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：

  a5 }$ x7 T2 K public Object buildActions () {
    super.buildActions();
1 [  A  y" H/ G4 p! _, o   
1 P8 u% S- |+ o4 {8 H( T    // Create the list of simulation actions. We put these in
* i" P% @5 [+ Z5 d4 b    // an action group, because we want these actions to be
) j( W- j! t. p0 E$ c& ^2 w! B- f6 j    // 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
    // object, or ForEach object in a collection.
1 L! S% l! H5 b! n2 I        
    // Note we update the heatspace in two phases: first run
    // diffusion, then run "updateWorld" to actually enact the
; K# K! I8 h; J  X    // changes the heatbugs have made. The ordering here is
    // significant!
        
    // Note also, that with the additional
; g$ ~3 Z9 q) ?9 E2 k8 X! {    // `randomizeHeatbugUpdateOrder' Boolean flag we can
    // randomize the order in which the bugs actually run
- R4 r7 e! ^4 ^4 G9 |' G    // their step rule.  This has the effect of removing any
    // systematic bias in the iteration throught the heatbug
* ?4 H* v0 L  g' e, V% @& h# f    // list from timestep to timestep
        
; U2 ^! S* I+ M3 G; @2 T    // By default, all `createActionForEach' modelActions have
    // a default order of `Sequential', which means that the
    // order of iteration through the `heatbugList' will be
    // identical (assuming the list order is not changed
" Q! x! k7 F2 \; }; u. S9 K- H( I    // indirectly by some other process).
   
    modelActions = new ActionGroupImpl (getZone ());

8 L1 Z1 a$ s" m$ _6 E    try {
3 [3 U0 ^9 p+ F: w" F8 w. x$ G      modelActions.createActionTo$message
+ V& d* ]) h# t+ z6 P        (heat, new Selector (heat.getClass (), "stepRule", false));
$ C% b0 b! P5 Y1 C    } catch (Exception e) {
/ I! p9 x" q$ H5 M: \5 y      System.err.println ("Exception stepRule: " + e.getMessage ());
    }

    try {
      Heatbug proto = (Heatbug) heatbugList.get (0);
+ H# z' U. M+ I0 J      Selector sel =
        new Selector (proto.getClass (), "heatbugStep", false);
# T, A# ~9 ~+ l) A4 I2 Z  E# Q6 d      actionForEach =
        modelActions.createFActionForEachHomogeneous$call
        (heatbugList,
1 k8 g4 x2 ~8 n4 X+ n9 L' q         new FCallImpl (this, proto, sel,
                        new FArgumentsImpl (this, sel)));
    } catch (Exception e) {
( g) o! W. T+ o0 x, T      e.printStackTrace (System.err);
    }
   
; l# F2 J3 s1 v3 x. ^2 {    syncUpdateOrder ();

* A3 X4 y; p2 F4 S& j1 |$ [  |    try {
      modelActions.createActionTo$message
- Z) O. I) Y" k        (heat, new Selector (heat.getClass (), "updateLattice", false));
    } catch (Exception e) {
1 b# v" h* }- E      System.err.println("Exception updateLattice: " + e.getMessage ());
    }
        
    // Then we create a schedule that executes the
    // modelActions. modelActions is an ActionGroup, by itself it
: q$ X4 b2 p6 V4 p4 ?/ K7 `    // has no notion of time. In order to have it executed in
    // time, we create a Schedule that says to use the
4 X( o* G4 g7 \4 n    // modelActions ActionGroup at particular times.  This
    // schedule has a repeat interval of 1, it will loop every
    // time step.  The action is executed at time 0 relative to
- w) u7 n2 ?& S3 u3 \" b/ a    // the beginning of the loop.

    // This is a simple schedule, with only one action that is
    // just repeated every time. See jmousetrap for more
    // complicated schedules.
! e- u: q4 u% F1 c' ^, l  
    modelSchedule = new ScheduleImpl (getZone (), 1);
    modelSchedule.at$createAction (0, modelActions);
6 ^* I. h0 y# \  {+ p        
; ]: E8 O& b5 W1 Q: h5 J    return this;
  n4 u' u+ K4 W4 L# n6 O  }