Differences between revisions 9 and 13 (spanning 4 versions)

Languages and tilings

This page gathers ideas for refactorization of sage.combinat.words and implementation of tilings.

You can subscribe to the associated mailing-list to discuss about this.

Structure

The refactorization of the current code should go in the patch #12224 which is almost done. Up to now the code is a bit dissaminated everywhere in Sage:

sage.categories
- .languages: A language is a subset of A^N where A is a set called alphabet. It is naturally graded by N and the grading is called the length.
- .factorial_languages: category of factorial languages
- .shifts: the category of shift
sage.combinat.words
- data structure for finite and infinite words
sage.monoids
- .free_monoid: the free monoid (replaces sage.combinat.words.words.Words)
- .free_monoid_morphism (replaces sage.combinat.words.morphism.WordMorphism)
sage.dynamics.symbolic
- .full_shift: an implementation of the full shift (replaces sage.combinat.words.words.Words)
sage.combinat.languages
- implementation of different languages
- specific data structure (suffix tree/trie, rauzy graph, return tree, ...)

What is bad/nice with categories:

inheritance of generic code
a bit confusing for the user who want to find the implementation of a method
confusing for the person who writes the code and ask "where should I put this ?"
...

What do we keep? What categories do we create?

Behavior of algorithms with infinite input data

What to do for equality of infinite words ?

What should do

sage: w1 == w2

Two possibilities:

test the first XXX letters for finding a difference. If find one then returns False otherwise raise an error, "seems to be equal use .is_equal(force=True) to launch the infinite test".
test all letters and never return True

Other suggestions ?

Subprojects

Finite languages and factor set

Most of it was implemented by Franco (suffix tree and suffix trie). We would like to enhance it and make a specific data structure (called Rauzy castle) for FiniteFactorialLanguages. See #12225.

Substitutive and adic languages

There are many algorithms for languages described by a sequence of substitutions (called a directive word). The particular case of morphic and purely morphic languages correspond respectively to periodic and purely_periodic directive words.

Enumeration of factors, desubstitution (#12227)
Factor complexity for purely morphic languages (#12231)
Equality for purely morphic languages (following J. Honkala, CANT, chapter 10)

Eventually periodic languages / words

They will be useful to define eventually periodic directive words for adic languages. See #12228.

TODO list

which should go in the main trac ticket

words path (currently in sage.combinat.words.paths) which have to be modified to fit with the new implementation

other todos

specific data structure rauzy graphs and return tree (Thierry)
1-dim subshift of finite type / sofic
n-dim finite words and n-dimensional shifts
n-dim subshifts of finite type
n-dim substitutive subshift
cellular automata
... add your whishes

-  ⇤ ← Revision 9 as of 2012-02-22 15:38:10 → 
  Size: 2526
  Editor: vdelecroix
  Comment:
+   ← Revision 13 as of 2012-02-23 12:13:03 → ⇥
  Size: 3632
  Editor: vdelecroix
  Comment:
-Deletions are marked like this.
+Additions are marked like this.
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-= Language and tilings =
+= Languages and tilings =
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+You can subscribe to the associated [[https://lma.metelu.net/mailman/listinfo/sage-words|mailing-list]] to discuss about this.
-Line 8:
+Line 10:
-The main structure should go in the patch [[http://trac.sagemath.org/sage_trac/ticket/12224|#12224]]. Up to now the code is a bit dissaminated everywhere in Sage:
+The refactorization of the current code should go in the patch [[http://trac.sagemath.org/sage_trac/ticket/12224|#12224]] which is almost done. Up to now the code is a bit dissaminated everywhere in Sage:
-Line 10:
+Line 12:
- * sage.categories.languages
 * sage.categories.factorial_languages
 * sage.categories.shifts
 * sage.categories.examples.languages
 * sage.monoids.free_monoid
 * sage.combinat.languages.*
 * sage.combinat.words.*
 * sage.dynamics.symbolic.full_shift
+ * sage.categories
   * .languages: A language is a subset of A^N where A is a set called alphabet. It is naturally graded by N and the grading is called the length.
   * .factorial_languages: category of factorial languages
   * .shifts: the category of shift
 * sage.combinat.words
   * data structure for finite and infinite words
 * sage.monoids
   * .free_monoid: the free monoid (replaces sage.combinat.words.words.Words)
   * .free_monoid_morphism (replaces sage.combinat.words.morphism.WordMorphism)
 * sage.dynamics.symbolic
   * .full_shift: an implementation of the full shift (replaces sage.combinat.words.words.Words)
 * sage.combinat.languages
   * implementation of different languages
   * specific data structure (suffix tree/trie, rauzy graph, return tree, ...)
-Line 22:
+Line 30:
+ * confusing for the person who writes the code and ask "where should I put this ?"
 * ...
-Line 23:
+Line 33:
-What should we keep? What categories should we create?
+What do we keep? What categories do we create?
-Line 39:
+Line 49:
+Other suggestions ?
-Line 53:
+Line 65:
+=== Eventually periodic languages / words ===

They will be useful to define eventually periodic directive words for adic languages. See [[http://trac.sagemath.org/sage_trac/ticket/12228|#12228]].
-Line 59:
+Line 75:
+ * specific data structure rauzy graphs and return tree (Thierry)
-Line 64:
+Line 81:
- * ...
+ * ... ''add your whishes''

Diff for "LanguagesAndTilings"