问jheatbugs-2001-03-28中某些代码

sybbk

HeatbugModelSwarm中buildActions部分，3个try分别是做什么？查了下refbook-java-2.2，解释太简略，还是不懂，高手指点，谢谢！代码如下：
$ ?8 c: J: _1 c- g5 M5 ]
public Object buildActions () {
5 r. y+ O6 z( c3 H    super.buildActions();
   
7 _" M* }. j. Z6 a9 u8 l    // Create the list of simulation actions. We put these in
    // an action group, because we want these actions to be
& s4 V3 G/ L/ y8 f# T. E    // executed in a specific order, but these steps should
    // take no (simulated) time. The M(foo) means "The message
    // called <foo>". You can send a message To a particular
! f9 S6 q6 |/ l; Z3 g" P5 F/ w    // object, or ForEach object in a collection.
        
# X) S4 ~/ A5 M& E% S    // Note we update the heatspace in two phases: first run
    // diffusion, then run "updateWorld" to actually enact the
    // changes the heatbugs have made. The ordering here is
    // significant!
        
4 \1 v- t* t# [2 q) q  m    // Note also, that with the additional
    // `randomizeHeatbugUpdateOrder' Boolean flag we can
    // randomize the order in which the bugs actually run
    // their step rule.  This has the effect of removing any
    // systematic bias in the iteration throught the heatbug
    // list from timestep to timestep
* f. P3 E" |* k; y        
    // By default, all `createActionForEach' modelActions have
    // a default order of `Sequential', which means that the
    // order of iteration through the `heatbugList' will be
9 S5 y" Z3 f0 a$ G2 V    // identical (assuming the list order is not changed
    // indirectly by some other process).
  s0 G( q/ n6 g: A; z! C- [   
    modelActions = new ActionGroupImpl (getZone ());

    try {
! N8 J& E8 ]+ o; E( ?      modelActions.createActionTo$message
& t2 U, N+ Y) t& {        (heat, new Selector (heat.getClass (), "stepRule", false));
2 S+ T& e+ O  f    } catch (Exception e) {
2 H& [! r# @- X( K5 R! q      System.err.println ("Exception stepRule: " + e.getMessage ());
    }
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    try {
$ y! X% e. w3 X; `; Z2 T      Heatbug proto = (Heatbug) heatbugList.get (0);
4 g  J8 T6 i- _! C0 I      Selector sel =
        new Selector (proto.getClass (), "heatbugStep", false);
      actionForEach =
        modelActions.createFActionForEachHomogeneous$call
  C, w  m* S2 t4 o  V        (heatbugList,
         new FCallImpl (this, proto, sel,
$ ~# F* e8 r8 F1 Y. o                        new FArgumentsImpl (this, sel)));
* I# k- c# j  K5 R0 l  H    } catch (Exception e) {
      e.printStackTrace (System.err);
    }
   
. h, A) a% f9 C+ {8 }% V* o  C    syncUpdateOrder ();

. Q, \& q# F6 B    try {
      modelActions.createActionTo$message
' R4 I% t* R' K& y        (heat, new Selector (heat.getClass (), "updateLattice", false));
4 W. [0 L5 \# V. k* d! Z& z    } catch (Exception e) {
      System.err.println("Exception updateLattice: " + e.getMessage ());
# ^" N# f4 s) i! q    }
        
7 O. |/ ]3 n7 v    // Then we create a schedule that executes the
( }3 @7 i' [" w' y7 F# f" G, B1 o8 {    // modelActions. modelActions is an ActionGroup, by itself it
    // has no notion of time. In order to have it executed in
5 k  Y& R, i6 ~    // time, we create a Schedule that says to use the
( n9 V5 Z4 ?! f/ V    // modelActions ActionGroup at particular times.  This
    // schedule has a repeat interval of 1, it will loop every
1 B9 W: k+ h' K    // time step.  The action is executed at time 0 relative to
+ j0 c: J3 r0 I# Q; s    // the beginning of the loop.

1 U! k+ d3 H8 P# G/ r$ a/ R    // This is a simple schedule, with only one action that is
. Y; u; Y- }4 H' |: _! i  c8 v    // just repeated every time. See jmousetrap for more
) o  p1 x7 }7 P* }1 S    // complicated schedules.
( Y* P) n" h$ @+ j  
# @  ^0 Q6 F9 \% A8 K; H+ h! S    modelSchedule = new ScheduleImpl (getZone (), 1);
    modelSchedule.at$createAction (0, modelActions);
        
    return this;
% ]; D/ n8 L- V+ k2 x& M9 k  }