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As already asked in http://www.eclipse.org/forums/index.php/t/452409/ I am not sure I correctly got the meaning of local transition and I'd like to know whether I am using them with the right semantics or not

Are these two state machines equal?

State Machine with local transition

State Machine with no local transition

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Under UML 2.4.1, the first diagram shows a local transition from State1 on receipt of trigger where the second shows transitions between sub-states on receipt of trigger. An external transition from State1 would be shown by the arrow pointing out of State1 then curving back into it (Figure 15.48 of the superstructure specification).

Section 15.3.15 TransitionKind of the UML Superstructure 2.4.1 gives the semantics of internal, local and external transitions:

kind=local implies that the transition, if triggered, will not exit the composite (source) state, but it will apply to any state within the composite state, and these will be exited and entered.

As neither local nor transitions between sub-states will cause State1 to be exited, the diagrams show similar state machines - the difference being that from State1.3 the first machine will re-enter State1.3 (causing its exit and entry behaviours to be invoked) whereas the second will do nothing from State1.3 on trigger.

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An external transition is a transition that exits its source Vertex. Thus state1.1->state1.3; state1.2->state1.3 and state1.1->state1.2 are external transitions –  Sindico Feb 9 '13 at 12:24
    
I think the local transition in the first diagram would cause the execution of the exit behavior of the current State1 substate (not the exit behavior of the State1 state) followed by the entry behavior of the State1.3. –  Sindico Feb 9 '13 at 12:29
    
As far as I understand, the only difference with the second diagram is the lack the transition state1.3->state1.3 with the same trigger which is in fact also represented by local transition in the first SM –  Sindico Feb 9 '13 at 12:30
    
an internal transition is defined by the UML specification as a special case of a local Transition that is a self-transition (i.e. with the same source and target States). a further reason to claim state1.1->state1.2; state1.1->state1.3 and state1.2->state1.3 are not internal –  Sindico Feb 9 '13 at 12:46
    
@Sindico The transitions state 1.1 -> state 1.2 etc. are internal to state 1 - they do not cause the exit behaviour of state 1. They are external to the sub-states involved - they do cause the exit behaviour of state 1.1 and the entry behaviour of state 1.2. You have to be a bit careful about the context and sometimes have to say what the transition is internal/external to to be clear. –  Pete Kirkham Feb 9 '13 at 15:06

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