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@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 3 n; j7 J6 S c# l. \( @4 k6 { public double getMeasured pressure() {: a) r7 D3 v; J: z: z4 s
return measured pressure 3 y5 O5 }. r* w3 c6 }8 ]; I. y } ( b( ]1 W5 v1 d4 h6 x; q6 i" E7 s public void setMeasured pressure(double newValue) {: {" i' Z4 Z4 d5 G
measured pressure = newValue9 v! |; H. d V" P# E$ x ~
} 6 p4 M0 k" f( P/ G$ F0 j0 a public double measured pressure = 0+ P& ^$ x2 g& o# Y% p
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/**! p; H) T# \$ d" c* b4 y6 \( w
* 2 p! h' [% @4 J$ H * This value is used to automatically generate agent identifiers.: ]+ L$ ~# K& J- `7 U. y7 ]
* @field serialVersionUID ( e9 B% ]8 G) T; X" g* K% ^ * `; R+ c1 D x3 ?8 Z% l */2 _" m: r) |: B
private static final long serialVersionUID = 1L$ F5 G+ e& p+ j8 S. |7 r* U
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/**7 M1 [$ T/ g- C
* ) b+ j* j/ t4 r* j& m( g1 m * This value is used to automatically generate agent identifiers.6 W" n: B" L* r, h& J2 ~! ]7 [
* @field agentIDCounter u4 E! |4 f, [$ Q5 u/ a: v *3 E1 U+ n' |& j# L8 u
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protected static long agentIDCounter = 1 0 u/ X0 M1 U: W5 F8 o. r+ [( O3 {# t0 z7 H4 j: Z/ k+ Q" ?% t
/** 5 a7 ?* S! s( {+ t; o8 }2 Q * 1 J/ `- T9 a0 w* r% Z; k * This value is the agent's identifier.0 ^$ U% K, k) Q& |1 T4 B
* @field agentID* ~( w# u& q( O# {+ o2 Y
*1 D$ b, o2 ^+ _: L( Z3 l9 i
*/ : n. L. u1 E. l: Q protected String agentID = "GasNode " + (agentIDCounter++)6 o# x C' w; ^4 R7 k q2 b
5 N0 s9 n) f5 k /**# ^/ i1 w- u- ^, i7 s
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* This is the step behavior. ' |* }/ G* F- ]' s * @method step ) m0 F/ G- G6 e) v+ L2 I0 F: c * 1 ~' o' n, n6 r. v6 O+ s I) N# f7 }* W */ - u) P' Z [0 j! O! L M; r/ G @Watch( / u; Q; N' { k) {0 R watcheeClassName = 'infrastructuredemo.GasNode',; p5 J0 e) G' `. z. P
watcheeFieldNames = 'pressure', 8 H* L: j7 P4 h4 d/ @* v7 ] query = 'linked_from', % c/ p/ z1 f% s6 p whenToTrigger = WatcherTriggerSchedule.LATER, 8 t2 u* l- f. { scheduleTriggerDelta = 10d 1 o( P/ i& }9 h ): H8 O. X5 K+ f, d8 |/ z
public def step(infrastructuredemo.GasNode watchedAgent) {, J$ v- @9 |8 T& ]. m- {
* m* t- h5 O1 }+ ~2 z // Define the return value variable.# X: ?9 {% W& Z4 T
def returnValue3 V8 ~0 s5 _% B \
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// Note the simulation time.' v; T8 R: ~$ d/ Q/ j
def time = GetTickCountInTimeUnits()# ]9 x7 z- H$ ?" W, u$ [
: q( \( T: y5 X) @( e - |/ P$ P; j4 y7 b# N: y* p5 L // This is an agent decision.1 {# _2 ~% c. |4 Z6 r1 Z
if (watchedNode.pressure<200) {1 _; l' } l. r% B+ U) m3 \& {
3 h# y* w8 q- J2 `: [# \: A' q // This is a task. ; d8 ^+ D9 S" l9 X7 ? setPressure(watchedAgent.pressure) & s" I Y) z, {+ y# G 3 h: O& I- Z* b8 ?( a: E" T$ ?1 P } else { 2 Y( E- A( n3 B5 w6 G8 z4 W3 [) M$ O6 n) b" K v
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// Return the results.$ V8 I$ R# v, g' e2 b6 Z3 j
return returnValue ' Q$ ~5 |) u* O* ?" ~6 J2 O% Y5 q, G+ U5 T H+ t
} ( H. p+ [$ Z6 k ; D3 K! G0 |- u, q( y6 \/ Q+ E /**, a) m, d5 k/ X1 V0 c y+ u* |4 z' k
* 2 c" ~9 [# s a8 U% O$ { * This is the step behavior. , P5 j* P: ]' C+ U- T$ `( S( P: V, v * @method step: V' W) W6 \+ I2 c8 b% j I
*9 \: v4 b! r5 X3 l8 F3 L
*/ 6 t8 E' b X- K5 a) v" b @ScheduledMethod( / n+ r8 }; c' v. F start = 1d,: `& o3 J/ h4 H, ~' y6 b
interval = 1d,$ z, P4 ^" Y1 j7 z( F' U$ ]
shuffle = false$ y0 F4 l" G. ~
) / j& w. N0 w! d. b public void step() {; B! Z7 i7 C" F4 C- g2 X
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// Note the simulation time.1 v: Y1 y7 j& H) c& w; t
def time = GetTickCountInTimeUnits()$ c1 C" m; C: t' v
3 f, b" p$ n' l) G# O // This is a task. ) C$ t* \. n$ \2 e' K# \+ R measurePressure=pressure+ RandomDraw(-20.0, 20.0) 0 G5 B. i5 B* s8 y // End the method.0 e& Q! Y5 l, d# ]
return7 V7 m6 W1 |4 a B! B% @
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发表于 2009-4-4 12:21:26
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