& `; P( _0 x: z& Q- o, l /**( d6 W6 ^5 c$ m u. S
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* This value is used to automatically generate agent identifiers.. L, a1 v z6 `$ S" T
* @field serialVersionUID' E' U- [% w, y! O* A6 E4 g
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*/ ' A* |' p. j1 }, ` private static final long serialVersionUID = 1L ; d; [) x3 e5 w, V$ F: A( _: B$ a$ W ?- W' ?; H5 R. q
/**$ L+ q) {! J s. D. I
* & L9 J# G' E+ U w5 [ * This value is used to automatically generate agent identifiers.% j S4 U k7 `: ?; }
* @field agentIDCounter 0 L! H4 x; M: K9 r * ' W2 M5 E3 l9 T( E */7 y2 {6 T' k- f4 t& a8 a
protected static long agentIDCounter = 1: \9 L' ~+ Z2 x6 J: T
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/** : G- n9 k) m% x$ N * # R/ I z) J S4 P# R* { * This value is the agent's identifier. * l+ I% c. v- |1 p9 G * @field agentID* ^) N( [6 @ @! w; X2 s9 f8 U
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*/ S" n6 g; E: y& E7 x
protected String agentID = "GasNode " + (agentIDCounter++)" u# N# Y$ H( [/ r( i0 x" }" x" G5 u
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/** 3 b, v) |$ o2 \* Q; i& Q/ r * 7 {0 S% j: V! R* u) D, z * This is the step behavior. 1 M2 s, |4 @$ _% u7 E * @method step ( k1 W! {) u4 \- p; `+ c7 x' d6 E * ! f( V! L- G! ~ O5 V' g */ ! n0 m& n! S$ V2 N# P0 Q+ G, X @Watch( % Q0 {6 b/ i7 k: r! w watcheeClassName = 'infrastructuredemo.GasNode'," O6 D" i. R! y" R
watcheeFieldNames = 'pressure', 5 \6 a; H/ r c$ ]4 V2 @/ X- g0 k query = 'linked_from', 3 a3 N3 \2 L, x( V6 T whenToTrigger = WatcherTriggerSchedule.LATER, 4 t; Q! u- ^" c4 J; n( J scheduleTriggerDelta = 10d ) L8 s. s) u: J3 u) b, a ) + x- G1 o- Y4 _ public def step(infrastructuredemo.GasNode watchedAgent) {3 y+ W% m( s4 G0 v4 o2 A, s
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// Define the return value variable.7 V/ h& h. Z( c( K
def returnValue 3 L- a% F+ e' O % d: z# d8 c" Q# a* J/ B% e // Note the simulation time.$ d. A9 U: i# w+ y1 E" e# z' E
def time = GetTickCountInTimeUnits()1 s) \0 C. u2 j5 ]8 t2 j1 P
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2 ]8 V$ l" m( s! x" n# a P' O // This is an agent decision. ( w W M1 `2 } H7 l if (watchedNode.pressure<200) { T |- q2 y, Y$ R" h' R5 h, p 6 \$ Q5 Y5 o3 Q2 n8 X5 l2 { // This is a task.$ d1 E$ N% L* V$ T2 u$ G
setPressure(watchedAgent.pressure)5 f, v$ B( k" f9 l( F
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} else { 8 A6 |2 N& a0 \4 t+ Y6 y" _ ) j. s5 z& ~2 {- ?: ?4 Z, S e5 ?$ {; Z- V* X* q
} 3 U5 T! p. a) t* _9 \0 K // Return the results. 8 k- J7 I3 d+ [8 j return returnValue : ?* \& _# P8 K1 f3 G* I & ?$ u* a! H/ {7 n4 H9 M }$ U, N/ ]* s! t' w" _
0 F) q U5 \" j1 e8 E9 V9 ~ /**5 s9 E% B: O3 G% K+ A
* ; h2 y2 S. M8 i0 r" }# `; q/ V * This is the step behavior. . n) }; i0 g' ]2 L4 D * @method step $ F+ j% z3 s; d/ v; _3 r *: E B) x9 W8 `- u( Y
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@ScheduledMethod(9 U/ H1 j$ o% K/ T* K; \& e
start = 1d,; A" I9 [: E* W: {7 S. |- O
interval = 1d,* K: j# y8 o; z
shuffle = false1 U$ m! h3 A4 V
) . e: u: r; {8 e2 W public void step() {' L4 t; S$ L; z2 L) W2 g6 W
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// Note the simulation time.: Q* v; y4 r. G: X- v( n
def time = GetTickCountInTimeUnits(), R7 ?2 X$ h( Z" z0 t
, T# i6 T' ~# G# n, V+ V' n // This is a task. & V. ?) c5 w* s, |0 A measurePressure=pressure+ RandomDraw(-20.0, 20.0) 3 o9 Z6 r% i" s/ Y8 Z // End the method.. m4 V, E: s* j9 l3 X# n [
return) X/ H4 @# W. S
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}
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