% q5 ^% F. z* V! ^* \* R } ' L: z, t z9 t8 f2 N/ z# ~ // Return the results. - Y S$ j' v3 @, D P4 z+ p return returnValue* f7 N) |* |7 u- \8 Y. f
) f+ J+ y; E3 z2 a0 f }, g3 p/ Z& v: ?( d" K1 D
2 D9 e/ j' k( G
/**9 y9 y5 [- \" m1 C* T
*4 N ?% d! {8 _" r
* This is the step behavior.: ]" ]% U# l! K' E& z' V& j
* @method step 4 L- A; e/ l5 u. ]' \ * ; X H5 ^, |( j' Q$ q7 `, X */ 3 B3 j$ x2 }8 Y0 C M0 g7 X @ScheduledMethod( ' p) z4 m( a) y start = 1d,+ e5 z9 x/ b" o6 K
interval = 1d,; P6 z! G* C: t$ E
shuffle = false c& P7 x8 ]9 d/ d) g3 n% ^- H )/ t$ S7 H; N; ]- @, ^' W, \5 Z5 o
public void step() { ( y1 h$ v, ^1 d% v, _/ \4 X7 G% w$ z5 |* ~
// Note the simulation time. 0 P1 B9 U/ X* L$ Y/ {( Q( w def time = GetTickCountInTimeUnits()) G& }4 j' u2 o( M( e% N7 k
/ w3 K) m w0 p2 |6 M // This is a task.% {/ s$ @/ M% U# V" x$ c
measurePressure=pressure+ RandomDraw(-20.0, 20.0) 5 }4 J* h) D' i3 I& I: Q // End the method. ) v: X, v& U( U return ; h% r# M( t+ ^1 l0 S: \2 F1 N/ Q2 x h/ i# ~3 N
}