8 S) _8 C! i( S5 _@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 1 I0 Y* C, f3 S public double getMeasured pressure() {( @/ N$ ~, Z5 O$ ?6 u
return measured pressure9 ~& L8 ^4 b, O- f
} + a! o2 r4 `5 l; Z8 e/ g- y& O public void setMeasured pressure(double newValue) {% V/ f7 A# Y# u7 e5 ~% m
measured pressure = newValue + ~ Y" k I5 u3 |; k. o8 n% R }! B- \" }; R1 { E
public double measured pressure = 0 ( ?. r* H V* M' a& Y1 e: ?4 g. L( W
/** 4 P( \, \0 K1 J * 1 L- @% I; n) K * This value is used to automatically generate agent identifiers. ) c3 ]9 s& ^3 p1 F * @field serialVersionUID & o# C8 Y8 L6 ^1 J* H * ( W2 D: S! K6 C7 F( b' i9 I! o */ 0 H2 R% O& V. ?. O# s private static final long serialVersionUID = 1L 0 v8 ^; X- i/ @- U4 I% p! s }. @$ Z5 C8 h$ i /**5 {6 N1 q. t. W" ?* }5 ~$ R" z' X& h
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* This value is used to automatically generate agent identifiers. 0 I$ m$ m3 b+ { * @field agentIDCounter " a. i* ?& B- E, x) F * * N; z* u8 |8 E& w */6 J' `7 k* K& a/ X
protected static long agentIDCounter = 1& _6 d3 ^$ U# j( d8 R$ ^; g/ {
+ `! @* r+ r& ~/ |0 s
/**: t& ^/ X t f
*! M1 L% e* E+ k5 o1 ~3 k
* This value is the agent's identifier.6 U# x6 D6 K$ s# } q
* @field agentID 1 @- o) P1 b$ l% @2 N& m *; G9 A" ^* `0 w- B
*/ o9 N$ E- o& q# i; K protected String agentID = "GasNode " + (agentIDCounter++)& y1 o! A6 p" E( I9 [) x0 g& ^4 g
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/**2 F: `4 L/ H1 y; J/ ~+ O2 |
* 9 L0 l" ^" u, E2 X * This is the step behavior. 9 X4 M. r& Q5 z- A7 p" w * @method step 1 W n H' R8 r" Q0 d *2 h; e3 m3 j, ~ Q$ j
*/ * e& }# e0 ?+ z5 E2 u @Watch( * T" e$ \( X! @# g) b2 e watcheeClassName = 'infrastructuredemo.GasNode', 7 k6 o9 i5 A/ I q% Q watcheeFieldNames = 'pressure',7 B9 q* R4 _* S I/ D8 U
query = 'linked_from', ) q. o# C3 B/ f" _ whenToTrigger = WatcherTriggerSchedule.LATER, . h1 j: h( F1 O+ G scheduleTriggerDelta = 10d & s( o1 s9 d, B. b$ n- R4 U )+ l4 U' i+ M0 Z: c6 L4 k% t8 o/ K
public def step(infrastructuredemo.GasNode watchedAgent) { - B4 K, J: b6 s4 F4 m/ }8 Y8 _7 ~# Q8 }; J; E8 ^& ]
// Define the return value variable. / j4 P: ?. h" M: ` def returnValue) r2 }' O. e1 a+ \* u5 J
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// Note the simulation time.0 |2 P7 @- I/ {$ E9 |
def time = GetTickCountInTimeUnits()" k1 X; ]. s2 D1 ]/ _: t
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// This is an agent decision.+ J7 c+ K9 `& G* m) K
if (watchedNode.pressure<200) { S9 [1 u' Q: b
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// This is a task. ' ~4 {3 u$ _; M! T* c, _8 J setPressure(watchedAgent.pressure) # I3 G' H4 E+ }( l7 x . B1 f, u: M1 E: L } else {8 l; Q1 e4 S9 r5 [( W3 _, t
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// Return the results.1 H) \: z" X" f8 J7 P2 y
return returnValue - Z4 W; ^8 ^* I% m# f# u) r' x& ^; k6 Q0 r3 h1 Q, S- q/ v, Z
} 5 ^; C/ v; O' R ( I) ?, w+ O1 K+ w /** % k' L& c6 L' k * : W0 a( J, O# ` * This is the step behavior.# s$ B. g7 d( i" J1 I$ o3 L
* @method step! }1 l7 v1 e1 E
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*/ 5 T* Q+ a+ ]+ S% z+ o' x$ N- m @ScheduledMethod( ) V5 c& X. V! F$ k: O7 Z* B start = 1d,8 H$ }) t3 ~/ n7 h0 S% ^
interval = 1d,. P5 q1 h2 X! m5 j& R- J" E: {
shuffle = false8 ^! T/ T3 \0 q6 |$ |5 C
) ) k; P: Q% I0 A& U public void step() { 5 H/ z' r& f( j- J! J- p$ I, ?- ^( c+ L9 ]
// Note the simulation time. M/ I& P, t: _3 R* Z y9 B
def time = GetTickCountInTimeUnits()* n6 t x$ I8 U' G; _3 v9 I
' X1 k+ Y& P8 Y# s% Z$ z9 }; Q2 {2 e // This is a task.. P6 b' |, ]2 [+ Q" }* e
measurePressure=pressure+ RandomDraw(-20.0, 20.0) # T1 |# G& y, R: l1 A+ X# b6 p // End the method. 4 \8 F1 T% Q* U- Y return( b. K" B7 D; E7 [5 O# m( D
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