$ C+ p3 K- R# p9 M0 S d6 F & o: ]0 R; j# R1 W! v@Parameter (displayName = "Measured Pressure", usageName = "measured pressure") 4 `2 F& j; p0 u. F1 `( g7 I6 H1 O public double getMeasured pressure() {3 t T0 l8 G0 |0 k; x! ^1 l
return measured pressure 5 w( u9 a/ b t: ~ } : N4 s) Q5 N, v8 D8 i7 E public void setMeasured pressure(double newValue) {( Z. X1 `9 ]0 {2 C
measured pressure = newValue! w9 A7 z0 c W( Y9 U6 F
} # s- I( m$ I+ l* j public double measured pressure = 06 E3 X( N- q9 c( |, a- W: u u$ |
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/** 4 X8 q% ]6 S% @+ }2 @ * 3 A! ]# D' B# @) ~# Z5 V! O * This value is used to automatically generate agent identifiers. ; W- F. W" u9 q * @field serialVersionUID ( \7 D. w4 }6 b8 }6 C! z) D$ m/ U0 o7 }2 D * " L3 Z7 k9 q2 H* S */" [' W" C: f* t3 h/ E# @) H
private static final long serialVersionUID = 1L1 b# y# p& p# u$ e2 j6 b
% u* [: f# E2 n8 c% P2 z( h
/**( s% X4 K6 l8 z( Y# D5 J( V8 a" N
* % h; u% ~* a; K) N# m * This value is used to automatically generate agent identifiers.1 b) T8 d* d- G
* @field agentIDCounter: j' q+ Q# p) }- `8 E
*) }' k8 v% V E- H$ {, `
*/ - Z' G1 x3 S, P0 k protected static long agentIDCounter = 1 9 ?3 h! L* ~' b7 _, s) Z7 Z# L1 @* v9 v4 R. I, i
/** ( |1 j8 ^5 P" M% j! _* ~ u * $ R0 Z# J; {4 W L: Z5 p * This value is the agent's identifier. % i% i# ^% S% z- e * @field agentID4 n4 n! E/ N+ M( ~
* ; G4 i1 u+ b1 \9 ] */" t0 ~0 C1 _" t/ T
protected String agentID = "GasNode " + (agentIDCounter++)5 H/ ^: Z1 B. q
* O: d2 ], R' f& U2 k6 q0 f /**; P, U9 X; E# s2 f5 k
*9 I$ x5 x/ [- c3 h1 f) Y i
* This is the step behavior.8 p& Y% } k0 W2 l1 ?: G+ b8 A
* @method step 6 u0 X, p+ U" ~ *+ }# ?9 W8 t; t- ?( e2 @
*/ & f; J8 `- I" [' u1 A6 y @Watch( - l5 X9 V9 b/ N. \0 S# P6 L$ v6 B watcheeClassName = 'infrastructuredemo.GasNode', 1 K: `: y" d6 r6 X; X; k watcheeFieldNames = 'pressure',* `' I* _' v4 H% q5 ]1 ^
query = 'linked_from', 2 H/ _# g: G# _5 w% Z3 H6 f whenToTrigger = WatcherTriggerSchedule.LATER,: M0 }6 p& A2 {% m, d
scheduleTriggerDelta = 10d ( @" X( Z. ^! Z, o$ B" M )3 W% L1 B5 @# `/ u. E- h( k
public def step(infrastructuredemo.GasNode watchedAgent) { : |2 W, _8 }$ d 4 F- z( Z' r' G3 ~5 N1 }; w4 E // Define the return value variable. ! K e0 W2 H. H- B; } def returnValue & V) {4 B/ a/ U) \- k6 s4 y* E9 r) x& [& q: E, P8 Z& B' ~$ @+ }
// Note the simulation time.* L+ ~6 }9 @9 \# W: o
def time = GetTickCountInTimeUnits() * o' A: V1 t5 B4 r5 e% {, a( J 0 v0 _1 n( H- c/ E1 \ D' K& G7 Y: H
// This is an agent decision. : H, N8 x7 E9 v: ^4 m if (watchedNode.pressure<200) {( S7 g& g8 | _+ t J
# r9 J0 A& v1 R8 x3 y
// This is a task.5 I7 g3 _7 A* R! S
setPressure(watchedAgent.pressure) x% y3 a' O6 e * W! F" A; |4 ]% j } else { , {8 l0 T) k8 x $ R* \7 l$ Y1 z; w( F: o7 W! n8 ^% i& i. y- l0 F9 u! F8 _+ R
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// Return the results.$ F8 R- w8 `7 K
return returnValue 6 M% r" T e8 o1 X. d3 t5 c. ]# T# b: C' H8 j4 P( C
} ! Q4 @1 T g* u' {% \# N# J+ f0 [; C8 S& A# ^
/**: H0 R9 c4 ~1 @
* & |- y; R: Z# | * This is the step behavior.: r" |8 u9 k* ?" j: E5 q, I5 Q
* @method step $ z& _( a2 [# H( E) Y * 3 l, w+ X: y' ^ C */; ^8 g7 O3 o2 ~$ Z4 T, p* c
@ScheduledMethod( / z+ z* m7 W" |# A5 g9 R/ {, L start = 1d,+ A0 a" S. }( I! h
interval = 1d, : H$ U+ F- Q2 h" Z4 i( e shuffle = false 9 K* s+ d# `9 n# l ) X; H( A7 @: ~
public void step() {4 E9 x8 q u9 b
7 S- ?4 X* A3 X; _' L. w
// Note the simulation time./ E1 `+ k! S, k
def time = GetTickCountInTimeUnits()" T! c' q2 @& ^( }& q6 W5 U/ h- C
5 n2 ?7 f8 p. s5 ^1 o // This is a task.8 Z% e4 Z$ @' H" d" @9 b
measurePressure=pressure+ RandomDraw(-20.0, 20.0) }9 ]' h' ~2 {6 j, J: a1 F // End the method.$ r& o- Y- p6 q1 _9 H: @
return2 }/ u% M. A7 V7 O) k2 C3 i
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发表于 2009-4-4 12:21:26
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