W7 L: N9 m" U
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// This is a task.1 P. ?$ W$ `+ s0 o
setPressure(watchedAgent.pressure) 8 s$ b) A1 ]4 ^ $ k5 G4 n: t% r K) F } else { 6 Z1 A2 e% z0 O4 r1 I . a9 b* D6 L/ d- q" k% l" D4 L! m- }$ C4 E
} 5 T M; x$ ~: B // Return the results. 9 ]: h1 A8 A* D7 `$ D1 P5 o return returnValue M, ~0 j) t2 x1 K6 E
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, ^7 P' {9 a9 I6 w4 ]/ ?' Q /**# e" Q$ p2 ?/ L; g& K. m+ n* p
* 8 y- _) w L9 h, g7 w * This is the step behavior. ( ?/ ?4 Q5 |2 ^( M9 V( { * @method step! W- @! d3 H- `, O
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*// x J5 d* Q5 J- G& U
@ScheduledMethod( - ^5 i1 T- x) G+ E2 u3 }* n" E4 X start = 1d,/ g/ T+ D# f" F( A
interval = 1d, 7 q9 Y& r3 j. [# z5 l7 W7 R- P$ b shuffle = false - }0 Z" n+ O9 Y2 c2 W e- j ) ! |* @* g& z; F% L' W, U) Y public void step() {0 C7 O" p9 W4 M: U' y9 E
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// Note the simulation time.1 d8 e9 F' D2 K! f, ^
def time = GetTickCountInTimeUnits(): n8 d; A$ |# b) _7 T( {( O
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// This is a task./ ?5 O& r" W- O7 u5 H
measurePressure=pressure+ RandomDraw(-20.0, 20.0), ^/ n' ^1 z0 v( V
// End the method.6 I! T) |% ?( u1 a, R
return # v& F$ N/ ?, o# C9 o/ E3 P/ } 7 B+ e2 S0 q4 ~ }
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发表于 2009-4-4 12:21:26
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