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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure")$ T; l4 K4 s: k6 T, m Q
public double getMeasured pressure() {0 O" I, x2 ~) g% `+ Q1 l Q
return measured pressure 0 E" Q- c0 |' B; @ l% U( R } ! I1 K- M' j7 e public void setMeasured pressure(double newValue) { 9 E# N5 \+ m( s2 n measured pressure = newValue# ]" w5 L8 \$ A
} 3 u& D, P9 g. ?5 l% g$ u; Z. I public double measured pressure = 0 * e& ^, L& e# a2 b # P: n" L+ y0 d4 N! I /** ' H2 e/ J0 ~6 k3 e *3 O2 ]" \9 _( |8 A" `4 Z& L2 F
* This value is used to automatically generate agent identifiers. 6 j& Q0 r* H( u) ?: h% a1 g( A * @field serialVersionUID * y& }- K: m2 m6 R$ s2 @8 c7 F3 K * 0 Z; ?8 C. q9 C# _. ?5 e' H */2 I7 \9 h8 X; J& e
private static final long serialVersionUID = 1L " u2 E7 i9 D$ \8 K- j, f ) K) j' v8 F. s2 W /**5 a# y$ A' j2 m8 h% _
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* This value is used to automatically generate agent identifiers. : [! I$ ?1 A$ s, i * @field agentIDCounter 8 R! F, `& L. ` *# R) {2 @ w( r/ z# X* O( ?- c8 N4 o3 N
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protected static long agentIDCounter = 1 k9 B+ ^# d( D" `: P
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* 2 `6 F- E- t, I- r8 G * This value is the agent's identifier.+ b! }% }8 E( s0 n
* @field agentID: r- s- X( D" y7 S1 `
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*/ . j% G! y0 h/ z1 z* F protected String agentID = "GasNode " + (agentIDCounter++) & {( e8 W2 e6 h* M3 j" P. w ; M; ~6 O$ x7 N$ e% `5 f" B m /** * t d* [! s$ B& h7 ~ *8 L+ _- }) Q; ^: O
* This is the step behavior. 9 n& d; l& o6 r# P/ Y * @method step 9 I1 `4 X5 N2 e) g3 L# h& U+ Q. I * 0 d6 n' R( I$ c( j */6 }9 l$ e0 ?. k) `* g
@Watch( ! y1 f& G/ B4 L Y- Z1 _9 j d/ R1 M watcheeClassName = 'infrastructuredemo.GasNode', % ]! R! y1 D. L$ _2 Y: H( y2 E8 ~ watcheeFieldNames = 'pressure',- e) u* H+ J, f: R0 q% c
query = 'linked_from',5 I2 V) x) }9 R: U" S
whenToTrigger = WatcherTriggerSchedule.LATER, 7 s- Q/ Q8 p9 J$ i) Q scheduleTriggerDelta = 10d . d( ^8 }& S3 _. L7 a' O4 l- C ) $ G# S: F- T% P# S% a+ j ` public def step(infrastructuredemo.GasNode watchedAgent) {" n5 c6 ]8 S8 v a( a) s; r8 v
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// Define the return value variable." ~, R( |6 J8 e l
def returnValue8 U4 [+ i. D1 R
' k: P. H' W5 ^4 v // Note the simulation time. & I' u& y. R* Z& w, a def time = GetTickCountInTimeUnits() 4 ~$ k+ L6 A2 b 8 r( S1 N" ~1 }+ g/ c4 n3 [2 f4 M
// This is an agent decision. , r, n7 y! c. D* |) F if (watchedNode.pressure<200) {3 P3 v, Q0 q- C
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// This is a task. ; f, _: r! e* w% d setPressure(watchedAgent.pressure) & E1 l( o- J" h( N: u0 {. M5 S( R# G- A5 E
} else {8 K* }1 U5 U- G
) V+ ~# B& c; U2 v8 B : |; [4 c, M' ^% g+ x" }. t9 f! N } 3 k. G1 `- s/ ~* C F9 o! P // Return the results.- k- d7 h( W1 K9 S# _0 n7 b
return returnValue3 p) g- T0 K9 T, u7 g- m$ Y3 e7 @
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/** 9 L7 u% \6 z# V) q8 P+ i$ N * 2 s8 ?6 {' ^$ o" S/ i * This is the step behavior. , Q+ B% f t2 s) O0 t * @method step+ x5 t# y* W% H$ u
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@ScheduledMethod( , u0 J' [4 O, o R start = 1d, $ I" \- x8 D/ o0 p& ]9 }% O# B9 E interval = 1d, & d% T: g. I& O4 s+ `+ l shuffle = false 0 H! y* z+ V1 e+ x1 w ) 2 C5 O1 h5 h3 M( o8 L0 @/ C public void step() { & `& v$ j0 o+ g$ q5 n ( s" h) a4 }& l T // Note the simulation time.! A2 [6 Y2 ^$ {/ c' X- z; _
def time = GetTickCountInTimeUnits()9 m' G+ s- z. h
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// This is a task.2 f3 @4 a1 U) S+ O5 ?$ ?% F
measurePressure=pressure+ RandomDraw(-20.0, 20.0) * o: {% i; x( n- l( ~& S // End the method. 4 `/ ?% a, Y2 c( n- [ return , d, ~0 @4 A& B# v * B$ z& |, W$ R! q2 Y }
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发表于 2009-4-4 12:21:26
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