nitg-s: replaced model queries from colorers by MModule queries

[nit.git] / src / coloring.nit
diff --git a/src/coloring.nit b/src/coloring.nit

index 4e4805d..e4fe7a8 100644 (file)
--- a/src/coloring.nit
+++ b/src/coloring.nit
@@ -19,20 +19,14 @@ import rapid_type_analysis # for type coloration
  
  abstract class AbstractColoring[E: Object]
  
-       private var sorter: AbstractSorter[E]
-       private var reverse_sorter: AbstractSorter[E]
-
-       private var core: OrderedSet[E] = new OrderedSet[E]
-       private var crown: OrderedSet[E] = new OrderedSet[E]
-       private var border: OrderedSet[E] = new OrderedSet[E]
+       private var core: Set[E] = new HashSet[E]
+       private var crown: Set[E] = new HashSet[E]
+       private var border: Set[E] = new HashSet[E]
  
         private var coloration_result: Map[E, Int] = new HashMap[E, Int]
         private var conflicts_graph_cache: nullable HashMap[E, Set[E]]
  
-       init(sorter: AbstractSorter[E], reverse_sorter: AbstractSorter[E]) do
-               self.sorter = sorter
-               self.reverse_sorter = reverse_sorter
-       end
+       init do end
  
         fun colorize(elements: Collection[E]): Map[E, Int] do
                 # tag each element as part of group core, crown or border
@@ -44,11 +38,6 @@ abstract class AbstractColoring[E: Object]
                 #print "border: {border.join(", ")}"
                 #print "crown: {crown.join(", ")}"
  
-               # sort by reverse linearization order
-               reverse_sorter.sort(core)
-               reverse_sorter.sort(border)
-               reverse_sorter.sort(crown)
-
                 #print "conflicts"
                 #for k, v in conflicts_graph do
                 #       if k isa MType then
@@ -65,10 +54,11 @@ abstract class AbstractColoring[E: Object]
         end
  
         # Colorize a collection of elements
-       private fun colorize_elements(elements: Collection[E]) do
+       private fun colorize_elements(elements: Set[E]) do
                 var min_color = 0
  
-               for element in elements do
+               var lin = reverse_linearize(elements)
+               for element in lin do
                         var color = min_color
                         while not self.is_color_free(element, color) do
                                 color += 1
@@ -121,7 +111,8 @@ abstract class AbstractColoring[E: Object]
         private fun conflicts_graph: Map[E, Set[E]] do
                 if self.conflicts_graph_cache == null then
                         self.conflicts_graph_cache = new HashMap[E, HashSet[E]]
-                       for t in self.core do
+                       var core = reverse_linearize(self.core)
+                       for t in core do
                                 for i in self.linear_extension(t) do
                                         if t == i then continue
  
@@ -152,28 +143,24 @@ abstract class AbstractColoring[E: Object]
         end
  
         # cache for linear_extensions
-       private var linear_extensions_cache: Map[E, OrderedSet[E]] = new HashMap[E, OrderedSet[E]]
+       private var linear_extensions_cache: Map[E, Array[E]] = new HashMap[E, Array[E]]
  
         # Return a linear_extension of super_elements of the element
-       private fun linear_extension(element: E): OrderedSet[E] do
+       private fun linear_extension(element: E): Array[E] do
                 if not self.linear_extensions_cache.has_key(element) then
-                       var lin = new OrderedSet[E]
-                       lin.add(element)
-                       lin.add_all(self.super_elements(element))
-                       self.sorter.sort(lin)
-                       self.linear_extensions_cache[element] = lin
+                       var supers = new HashSet[E]
+                       supers.add(element)
+                       supers.add_all(self.super_elements(element))
+                       self.linear_extensions_cache[element] = self.linearize(supers)
                 end
                 return self.linear_extensions_cache[element]
         end
  
-       # Return all super elements (directs and indirects) of an element
-       private fun super_elements(element: E): Collection[E] is abstract
-
-       # Return all sub elements (directs and indirects) of an element
-       private fun sub_elements(element: E): Collection[E] is abstract
-
-       # Is the element in multiple inheritance ?
+       private fun super_elements(element: E): Set[E] is abstract
+       private fun sub_elements(element: E): Set[E] is abstract
         private fun is_element_mi(element: E): Bool is abstract
+       private fun linearize(elements: Set[E]): Array[E] is abstract
+       private fun reverse_linearize(elements: Set[E]): Array[E] is abstract
  end
  
  # MClassType coloring
@@ -185,12 +172,7 @@ class TypeColoring
         private var mmodule: MModule
         private var mtypes: Set[T]
  
-       # caches
-       private var super_elements_cache: Map[T, Set[T]] = new HashMap[T, Set[T]]
-       private var sub_elements_cache: Map[T, Set[T]] = new HashMap[T, Set[T]]
-
         init(mainmodule: MModule, mtypes: Set[T]) do
-               super(new TypeSorter(mainmodule), new ReverseTypeSorter(mainmodule))
                 self.mmodule = mainmodule
                 self.mtypes = mtypes
         end
@@ -218,39 +200,11 @@ class TypeColoring
                 return tables
         end
  
-       redef fun super_elements(element) do
-               if not self.super_elements_cache.has_key(element) then
-                       var supers = new HashSet[T]
-                       for mtype in self.mtypes do
-                               if element == mtype then continue
-                               if element.is_subtype(self.mmodule, null, mtype) then
-                                       supers.add(mtype)
-                               end
-                       end
-                       self.super_elements_cache[element] = supers
-               end
-               return self.super_elements_cache[element]
-       end
-
-       # Return all direct super elements of an element
-       redef fun is_element_mi(element) do
-               return self.super_elements(element).length > 1
-       end
-
-       # Return all sub elements (directs and indirects) of an element
-       redef fun sub_elements(element) do
-               if not self.sub_elements_cache.has_key(element) then
-                       var subs = new HashSet[T]
-                       for mtype in self.mtypes do
-                               if element == mtype then continue
-                               if mtype.is_subtype(self.mmodule, null, element) then
-                                       subs.add(mtype)
-                               end
-                       end
-                       self.sub_elements_cache[element] = subs
-               end
-               return self.sub_elements_cache[element]
-       end
+       redef fun super_elements(element) do return self.mmodule.super_mtypes(element, mtypes)
+       redef fun is_element_mi(element) do return self.super_elements(element).length > 1
+       redef fun sub_elements(element) do do return self.mmodule.sub_mtypes(element, mtypes)
+       redef fun linearize(elements) do return self.mmodule.linearize_mtypes(elements)
+       redef fun reverse_linearize(elements) do return self.mmodule.reverse_linearize_mtypes(elements)
  end
  
  class NaiveTypeColoring
@@ -349,40 +303,6 @@ class TypeAndPerfectHashing
         redef fun op(mask, id) do return mask.bin_and(id)
  end
  
-# A sorter for linearize list of types
-class TypeSorter
-       super AbstractSorter[MType]
-
-       private var mmodule: MModule
-
-       init(mmodule: MModule) do self.mmodule = mmodule
-
-       redef fun compare(a, b) do
-               if a == b then
-                       return 0
-               else if a.is_subtype(self.mmodule, null, b) then
-                       return -1
-               end
-               return 1
-       end
-end
-
-# A sorter for reverse linearization
-class ReverseTypeSorter
-       super TypeSorter
-
-       init(mmodule: MModule) do end
-
-       redef fun compare(a, b) do
-               if a == b then
-                       return 0
-               else if a.is_subtype(self.mmodule, null, b) then
-                       return 1
-               end
-               return -1
-       end
-end
-
  # MClass coloring
  class ClassColoring
         super AbstractColoring[MClass]
@@ -396,10 +316,7 @@ class ClassColoring
         private var parent_elements_cache: Map[T, Set[T]] = new HashMap[T, Set[T]]
         private var sub_elements_cache: Map[T, Set[T]] = new HashMap[T, Set[T]]
  
-       init(mainmodule: MModule) do
-               super(new ClassSorter(mainmodule), new ReverseClassSorter(mainmodule))
-               self.mmodule = mainmodule
-       end
+       init(mainmodule: MModule) do self.mmodule = mainmodule
  
         # Build type tables
         fun build_type_tables(mclasses: Array[T], colors: Map[T, Int]): Map[T, Array[nullable T]] do
@@ -424,53 +341,12 @@ class ClassColoring
                 return tables
         end
  
-       redef fun super_elements(element) do
-               if not self.super_elements_cache.has_key(element) then
-                       var supers = new HashSet[T]
-                       if self.mmodule.flatten_mclass_hierarchy.has(element) then
-                               for sup in self.mmodule.flatten_mclass_hierarchy[element].greaters do
-                                       if element == sup then continue
-                                       supers.add(sup)
-                               end
-                       end
-                       self.super_elements_cache[element] = supers
-               end
-               return self.super_elements_cache[element]
-       end
-
-       private fun parent_elements(element: T): Set[T] do
-               if not self.parent_elements_cache.has_key(element) then
-                       var parents = new HashSet[T]
-                       if self.mmodule.flatten_mclass_hierarchy.has(element) then
-                               for parent in self.mmodule.flatten_mclass_hierarchy[element].direct_greaters do
-                                       if element == parent then continue
-                                       parents.add(parent)
-                               end
-                       end
-                       self.parent_elements_cache[element] = parents
-               end
-               return self.parent_elements_cache[element]
-       end
-
-       # Return all sub elements (directs and indirects) of an element
-       redef fun sub_elements(element) do
-               if not self.sub_elements_cache.has_key(element) then
-                       var subs = new HashSet[T]
-                       if self.mmodule.flatten_mclass_hierarchy.has(element) then
-                               for sub in self.mmodule.flatten_mclass_hierarchy[element].smallers do
-                                       subs.add(sub)
-                               end
-                       end
-                       self.sub_elements_cache[element] = subs
-               end
-               return self.sub_elements_cache[element]
-       end
-
-       # Return all direct super elements of an element
-       redef fun is_element_mi(element) do
-               if not self.mmodule.flatten_mclass_hierarchy.has(element) then return false
-               return self.mmodule.flatten_mclass_hierarchy[element].direct_greaters.length > 1
-       end
+       redef fun super_elements(element) do return self.mmodule.super_mclasses(element)
+       fun parent_elements(element: MClass): Set[MClass] do return self.mmodule.parent_mclasses(element)
+       redef fun is_element_mi(element) do return self.parent_elements(element).length > 1
+       redef fun sub_elements(element) do do return self.mmodule.sub_mclasses(element)
+       redef fun linearize(elements) do return self.mmodule.linearize_mclasses(elements)
+       redef fun reverse_linearize(elements) do return self.mmodule.reverse_linearize_mclasses(elements)
  end
  
  # incremental coloring (very naive)
@@ -482,7 +358,7 @@ class NaiveClassColoring
         end
  
         # naive coloring that use incremental coloring
-       redef fun colorize_elements(elements: Collection[MClass]) do
+       redef fun colorize_elements(elements) do
                 for e in elements do
                         self.coloration_result[e] = self.coloration_result.length
                 end
@@ -570,38 +446,6 @@ class ClassAndPerfectHashing
         redef fun op(mask, id) do return mask.bin_and(id)
  end
  
-# A sorter for linearize list of classes
-private class ClassSorter
-       super AbstractSorter[MClass]
-
-       var mmodule: MModule
-
-       redef fun compare(a, b) do
-               if a == b then
-                       return 0
-               else if self.mmodule.flatten_mclass_hierarchy.has(a) and self.mmodule.flatten_mclass_hierarchy[a].greaters.has(b) then
-                       return -1
-               end
-               return 1
-       end
-end
-
-# A sorter for reverse linearization
-private class ReverseClassSorter
-       super AbstractSorter[MClass]
-
-       var mmodule: MModule
-
-       redef fun compare(a, b) do
-               if a == b then
-                       return 0
-               else if self.mmodule.flatten_mclass_hierarchy.has(a) and self.mmodule.flatten_mclass_hierarchy[a].greaters.has(b) then
-                       return 1
-               end
-               return -1
-       end
-end
-
  # MProperty coloring
  class PropertyColoring
  
@@ -627,10 +471,9 @@ class PropertyColoring
                 for mclass in self.class_coloring.coloration_result.keys do
                         var table = new Array[nullable MPROPDEF]
                         # first, fill table from parents by reverse linearization order
-                       var parents = new OrderedSet[MClass]
-                       parents.add_all(self.class_coloring.super_elements(mclass))
-                       self.class_coloring.reverse_sorter.sort(parents)
-                       for parent in parents do
+                       var parents = self.class_coloring.super_elements(mclass)
+                       var lin = self.class_coloring.reverse_linearize(parents)
+                       for parent in lin do
                                 for mproperty in self.properties(parent) do
                                         var color = self.coloration_result[mproperty]
                                         if table.length <= color then
@@ -774,6 +617,134 @@ class VTColoring
         init(class_coloring: ClassColoring) do end
  end
  
+class NaiveVTColoring
+       super VTColoring
+
+       init(class_coloring: ClassColoring) do end
+
+       redef fun colorize: Map[MPROP, Int] do
+               var mclasses = new HashSet[MClass]
+               mclasses.add_all(self.class_coloring.core)
+               mclasses.add_all(self.class_coloring.crown)
+               var min_color = 0
+
+               for mclass in mclasses do
+                       min_color = max_color(min_color, mclasses)
+                       colorize_elements(self.properties(mclass), min_color)
+               end
+               return self.coloration_result
+       end
+end
+
+abstract class VTPerfectHashing
+       super VTColoring
+
+       private var masks: Map[MClass, Int] = new HashMap[MClass, Int]
+
+       init(class_coloring: ClassColoring) do end
+
+       redef fun colorize: Map[MPROP, Int] do
+               var mclasses = new HashSet[MClass]
+               mclasses.add_all(self.class_coloring.core)
+               mclasses.add_all(self.class_coloring.crown)
+               for mclass in mclasses do
+                       var vts = self.properties(mclass)
+                       for vt in vts do
+                               if coloration_result.has_key(vt) then continue
+                               coloration_result[vt] = coloration_result.length + 1
+                       end
+               end
+               return self.coloration_result
+       end
+
+       fun compute_masks: Map[MClass, Int] do
+               var mclasses = new HashSet[MClass]
+               mclasses.add_all(self.class_coloring.core)
+               mclasses.add_all(self.class_coloring.crown)
+               for mclass in mclasses do
+                       self.masks[mclass] = compute_mask(self.properties(mclass))
+               end
+               return self.masks
+       end
+
+       private fun compute_mask(vts: Set[MPROP]): Int do
+               var mask = 0
+               loop
+                       var used = new List[Int]
+                       for vt in vts do
+                               var res = op(mask, self.coloration_result[vt])
+                               if used.has(res) then
+                                       break
+                               else
+                                       used.add(res)
+                               end
+                       end
+                       if used.length == vts.length then break
+                       mask += 1
+               end
+               return mask
+       end
+
+       redef fun build_property_tables do
+               var tables = new HashMap[MClass, Array[nullable MPROPDEF]]
+
+               for mclass in self.class_coloring.coloration_result.keys do
+                       var table = new Array[nullable MPROPDEF]
+                       # first, fill table from parents by reverse linearization order
+                       var parents = self.class_coloring.super_elements(mclass)
+                       var lin = self.class_coloring.reverse_linearize(parents)
+                       for parent in lin do
+                               for mproperty in self.properties(parent) do
+                                       var color = phash(self.coloration_result[mproperty], masks[mclass])
+                                       if table.length <= color then
+                                               for i in [table.length .. color[ do
+                                                       table[i] = null
+                                               end
+                                       end
+                                       for mpropdef in mproperty.mpropdefs do
+                                               if mpropdef.mclassdef.mclass == parent then
+                                                       table[color] = mpropdef
+                                               end
+                                       end
+                               end
+                       end
+
+                       # then override with local properties
+                       for mproperty in self.properties(mclass) do
+                               var color = phash(self.coloration_result[mproperty], masks[mclass])
+                               if table.length <= color then
+                                       for i in [table.length .. color[ do
+                                               table[i] = null
+                                       end
+                               end
+                               for mpropdef in mproperty.mpropdefs do
+                                       if mpropdef.mclassdef.mclass == mclass then
+                                               table[color] = mpropdef
+                                       end
+                               end
+                       end
+                       tables[mclass] = table
+               end
+               return tables
+       end
+
+       private fun op(mask: Int, id:Int): Int is abstract
+       private fun phash(id: Int, mask: Int): Int do return op(mask, id)
+
+end
+
+class VTModPerfectHashing
+       super VTPerfectHashing
+       init(class_coloring: ClassColoring) do end
+       redef fun op(mask, id) do return mask % id
+end
+
+class VTAndPerfectHashing
+       super VTPerfectHashing
+       init(class_coloring: ClassColoring) do end
+       redef fun op(mask, id) do return mask.bin_and(id)
+end
+
  # MParameterType coloring
  class FTColoring
         private var class_coloring: ClassColoring
@@ -896,51 +867,173 @@ class FTColoring
         end
  end
  
-# Live Entries coloring
-class LiveEntryColoring
+class NaiveFTColoring
+       super FTColoring
  
-       private var coloration_result: Map[MType, Int] = new HashMap[MType, Int]
-       private var conflicts_graph_cache: nullable HashMap[MType, Set[MType]]
-       var livetypes_tables_sizes: nullable Map[MClass, Array[Int]]
+       init(class_coloring: ClassColoring) do end
  
-       init do end
+       redef fun colorize: Map[MParameterType, Int] do
+               var mclasses = new HashSet[MClass]
+               mclasses.add_all(self.class_coloring.core)
+               mclasses.add_all(self.class_coloring.crown)
+               var min_color = 0
  
-       fun colorize(elements: Collection[MType]): Map[MType, Int] do
-               # compute conflicts
-               build_conflicts_graph(elements)
+               for mclass in mclasses do
+                       min_color = max_color(min_color, mclasses)
+                       colorize_elements(self.fts(mclass), min_color)
+               end
+               return self.coloration_result
+       end
+end
  
-               # colorize graph
-               colorize_elements(elements)
+abstract class FTPerfectHashing
+       super FTColoring
  
-               return coloration_result
-       end
+       private var masks: Map[MClass, Int] = new HashMap[MClass, Int]
  
-       # Build type tables
-       fun build_livetype_tables(mtypes: Set[MType]): Map[MClass, Array[nullable Object]] do
-               var livetypes_tables = new HashMap[MClass, Array[nullable Object]]
-               self.livetypes_tables_sizes = new HashMap[MClass, Array[Int]]
+       init(class_coloring: ClassColoring) do end
  
-               for mtype in mtypes do
-                       if mtype isa MGenericType then
-                               var table: Array[nullable Object]
-                               var sizes: Array[Int]
-                               if livetypes_tables.has_key(mtype.mclass) then
-                                       table = livetypes_tables[mtype.mclass]
-                               else
-                                       table = new Array[nullable Object]
-                                       livetypes_tables[mtype.mclass] = table
-                               end
-                               if livetypes_tables_sizes.has_key(mtype.mclass) then
-                                       sizes = livetypes_tables_sizes[mtype.mclass]
-                               else
-                                       sizes = new Array[Int]
-                                       livetypes_tables_sizes[mtype.mclass] = sizes
-                               end
-                               build_livetype_table(mtype, 0, table, sizes)
+       redef fun colorize: Map[MParameterType, Int] do
+               var mclasses = new HashSet[MClass]
+               mclasses.add_all(self.class_coloring.core)
+               mclasses.add_all(self.class_coloring.crown)
+               for mclass in mclasses do
+                       for ft in self.fts(mclass) do
+                               if coloration_result.has_key(ft) then continue
+                               coloration_result[ft] = coloration_result.length + 1
                         end
                 end
+               return self.coloration_result
+       end
  
-               return livetypes_tables
+       fun compute_masks: Map[MClass, Int] do
+               var mclasses = new HashSet[MClass]
+               mclasses.add_all(self.class_coloring.core)
+               mclasses.add_all(self.class_coloring.crown)
+               for mclass in mclasses do
+                       var fts = new HashSet[MParameterType]
+                       for parent in self.class_coloring.super_elements(mclass) do
+                               fts.add_all(self.fts(parent))
+                       end
+                       fts.add_all(self.fts(mclass))
+                       self.masks[mclass] = compute_mask(fts)
+               end
+               return self.masks
+       end
+
+       private fun compute_mask(fts: Set[MParameterType]): Int do
+               var mask = 0
+               loop
+                       var used = new List[Int]
+                       for ft in fts do
+                               var res = op(mask, self.coloration_result[ft])
+                               if used.has(res) then
+                                       break
+                               else
+                                       used.add(res)
+                               end
+                       end
+                       if used.length == fts.length then break
+                       mask += 1
+               end
+               return mask
+       end
+
+       redef fun build_ft_tables do
+               var tables = new HashMap[MClass, Array[nullable MParameterType]]
+
+               for mclass in self.class_coloring.coloration_result.keys do
+                       var table = new Array[nullable MParameterType]
+
+                       # first, fill table from parents
+                       for parent in self.class_coloring.super_elements(mclass) do
+                               for ft in self.fts(parent) do
+                                       var color = phash(self.coloration_result[ft], masks[mclass])
+                                       if table.length <= color then
+                                               for i in [table.length .. color[ do
+                                                       table[i] = null
+                                               end
+                                       end
+                                       table[color] = ft
+                               end
+                       end
+
+                       # then override with local properties
+                       for ft in self.fts(mclass) do
+                               var color = phash(self.coloration_result[ft], masks[mclass])
+                               if table.length <= color then
+                                       for i in [table.length .. color[ do
+                                               table[i] = null
+                                       end
+                               end
+                               table[color] = ft
+                       end
+                       tables[mclass] = table
+               end
+               return tables
+       end
+
+       private fun op(mask: Int, id:Int): Int is abstract
+       private fun phash(id: Int, mask: Int): Int do return op(mask, id)
+end
+
+class FTModPerfectHashing
+       super FTPerfectHashing
+       init(class_coloring: ClassColoring) do end
+       redef fun op(mask, id) do return mask % id
+end
+
+class FTAndPerfectHashing
+       super FTPerfectHashing
+       init(class_coloring: ClassColoring) do end
+       redef fun op(mask, id) do return mask.bin_and(id)
+end
+
+# Live Entries coloring
+class LiveEntryColoring
+
+       private var coloration_result: Map[MType, Int] = new HashMap[MType, Int]
+       private var conflicts_graph_cache: nullable HashMap[MType, Set[MType]]
+       var livetypes_tables_sizes: nullable Map[MClass, Array[Int]]
+
+       init do end
+
+       fun colorize(elements: Collection[MType]): Map[MType, Int] do
+               # compute conflicts
+               build_conflicts_graph(elements)
+
+               # colorize graph
+               colorize_elements(elements)
+
+               return coloration_result
+       end
+
+       # Build type tables
+       fun build_livetype_tables(mtypes: Set[MType]): Map[MClass, Array[nullable Object]] do
+               var livetypes_tables = new HashMap[MClass, Array[nullable Object]]
+               self.livetypes_tables_sizes = new HashMap[MClass, Array[Int]]
+
+               for mtype in mtypes do
+                       if mtype isa MGenericType then
+                               var table: Array[nullable Object]
+                               var sizes: Array[Int]
+                               if livetypes_tables.has_key(mtype.mclass) then
+                                       table = livetypes_tables[mtype.mclass]
+                               else
+                                       table = new Array[nullable Object]
+                                       livetypes_tables[mtype.mclass] = table
+                               end
+                               if livetypes_tables_sizes.has_key(mtype.mclass) then
+                                       sizes = livetypes_tables_sizes[mtype.mclass]
+                               else
+                                       sizes = new Array[Int]
+                                       livetypes_tables_sizes[mtype.mclass] = sizes
+                               end
+                               build_livetype_table(mtype, 0, table, sizes)
+                       end
+               end
+
+               return livetypes_tables
         end
  
         # Build live gentype table recursively
@@ -1042,41 +1135,428 @@ class LiveEntryColoring
  
         private fun add_conflict(mtype: MType, otype: MType) do
                 if mtype == otype then return
-               if not self.conflicts_graph_cache.has_key(mtype) then  self.conflicts_graph_cache[mtype] = new HashSet[MClassType]
+               if not self.conflicts_graph_cache.has_key(mtype) then  self.conflicts_graph_cache[mtype] = new HashSet[MType]
                 self.conflicts_graph_cache[mtype].add(otype)
-               if not self.conflicts_graph_cache.has_key(otype) then  self.conflicts_graph_cache[otype] = new HashSet[MClassType]
+               if not self.conflicts_graph_cache.has_key(otype) then  self.conflicts_graph_cache[otype] = new HashSet[MType]
                 self.conflicts_graph_cache[otype].add(mtype)
         end
         private fun conflicts_graph: Map[MType, Set[MType]] do return conflicts_graph_cache.as(not null)
  end
  
-# Utils
+class NaiveLiveEntryColoring
+       super LiveEntryColoring
  
-# An ordered set
-class OrderedSet[E]
-       super Array[E]
+       init do end
+
+       redef fun colorize_elements(elements: Collection[MType]) do
+               var color = 0
+               for element in elements do
+                       coloration_result[element] = color
+                       color += 1
+               end
+       end
+end
+
+# live unanchored coloring
+class UnanchoredTypeColoring
+
+       private var coloration_result: Map[MType, Int] = new HashMap[MType, Int]
+       private var conflicts_graph: Map[MType, Set[MType]] = new HashMap[MType, Set[MType]]
  
         init do end
  
-       init from(elements: Set[E]) do
-               self.add_all(elements)
+       fun colorize(elements: Map[MClassType, Set[MType]]): Map[MType, Int] do
+               build_conflicts_graph(elements)
+               colorize_elements(elements)
+               return coloration_result
+       end
+
+       fun build_tables(elements: Map[MClassType, Set[MType]]): Map[MClassType, Array[nullable MType]] do
+               var tables = new HashMap[MClassType, Array[nullable MType]]
+
+               for mclasstype, mtypes in elements do
+                       var table = new Array[nullable MType]
+                       for mtype in mtypes do
+                               var color = self.coloration_result[mtype]
+                               if table.length <= color then
+                                       for i in [table.length .. color[ do
+                                               table[i] = null
+                                       end
+                               end
+                               table[color] = mtype
+                       end
+                       tables[mclasstype] = table
+               end
+               return tables
+       end
+
+       # Colorize a collection of elements
+       fun colorize_elements(elements: Map[MClassType, Set[MType]]) do
+               var min_color = 0
+               for mclasstype, mclasstypes in elements do
+                       for element in mclasstypes do
+                               if self.coloration_result.has_key(element) then continue
+                               var color = min_color
+                               while not self.is_color_free(element, color) do
+                                       color += 1
+                               end
+                               coloration_result[element] = color
+                               color = min_color
+                       end
+               end
+       end
+
+       # Check if a related element to the element already use the color
+       private fun is_color_free(element: MType, color: Int): Bool do
+               if conflicts_graph.has_key(element) then
+                       for st in conflicts_graph[element] do
+                               if coloration_result.has_key(st) and coloration_result[st] == color then return false
+                       end
+               end
+               return true
+       end
+
+       # look for unanchored types generated by the same type
+       private fun build_conflicts_graph(elements: Map[MClassType, Set[MType]]) do
+               for mclasstype, mtypes in elements do
+                       for mtype in mtypes do
+                               for otype in mtypes do
+                                       if otype == mtype then continue
+                                       self.add_conflict(mtype, otype)
+                               end
+                       end
+               end
+       end
+
+       private fun add_conflict(mtype: MType, otype: MType) do
+               if mtype == otype then return
+               if not self.conflicts_graph.has_key(mtype) then  self.conflicts_graph[mtype] = new HashSet[MType]
+               self.conflicts_graph[mtype].add(otype)
+               if not self.conflicts_graph.has_key(otype) then  self.conflicts_graph[otype] = new HashSet[MType]
+               self.conflicts_graph[otype].add(mtype)
+       end
+end
+
+class NaiveUnanchoredTypeColoring
+       super UnanchoredTypeColoring
+
+       init do end
+
+       redef fun colorize_elements(elements: Map[MClassType, Set[MType]]) do
+               var color = 0
+               for mclasstype, mclasstypes in elements do
+                       for element in mclasstypes do
+                               coloration_result[element] = color
+                               color += 1
+                       end
+               end
+       end
+end
+
+abstract class UnanchoredTypePerfectHashing
+       super NaiveUnanchoredTypeColoring
+
+       private var masks: Map[MClassType, Int] = new HashMap[MClassType, Int]
+
+       init do end
+
+       redef fun colorize_elements(elements: Map[MClassType, Set[MType]]) do
+               var color = 1
+               for mclasstype, mclasstypes in elements do
+                       for element in mclasstypes do
+                               coloration_result[element] = color
+                               color += 1
+                       end
+               end
+       end
+
+       fun compute_masks(elements: Map[MClassType, Set[MType]]): Map[MClassType, Int] do
+               for mclasstype, mtypes in elements do
+                       self.masks[mclasstype] = compute_mask(mtypes)
+               end
+               return self.masks
+       end
+
+       private fun compute_mask(mtypes: Set[MType]): Int do
+               var mask = 0
+               loop
+                       var used = new List[Int]
+                       for mtype in mtypes do
+                               var res = op(mask, self.coloration_result[mtype])
+                               if used.has(res) then
+                                       break
+                               else
+                                       used.add(res)
+                               end
+                       end
+                       if used.length == mtypes.length then break
+                       mask += 1
+               end
+               return mask
         end
  
-       redef fun add(e) do
-               if not self.has(e) then
-                       super(e)
+       redef fun build_tables(elements: Map[MClassType, Set[MType]]): Map[MClassType, Array[nullable MType]] do
+               var tables = new HashMap[MClassType, Array[nullable MType]]
+
+               for mclasstype, mtypes in elements do
+                       var table = new Array[nullable MType]
+                       for mtype in mtypes do
+                               var color = phash(self.coloration_result[mtype], masks[mclasstype])
+                               if table.length <= color then
+                                       for i in [table.length .. color[ do
+                                               table[i] = null
+                                       end
+                               end
+                               table[color] = mtype
+                       end
+                       tables[mclasstype] = table
                 end
+               return tables
         end
  
-       # Return a new OrderedSet with the elements only contened in 'self' and not in 'o'
-       fun -(o: OrderedSet[E]): OrderedSet[E] do
-               var res = new OrderedSet[E]
+       private fun op(mask: Int, id:Int): Int is abstract
+       private fun phash(id: Int, mask: Int): Int do return op(mask, id)
+end
+
+class UnanchoredTypeModPerfectHashing
+       super UnanchoredTypePerfectHashing
+       init do end
+       redef fun op(mask, id) do return mask % id
+end
+
+class UnanchoredTypeAndPerfectHashing
+       super UnanchoredTypePerfectHashing
+       init do end
+       redef fun op(mask, id) do return mask.bin_and(id)
+end
+
+
+# Utils
+
+redef class HashSet[E]
+       init from(elements: Collection[E]) do
+               init
+               self.add_all(elements)
+       end
+end
+
+redef class Array[E]
+       init from(elements: Collection[E]) do
+               init
+               self.add_all(elements)
+       end
+
+       # Return a new Array with the elements only contened in 'self' and not in 'o'
+       fun -(o: Array[E]): Array[E] do
+               var res = new Array[E]
                 for e in self do if not o.has(e) then res.add(e)
                 return res
         end
+end
+
+redef class MModule
+
+       # Return a linearization of a set of mtypes
+       private fun linearize_mtypes(mtypes: Set[MType]): Array[MType] do
+               var lin = new Array[MType].from(mtypes)
+               var sorter = new TypeSorter(self)
+               sorter.sort(lin)
+               return lin
+       end
  
-       # Linearize a set of elements
-       fun linearize(sorter: AbstractSorter[E]) do
-               sorter.sort(self)
+       # Return a reverse linearization of a set of mtypes
+       private fun reverse_linearize_mtypes(mtypes: Set[MType]): Array[MType] do
+               var lin = new Array[MType].from(mtypes)
+               var sorter = new ReverseTypeSorter(self)
+               sorter.sort(lin)
+               return lin
+       end
+
+       # Return super types of a `mtype` in `self`
+       private fun super_mtypes(mtype: MType, mtypes: Set[MType]): Set[MType] do
+               if not self.super_mtypes_cache.has_key(mtype) then
+                       var supers = new HashSet[MType]
+                       for otype in mtypes do
+                               if otype == mtype then continue
+                               if mtype.is_subtype(self, null, otype) then
+                                       supers.add(otype)
+                               end
+                       end
+                       self.super_mtypes_cache[mtype] = supers
+               end
+               return self.super_mtypes_cache[mtype]
+       end
+
+       private var super_mtypes_cache: Map[MType, Set[MType]] = new HashMap[MType, Set[MType]]
+
+       # Return all sub mtypes (directs and indirects) of a `mtype` in `self`
+       private fun sub_mtypes(mtype: MType, mtypes: Set[MType]): Set[MType] do
+               if not self.sub_mtypes_cache.has_key(mtype) then
+                       var subs = new HashSet[MType]
+                       for otype in mtypes do
+                               if otype == mtype then continue
+                               if otype.is_subtype(self, null, mtype) then
+                                       subs.add(otype)
+                               end
+                       end
+                       self.sub_mtypes_cache[mtype] = subs
+               end
+               return self.sub_mtypes_cache[mtype]
         end
-end
\ No newline at end of file
+
+       private var sub_mtypes_cache: Map[MType, Set[MType]] = new HashMap[MType, Set[MType]]
+
+       # Return a linearization of a set of mclasses
+       private fun linearize_mclasses(mclasses: Set[MClass]): Array[MClass] do
+               var lin = new Array[MClass].from(mclasses)
+               var sorter = new ClassSorter(self)
+               sorter.sort(lin)
+               return lin
+       end
+
+       # Return a reverse linearization of a set of mtypes
+       private fun reverse_linearize_mclasses(mclasses: Set[MClass]): Array[MClass] do
+               var lin = new Array[MClass].from(mclasses)
+               var sorter = new ReverseClassSorter(self)
+               sorter.sort(lin)
+               return lin
+       end
+
+       # Return all super mclasses (directs and indirects) of a `mclass` in `self`
+       private fun super_mclasses(mclass: MClass): Set[MClass] do
+               if not self.super_mclasses_cache.has_key(mclass) then
+                       var supers = new HashSet[MClass]
+                       if self.flatten_mclass_hierarchy.has(mclass) then
+                               for sup in self.flatten_mclass_hierarchy[mclass].greaters do
+                                       if sup == mclass then continue
+                                       supers.add(sup)
+                               end
+                       end
+                       self.super_mclasses_cache[mclass] = supers
+               end
+               return self.super_mclasses_cache[mclass]
+       end
+
+       private var super_mclasses_cache: Map[MClass, Set[MClass]] = new HashMap[MClass, Set[MClass]]
+
+       # Return all parents of a `mclass` in `self`
+       private fun parent_mclasses(mclass: MClass): Set[MClass] do
+               if not self.parent_mclasses_cache.has_key(mclass) then
+                       var parents = new HashSet[MClass]
+                       if self.flatten_mclass_hierarchy.has(mclass) then
+                               for sup in self.flatten_mclass_hierarchy[mclass].direct_greaters do
+                                       if sup == mclass then continue
+                                       parents.add(sup)
+                               end
+                       end
+                       self.parent_mclasses_cache[mclass] = parents
+               end
+               return self.parent_mclasses_cache[mclass]
+       end
+
+       private var parent_mclasses_cache: Map[MClass, Set[MClass]] = new HashMap[MClass, Set[MClass]]
+
+       # Return all sub mclasses (directs and indirects) of a `mclass` in `self`
+       private fun sub_mclasses(mclass: MClass): Set[MClass] do
+               if not self.sub_mclasses_cache.has_key(mclass) then
+                       var subs = new HashSet[MClass]
+                       if self.flatten_mclass_hierarchy.has(mclass) then
+                               for sub in self.flatten_mclass_hierarchy[mclass].smallers do
+                                       if sub == mclass then continue
+                                       subs.add(sub)
+                               end
+                       end
+                       self.sub_mclasses_cache[mclass] = subs
+               end
+               return self.sub_mclasses_cache[mclass]
+       end
+
+       private var sub_mclasses_cache: Map[MClass, Set[MClass]] = new HashMap[MClass, Set[MClass]]
+
+       # All 'mproperties' associated to all 'mclassdefs' of `mclass`
+       private fun properties(mclass: MClass): Set[MProperty] do
+               if not self.properties_cache.has_key(mclass) then
+                       var properties = new HashSet[MProperty]
+                       var parents = self.super_mclasses(mclass)
+                       for parent in parents do
+                               properties.add_all(self.properties(parent))
+                       end
+
+                       for mclassdef in mclass.mclassdefs do
+                               for mpropdef in mclassdef.mpropdefs do
+                                       properties.add(mpropdef.mproperty)
+                               end
+                       end
+                       self.properties_cache[mclass] = properties
+               end
+               return properties_cache[mclass]
+       end
+
+       private var properties_cache: Map[MClass, Set[MProperty]] = new HashMap[MClass, Set[MProperty]]
+end
+
+# A sorter for linearize list of types
+class TypeSorter
+       super AbstractSorter[MType]
+
+       private var mmodule: MModule
+
+       init(mmodule: MModule) do self.mmodule = mmodule
+
+       redef fun compare(a, b) do
+               if a == b then
+                       return 0
+               else if a.is_subtype(self.mmodule, null, b) then
+                       return -1
+               end
+               return 1
+       end
+end
+
+# A sorter for reverse linearization
+class ReverseTypeSorter
+       super TypeSorter
+
+       init(mmodule: MModule) do end
+
+       redef fun compare(a, b) do
+               if a == b then
+                       return 0
+               else if a.is_subtype(self.mmodule, null, b) then
+                       return 1
+               end
+               return -1
+       end
+end
+
+# A sorter for linearize list of classes
+private class ClassSorter
+       super AbstractSorter[MClass]
+
+       var mmodule: MModule
+
+       redef fun compare(a, b) do
+               if a == b then
+                       return 0
+               else if self.mmodule.flatten_mclass_hierarchy.has(a) and self.mmodule.flatten_mclass_hierarchy[a].greaters.has(b) then
+                       return -1
+               end
+               return 1
+       end
+end
+
+# A sorter for reverse linearization
+private class ReverseClassSorter
+       super AbstractSorter[MClass]
+
+       var mmodule: MModule
+
+       redef fun compare(a, b) do
+               if a == b then
+                       return 0
+               else if self.mmodule.flatten_mclass_hierarchy.has(a) and self.mmodule.flatten_mclass_hierarchy[a].greaters.has(b) then
+                       return 1
+               end
+               return -1
+       end
+end