Minor-ECMA-problems

Revision as of 08:36, 25 September 2006 by Konradm (Talk | contribs) (Motivation)

Definition: Coupled name

Motivation

There are several situations in which the ECMA standard uses unfoled forms as a vehicle to describe semantics. When this unfoled forms need names, like in Precursor, inline agents and not isolated features. These names have an influence on the semantics of the system. An example: 

class
   B
feature
   f 
      do 
         (agent do g := g + 1; print (g) end).call ([]) 
      end
   g: INTEGER
end
 
class
   D
inherit
   B
      rename f as f1, g as g1, select f1, g1 end
   B
      rename f as f2, g as g2 end
end

It feels natural to unfold class B first and then inherit C from its unfolded form before C is unfolded: 

class
   B
feature
   f 
      do 
         (agent fict_name).call ([]) 
      end
   g: INTEGER
 
   fict_name 
      do 
         g := g + 1; print (g) 
      end
end
 
class
   D
inherit
   B
      rename f as f1, g as g1, select f1, g1 end
   B
      rename f as f2, g as g2 end
end

The call-equivalent of the inline-agent (here named fict_name) has a call to g which has several potential versions in D. Hence this is not a valid system. The same problem can occur with calls to Precursor. The programmer cannot do anything about it since he has no knowledge of the fictous name of the call-equivalent. There should have been some coupling between the name f and the name of the call-equivalent of the inline-agent. The unfolded form of a renaming would then also rename all the coupled name (a precice definition follows). Our final example woul become: 

class
   B
feature
   f 
      do 
         (agent fict_name).call ([]) 
      end
   g: INTEGER
 
   fict_name 
      do 
         g := g + 1; print (g) 
      end
end
 
class
   D
inherit
   B
      rename f as f1, fict_name1, g as g1 
      redefine f1, fict_name1
      select f1, g1, fict_name1 end
   B
      rename f as f2, fict_name as fict_name2, g as g2 
      redefine f2, fict_name2 end
feature
   f1 do (agent fict_name1).call ([]) end
   fict_name1 do g1 := g1 + 1; print (g1) end
 
   f2 do (agent fict_name2).call ([]) end
   fict_name2 do g2 := g2 + 1; print (g2) end      
end

A feature name can be coupled to the name of an other feature.

New Behaviour of renaming

The unfolded form of a renaming is the renaming itself plus the unfolded forms of the renamings of all the coupled names.

Precursor

The current definition of the Precursor semantics in the ECMA standard (8.10.11)

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