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// Return the results.4 c- L; l) Y, a9 A8 ~
return returnValue N" t! s9 n5 W3 \1 F5 b ; M0 X1 T! h/ F y; [ }: }8 v: b x0 n7 h+ Y; j5 C
& w9 Y0 b; |7 I, w2 v# C) w5 ^5 r9 W /**$ V8 k! h) ~7 L: c5 v; u
* Q$ Z; h5 P: D6 w * This is the step behavior.1 I. a9 `' \. q
* @method step 1 l6 ~' ~ C' ^* Z( x( M *# V& J1 F: p/ _( q8 n" F
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@ScheduledMethod(3 I0 _# s( e/ G: G; ~
start = 1d,' s2 U4 L+ z- a+ U8 A: C: }4 ?! h
interval = 1d, # v w f" _- x+ G shuffle = false$ S; c. M( c; @3 C5 R
)( x6 m0 H ^0 _# p, F1 ~
public void step() {+ V: }5 x# Y/ W( W1 `( }& q3 `! m
0 e5 { O/ L" Y // Note the simulation time., s8 s+ t7 u6 {" K. k7 g/ m, f
def time = GetTickCountInTimeUnits(). {& A( R8 t1 e- J9 \
& X, ]) u0 r6 Q5 ]9 S% o2 P // This is a task. 1 c% x. V! n6 b: f8 H measurePressure=pressure+ RandomDraw(-20.0, 20.0)* B. O% [3 M/ j% ^9 j, I: j
// End the method. $ ?( z U) O* b b O! r+ b# T3 y9 c return3 f5 Y5 o; i/ v6 e. ~$ \! _
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}