note description: "[ Translations of class names between a storing and a retrieving system. Values in this table are names of classes in the retrieving system, indexed by names of generating classes in the storing system (i.e. with no generic arguments). Values may have generic arguments (e.g. "MY_CLASS [REAL_64]"), thus allowing a very simple conversion of a non-generic class into a generic class. The presence of entries in this table affects all retrieve operations for objects stored using independent_store. ]" library: "Free implementation of ELKS library" status: "See notice at end of class." legal: "See notice at end of class." date: "$Date: 2018-11-14 14:55:55 +0000 (Wed, 14 Nov 2018) $" revision: "$Revision: 102462 $" class CLASS_NAME_TRANSLATIONS create default_create create {CLASS_NAME_TRANSLATIONS} make feature -- Initialization accommodate (n: INTEGER_32) -- Reallocate table with enough space for n items; -- keep all current items. -- (from HASH_TABLE) require -- from HASH_TABLE n >= 0 local i, nb: INTEGER_32 new_table: CLASS_NAME_TRANSLATIONS l_content: like content l_keys: like keys do from new_table := empty_duplicate (keys.count.max (n)) l_content := content l_keys := keys nb := l_keys.count until i = nb loop if occupied (i) then new_table.put (l_content.item (i), l_keys.item (i)) end i := i + 1 end if has_default then i := indexes_map.item (capacity); new_table.put (l_content.item (i), keys.item (i)) end set_content (new_table.content) set_keys (new_table.keys) set_deleted_marks (new_table.deleted_marks) set_indexes_map (new_table.indexes_map) capacity := new_table.capacity iteration_position := new_table.iteration_position ensure -- from HASH_TABLE count_not_changed: count = old count breathing_space: count < capacity end default_create -- Make table with current translations local i, cnt: INTEGER_32 do cnt := class_translation_count make (cnt) from i := 0 until i = cnt loop put (create {STRING_8}.make_from_c (class_translation_new (i)), create {STRING_8}.make_from_c (class_translation_old (i))) i := i + 1 end end make (n: INTEGER_32) -- Allocate hash table for at least n items. -- The table will be resized automatically -- if more than n items are inserted. -- (from HASH_TABLE) require -- from HASH_TABLE n_non_negative: n >= 0 local clever: PRIMES l_default_value: detachable STRING_8 l_default_key: detachable STRING_8 l_size: INTEGER_32 do create clever l_size := n.max (Minimum_capacity) l_size := l_size + l_size // 2 + 1 l_size := clever.higher_prime (l_size) capacity := l_size create content.make_empty (n + 1) create keys.make_empty (n + 1) create deleted_marks.make_filled (False, n + 1) create indexes_map.make_filled (Ht_impossible_position, l_size + 1) iteration_position := n + 1 count := 0 deleted_item_position := Ht_impossible_position control := 0 found_item := l_default_value has_default := False item_position := 0 ht_lowest_deleted_position := Ht_max_position ht_deleted_item := l_default_value ht_deleted_key := l_default_key ensure -- from HASH_TABLE breathing_space: n < capacity more_than_minimum: capacity > Minimum_capacity no_status: not special_status end make_equal (n: INTEGER_32) -- Allocate hash table for at least n items. -- The table will be resized automatically -- if more than n items are inserted. -- Use ~ to compare items. -- (from HASH_TABLE) require -- from HASH_TABLE n_non_negative: n >= 0 do make (n) compare_objects ensure -- from HASH_TABLE breathing_space: n < capacity more_than_minimum: capacity > Minimum_capacity no_status: not special_status compare_objects: object_comparison end feature -- Access at alias "@" (key: STRING_8): detachable STRING_8 assign force -- Item associated with key, if present -- otherwise default value of type G. -- Was declared in HASH_TABLE as synonym of item. -- (from HASH_TABLE) note option: stable local l_default_key: detachable STRING_8 hash_value, increment, l_pos, l_item_pos, l_capacity: INTEGER_32 l_first_deleted_position: INTEGER_32 stop: INTEGER_32 l_keys: like keys l_indexes: like indexes_map l_deleted_marks: like deleted_marks l_key: STRING_8 do l_first_deleted_position := Ht_impossible_position if key = l_default_key or key = Void then if has_default then Result := content.item (indexes_map.item (capacity)) end else from l_keys := keys l_indexes := indexes_map l_deleted_marks := deleted_marks l_capacity := capacity stop := l_capacity hash_value := hash_code_of (key) increment := 1 + hash_value \\ (l_capacity - 1) l_item_pos := (hash_value \\ l_capacity) - increment until stop = 0 loop l_item_pos := (l_item_pos + increment) \\ l_capacity l_pos := l_indexes [l_item_pos] if l_pos >= 0 then l_key := l_keys.item (l_pos) debug ("detect_hash_table_catcall") check catcall_detected: l_key /= Void and then l_key.same_type (key) end end if same_keys (l_key, key) then stop := 1 Result := content.item (l_pos) end elseif l_pos = Ht_impossible_position then stop := 1 elseif l_first_deleted_position = Ht_impossible_position then l_pos := - l_pos + Ht_deleted_position check l_pos_valid: l_pos < l_deleted_marks.count end if not l_deleted_marks [l_pos] then stop := 1 else l_first_deleted_position := l_item_pos end end stop := stop - 1 end end ensure then -- from HASH_TABLE default_value_if_not_present: (not has (key)) implies (Result = computed_default_value) end current_keys: ARRAY [STRING_8] -- New array containing actually used keys, from 1 to count -- (from HASH_TABLE) local j: INTEGER_32 old_iteration_position: INTEGER_32 do if is_empty then create Result.make_empty else old_iteration_position := iteration_position from start create Result.make_filled (key_for_iteration, 1, count) j := 1 forth until off loop j := j + 1; Result.put (key_for_iteration, j) forth end iteration_position := old_iteration_position end ensure -- from HASH_TABLE good_count: Result.count = count end cursor: CURSOR -- Current cursor position -- (from HASH_TABLE) do create {HASH_TABLE_CURSOR} Result.make (iteration_position) ensure -- from HASH_TABLE cursor_not_void: Result /= Void end definite_item (key: STRING_8): STRING_8 -- Entry of key k. -- (from HASH_TABLE) require -- from TABLE valid_key: has (key) require -- from TABLE valid_key: has (key) local old_position: like item_position old_control: like control do old_position := item_position old_control := control internal_search (key) Result := content.item (position) control := old_control item_position := old_position end found_item: detachable STRING_8 -- Item, if any, yielded by last search operation -- (from HASH_TABLE) generating_type: TYPE [detachable CLASS_NAME_TRANSLATIONS] -- Type of current object -- (type of which it is a direct instance) -- (from ANY) external "built_in" ensure -- from ANY generating_type_not_void: Result /= Void end generator: STRING_8 -- Name of current object's generating class -- (base class of the type of which it is a direct instance) -- (from ANY) external "built_in" ensure -- from ANY generator_not_void: Result /= Void generator_not_empty: not Result.is_empty end has (key: STRING_8): BOOLEAN -- Is there an item in the table with key key? -- (from HASH_TABLE) require -- from TABLE True local l_default_key: detachable STRING_8 hash_value, increment, l_pos, l_item_pos, l_capacity: INTEGER_32 l_first_deleted_position: INTEGER_32 stop: INTEGER_32 l_keys: like keys l_indexes: like indexes_map l_deleted_marks: like deleted_marks l_key: STRING_8 do l_first_deleted_position := Ht_impossible_position if key = l_default_key or key = Void then if has_default then Result := True end else from l_keys := keys l_indexes := indexes_map l_deleted_marks := deleted_marks l_capacity := capacity stop := l_capacity hash_value := hash_code_of (key) increment := 1 + hash_value \\ (l_capacity - 1) l_item_pos := (hash_value \\ l_capacity) - increment until stop = 0 loop l_item_pos := (l_item_pos + increment) \\ l_capacity l_pos := l_indexes [l_item_pos] if l_pos >= 0 then l_key := l_keys.item (l_pos) debug ("detect_hash_table_catcall") check catcall_detected: l_key /= Void and then l_key.same_type (key) end end if same_keys (l_key, key) then stop := 1 Result := True end elseif l_pos = Ht_impossible_position then stop := 1 elseif l_first_deleted_position = Ht_impossible_position then l_pos := - l_pos + Ht_deleted_position check l_pos_valid: l_pos < l_deleted_marks.count end if not l_deleted_marks [l_pos] then stop := 1 else l_first_deleted_position := l_item_pos end end stop := stop - 1 end end ensure then -- from HASH_TABLE default_case: (key = computed_default_key) implies (Result = has_default) end has_item (v: STRING_8): BOOLEAN -- Does structure include v? -- (Reference or object equality, based on object_comparison.) -- (from HASH_TABLE) local i, nb: INTEGER_32 l_content: like content do if has_default then Result := v = content.item (indexes_map.item (capacity)) end if not Result then l_content := content nb := l_content.count if object_comparison then from until i = nb or else Result loop Result := occupied (i) and then (v ~ l_content.item (i)) i := i + 1 end else from until i = nb or else Result loop Result := occupied (i) and then (v = l_content.item (i)) i := i + 1 end end end ensure -- from CONTAINER not_found_in_empty: Result implies not is_empty end has_key (key: STRING_8): BOOLEAN -- Is there an item in the table with key key? -- Set found_item to the found item. -- (from HASH_TABLE) local old_position: INTEGER_32 l_default_value: detachable STRING_8 do old_position := item_position internal_search (key) Result := found if Result then found_item := content.item (position) else found_item := l_default_value end item_position := old_position ensure then -- from HASH_TABLE default_case: (key = computed_default_key) implies (Result = has_default) found: Result = found item_if_found: found implies (found_item = item (key)) end hash_code_of (a_key: attached STRING_8): INTEGER_32 -- Hash_code value associated to a_key. -- (from HASH_TABLE) do Result := a_key.hash_code ensure -- from HASH_TABLE non_negative: Result >= 0 end item alias "[]" (key: STRING_8): detachable STRING_8 assign force -- Item associated with key, if present -- otherwise default value of type G. -- Was declared in HASH_TABLE as synonym of at. -- (from HASH_TABLE) note option: stable local l_default_key: detachable STRING_8 hash_value, increment, l_pos, l_item_pos, l_capacity: INTEGER_32 l_first_deleted_position: INTEGER_32 stop: INTEGER_32 l_keys: like keys l_indexes: like indexes_map l_deleted_marks: like deleted_marks l_key: STRING_8 do l_first_deleted_position := Ht_impossible_position if key = l_default_key or key = Void then if has_default then Result := content.item (indexes_map.item (capacity)) end else from l_keys := keys l_indexes := indexes_map l_deleted_marks := deleted_marks l_capacity := capacity stop := l_capacity hash_value := hash_code_of (key) increment := 1 + hash_value \\ (l_capacity - 1) l_item_pos := (hash_value \\ l_capacity) - increment until stop = 0 loop l_item_pos := (l_item_pos + increment) \\ l_capacity l_pos := l_indexes [l_item_pos] if l_pos >= 0 then l_key := l_keys.item (l_pos) debug ("detect_hash_table_catcall") check catcall_detected: l_key /= Void and then l_key.same_type (key) end end if same_keys (l_key, key) then stop := 1 Result := content.item (l_pos) end elseif l_pos = Ht_impossible_position then stop := 1 elseif l_first_deleted_position = Ht_impossible_position then l_pos := - l_pos + Ht_deleted_position check l_pos_valid: l_pos < l_deleted_marks.count end if not l_deleted_marks [l_pos] then stop := 1 else l_first_deleted_position := l_item_pos end end stop := stop - 1 end end ensure then -- from HASH_TABLE default_value_if_not_present: (not has (key)) implies (Result = computed_default_value) end item_for_iteration: STRING_8 -- Element at current iteration position -- (from HASH_TABLE) require -- from HASH_TABLE not_off: not off do Result := content.item (iteration_position) end iteration_item (i: INTEGER_32): STRING_8 -- Entry at position i. -- (from HASH_TABLE) require -- from READABLE_INDEXABLE valid_index: valid_iteration_index (i) do Result := content.item (i) end key_for_iteration: STRING_8 -- Key at current iteration position -- (from HASH_TABLE) require -- from HASH_TABLE not_off: not off do Result := keys.item (iteration_position) end new_cursor: HASH_TABLE_ITERATION_CURSOR [STRING_8, STRING_8] -- Fresh cursor associated with current structure -- (from HASH_TABLE) require -- from ITERABLE True do create Result.make (Current); Result.start ensure -- from ITERABLE result_attached: Result /= Void end feature -- Measurement capacity: INTEGER_32 -- Number of items that may be stored. -- (from HASH_TABLE) count: INTEGER_32 -- Number of items in table -- (from HASH_TABLE) index_set: INTEGER_INTERVAL obsolete "Use `lower' and `upper' instead. [2017-05-31]" -- Range of acceptable indexes. -- (from READABLE_INDEXABLE) do create Result.make (iteration_lower, iteration_upper) ensure -- from READABLE_INDEXABLE not_void: Result /= Void empty_if_not_in_order: (iteration_lower > iteration_upper) implies Result.is_empty same_lower_if_not_empty: (iteration_lower <= iteration_upper) implies Result.lower = iteration_lower same_upper_if_not_empty: (iteration_lower <= iteration_upper) implies Result.upper = iteration_upper end iteration_lower: INTEGER_32 -- Minimum index. -- (from HASH_TABLE) do Result := next_iteration_position (-1) end iteration_upper: INTEGER_32 -- Maximum index. -- (from HASH_TABLE) do Result := previous_iteration_position (keys.count) end occurrences (v: STRING_8): INTEGER_32 -- Number of table items equal to v. -- (from HASH_TABLE) local old_iteration_position: INTEGER_32 do old_iteration_position := iteration_position if object_comparison then from start until off loop if item_for_iteration ~ v then Result := Result + 1 end forth end else from start until off loop if item_for_iteration = v then Result := Result + 1 end forth end end iteration_position := old_iteration_position ensure -- from BAG non_negative_occurrences: Result >= 0 end feature {NONE} -- Measurement estimated_count_of (other: ITERABLE [STRING_8]): INTEGER_32 -- Estimated number of elements in other. -- (from CONTAINER) do if attached {FINITE [STRING_8]} other as f then Result := f.count elseif attached {READABLE_INDEXABLE [STRING_8]} other as r then Result := r.upper - r.lower + 1 end ensure -- from CONTAINER instance_free: class non_negative_result: Result >= 0 end feature -- Comparison frozen deep_equal (a: detachable ANY; b: like arg #1): BOOLEAN -- Are a and b either both void -- or attached to isomorphic object structures? -- (from ANY) do if a = Void then Result := b = Void else Result := b /= Void and then a.is_deep_equal (b) end ensure -- from ANY instance_free: class shallow_implies_deep: standard_equal (a, b) implies Result both_or_none_void: (a = Void) implies (Result = (b = Void)) same_type: (Result and (a /= Void)) implies (b /= Void and then a.same_type (b)) symmetric: Result implies deep_equal (b, a) end disjoint (other: HASH_TABLE [STRING_8, STRING_8]): BOOLEAN -- Is Current and other disjoint on their keys? -- Use same_keys for comparison. -- (from HASH_TABLE) do Result := is_empty or else other.is_empty or else not across other as o some has (o.key) end end frozen equal (a: detachable ANY; b: like arg #1): BOOLEAN -- Are a and b either both void or attached -- to objects considered equal? -- (from ANY) do if a = Void then Result := b = Void else Result := b /= Void and then a.is_equal (b) end ensure -- from ANY instance_free: class definition: Result = (a = Void and b = Void) or else ((a /= Void and b /= Void) and then a.is_equal (b)) end frozen is_deep_equal alias "≡≡≡" (other: CLASS_NAME_TRANSLATIONS): BOOLEAN -- Are Current and other attached to isomorphic object structures? -- (from ANY) require -- from ANY other_not_void: other /= Void external "built_in" ensure -- from ANY shallow_implies_deep: standard_is_equal (other) implies Result same_type: Result implies same_type (other) symmetric: Result implies other.is_deep_equal (Current) end is_equal (other: CLASS_NAME_TRANSLATIONS): BOOLEAN -- Does table contain the same information as other? -- (from HASH_TABLE) require -- from ANY other_not_void: other /= Void do if count = other.count and then object_comparison = other.object_comparison and then has_default = other.has_default then Result := True across Current as l_c until not Result loop other.search (l_c.key) if other.found then if object_comparison then Result := l_c.item ~ other.found_item else Result := l_c.item = other.found_item end else Result := False end end end ensure -- from ANY symmetric: Result implies other ~ Current consistent: standard_is_equal (other) implies Result end same_keys (a_search_key, a_key: STRING_8): BOOLEAN -- Does a_search_key equal to a_key? -- (from HASH_TABLE) do Result := a_search_key ~ a_key end frozen standard_equal (a: detachable ANY; b: like arg #1): BOOLEAN -- Are a and b either both void or attached to -- field-by-field identical objects of the same type? -- Always uses default object comparison criterion. -- (from ANY) do if a = Void then Result := b = Void else Result := b /= Void and then a.standard_is_equal (b) end ensure -- from ANY instance_free: class definition: Result = (a = Void and b = Void) or else ((a /= Void and b /= Void) and then a.standard_is_equal (b)) end frozen standard_is_equal alias "≜" (other: CLASS_NAME_TRANSLATIONS): BOOLEAN -- Is other attached to an object of the same type -- as current object, and field-by-field identical to it? -- (from ANY) require -- from ANY other_not_void: other /= Void external "built_in" ensure -- from ANY same_type: Result implies same_type (other) symmetric: Result implies other.standard_is_equal (Current) end feature -- Status report after: BOOLEAN -- Is cursor past last item? -- Was declared in HASH_TABLE as synonym of off. -- (from HASH_TABLE) do Result := is_off_position (iteration_position) end changeable_comparison_criterion: BOOLEAN -- May object_comparison be changed? -- (Answer: yes by default.) -- (from CONTAINER) do Result := True end conflict: BOOLEAN -- Did last operation cause a conflict? -- (from HASH_TABLE) do Result := control = Conflict_constant end conforms_to (other: ANY): BOOLEAN -- Does type of current object conform to type -- of other (as per Eiffel: The Language, chapter 13)? -- (from ANY) require -- from ANY other_not_void: other /= Void external "built_in" end empty: BOOLEAN obsolete "ELKS 2000: Use `is_empty' instead. [2017-05-31]" -- Is there no element? -- (from CONTAINER) do Result := is_empty end Extendible: BOOLEAN = False -- May new items be added? -- (from HASH_TABLE) found: BOOLEAN -- Did last operation find the item sought? -- (from HASH_TABLE) do Result := control = Found_constant end Full: BOOLEAN = False -- Is structure filled to capacity? -- (from HASH_TABLE) inserted: BOOLEAN -- Did last operation insert an item? -- (from HASH_TABLE) do Result := control = Inserted_constant end is_empty: BOOLEAN -- Is structure empty? -- (from FINITE) require -- from CONTAINER True do Result := count = 0 end is_inserted (v: STRING_8): BOOLEAN -- Has v been inserted by the most recent insertion? -- (By default, the value returned is equivalent to calling -- has (v). However, descendants might be able to provide more -- efficient implementations.) -- (from COLLECTION) do Result := has_item (v) end not_found: BOOLEAN -- Did last operation fail to find the item sought? -- (from HASH_TABLE) do Result := control = Not_found_constant end object_comparison: BOOLEAN -- Must search operations use equal rather than = -- for comparing references? (Default: no, use =.) -- (from CONTAINER) off: BOOLEAN -- Is cursor past last item? -- Was declared in HASH_TABLE as synonym of after. -- (from HASH_TABLE) do Result := is_off_position (iteration_position) end prunable: BOOLEAN -- May items be removed? (Answer: yes.) -- (from DYNAMIC_TABLE) do Result := True end removed: BOOLEAN -- Did last operation remove an item? -- (from HASH_TABLE) do Result := control = Removed_constant end replaced: BOOLEAN -- Did last operation replace an item? -- (from HASH_TABLE) do Result := control = Replaced_constant end same_type (other: ANY): BOOLEAN -- Is type of current object identical to type of other? -- (from ANY) require -- from ANY other_not_void: other /= Void external "built_in" ensure -- from ANY definition: Result = (conforms_to (other) and other.conforms_to (Current)) end valid_cursor (c: CURSOR): BOOLEAN -- Can cursor be moved to position c? -- (from HASH_TABLE) require -- from HASH_TABLE c_not_void: c /= Void local i: INTEGER_32 do if attached {HASH_TABLE_CURSOR} c as ht_cursor then i := ht_cursor.position Result := is_off_position (i) or else truly_occupied (i) end end valid_iteration_index (i: INTEGER_32): BOOLEAN -- Is i a valid index? -- (from HASH_TABLE) do Result := truly_occupied (i) ensure -- from READABLE_INDEXABLE only_if_in_index_set: Result implies (iteration_lower <= i and i <= iteration_upper) end valid_key (k: STRING_8): BOOLEAN obsolete "Remove the call to this feature or use `has` instead. [2018-11-30]" -- Is k a valid key? -- (from HASH_TABLE) do Result := True debug ("prevent_hash_table_catcall") if not ({STRING_8}).is_expanded and then attached k then Result := k.generating_type ~ {detachable STRING_8} end end end feature -- Status setting compare_objects -- Ensure that future search operations will use equal -- rather than = for comparing references. -- (from CONTAINER) require -- from CONTAINER changeable_comparison_criterion: changeable_comparison_criterion do object_comparison := True ensure -- from CONTAINER object_comparison end compare_references -- Ensure that future search operations will use = -- rather than equal for comparing references. -- (from CONTAINER) require -- from CONTAINER changeable_comparison_criterion: changeable_comparison_criterion do object_comparison := False ensure -- from CONTAINER reference_comparison: not object_comparison end feature -- Cursor movement forth -- Advance cursor to next occupied position, -- or off if no such position remains. -- (from HASH_TABLE) require -- from HASH_TABLE not_off: not off do iteration_position := next_iteration_position (iteration_position) end go_to (c: CURSOR) -- Move to position c. -- (from HASH_TABLE) require -- from HASH_TABLE c_not_void: c /= Void valid_cursor: valid_cursor (c) do if attached {HASH_TABLE_CURSOR} c as ht_cursor then iteration_position := ht_cursor.position end end search (key: STRING_8) -- Search for item of key key. -- If found, set found to true, and set -- found_item to item associated with key. -- (from HASH_TABLE) local old_position: INTEGER_32 l_default_value: detachable STRING_8 do old_position := item_position internal_search (key) if found then found_item := content.item (position) else found_item := l_default_value end item_position := old_position ensure -- from HASH_TABLE found_or_not_found: found or not_found item_if_found: found implies (found_item = item (key)) end search_item: detachable STRING_8 obsolete "Use `found_item` instead. [2017-05-31]" -- (from HASH_TABLE) do Result := found_item end start -- Bring cursor to first position. -- (from HASH_TABLE) do iteration_position := next_iteration_position (-1) end feature {HASH_TABLE_ITERATION_CURSOR} -- Cursor movement next_iteration_position (a_position: like iteration_position): like iteration_position -- Given an iteration position, advanced to the next one taking into account deleted -- slots in the content and keys structures. -- (from HASH_TABLE) require -- from HASH_TABLE a_position_big_enough: a_position >= -1 a_position_small_enough: a_position < keys.count local l_deleted_marks: like deleted_marks l_table_size: INTEGER_32 do l_deleted_marks := deleted_marks l_table_size := content.count from Result := a_position + 1 until Result >= l_table_size or else not l_deleted_marks.item (Result) loop Result := Result + 1 end ensure -- from HASH_TABLE is_increased: Result > a_position is_below_upper_bound: Result <= keys.count end previous_iteration_position (a_position: like iteration_position): like iteration_position -- Given an iteration position, go to the previous one taking into account deleted -- slots in the content and keys structures. -- (from HASH_TABLE) require -- from HASH_TABLE a_position_big_enough: a_position >= 0 a_position_small_enough: a_position <= keys.count local l_deleted_marks: like deleted_marks do l_deleted_marks := deleted_marks from Result := a_position - 1 until Result <= -1 or else not l_deleted_marks.item (Result) loop Result := Result - 1 end ensure -- from HASH_TABLE is_decreased: Result < a_position is_above_lower_bound: Result >= -1 end feature -- Element change extend (new: STRING_8; key: STRING_8) -- Assuming there is no item of key key, -- insert new with key. -- Set inserted. require -- from HASH_TABLE not_present: not has (key) do Precursor (new, key) add_translation (new, key) ensure -- from HASH_TABLE inserted: inserted insertion_done: item (key) = new one_more: count = old count + 1 default_property: has_default = ((key = computed_default_key) or (old has_default)) end fill (other: CONTAINER [STRING_8]) -- Fill with as many items of other as possible. -- The representations of other and current structure -- need not be the same. -- (from COLLECTION) require -- from COLLECTION other_not_void: other /= Void extendible: Extendible local lin_rep: LINEAR [STRING_8] do lin_rep := other.linear_representation from lin_rep.start until not Extendible or else lin_rep.off loop collection_extend (lin_rep.item); lin_rep.forth end end force (new: STRING_8; key: STRING_8) -- Update table so that new will be the item associated -- with key. -- If there was an item for that key, set found -- and set found_item to that item. -- If there was none, set not_found and set -- found_item to the default value. require -- from TABLE valid_key: has (key) require else -- from HASH_TABLE True do Precursor (new, key) add_translation (new, key) ensure -- from TABLE inserted: definite_item (key) = new ensure then -- from HASH_TABLE insertion_done: item (key) = new now_present: has (key) found_or_not_found: found or not_found not_found_if_was_not_present: not_found = not (old has (key)) same_count_or_one_more: (count = old count) or (count = old count + 1) found_item_is_old_item: found implies (found_item = old (item (key))) default_value_if_not_found: not_found implies (found_item = computed_default_value) default_property: has_default = ((key = computed_default_key) or ((key /= computed_default_key) and (old has_default))) end merge (other: HASH_TABLE [STRING_8, STRING_8]) -- Merge other into Current. If other has some elements -- with same key as in Current, replace them by one from -- other. -- (from HASH_TABLE) require -- from HASH_TABLE other_not_void: other /= Void do across other as other_cursor loop force (other_cursor.item, other_cursor.key) end ensure -- from HASH_TABLE inserted: across other as other_cursor all has (other_cursor.key) end end put (new: STRING_8; key: STRING_8) -- Insert new with key if there is no other item -- associated with the same key. -- Set inserted if and only if an insertion has -- been made (i.e. key was not present). -- If so, set position to the insertion position. -- If not, set conflict. -- In either case, set found_item to the item -- now associated with key (previous item if -- there was one, new otherwise). require -- from TABLE valid_key: has (key) require else -- from HASH_TABLE True do Precursor (new, key) if inserted then add_translation (new, key) end ensure then -- from HASH_TABLE conflict_or_inserted: conflict or inserted insertion_done: inserted implies item (key) = new now_present: inserted implies has (key) one_more_if_inserted: inserted implies (count = old count + 1) unchanged_if_conflict: conflict implies (count = old count) same_item_if_conflict: conflict implies (item (key) = old (item (key))) found_item_associated_with_key: found_item = item (key) new_item_if_inserted: inserted implies (found_item = new) old_item_if_conflict: conflict implies (found_item = old (item (key))) default_property: has_default = ((inserted and (key = computed_default_key)) or ((conflict or (key /= computed_default_key)) and (old has_default))) end replace (new: STRING_8; key: STRING_8) -- Replace item at key, if present, -- with new; do not change associated key. -- Set replaced if and only if a replacement has been made -- (i.e. key was present); otherwise set not_found. -- Set found_item to the item previously associated -- with key (default value if there was none). do if has (key) then Precursor (new, key) add_translation (new, key) end ensure -- from HASH_TABLE replaced_or_not_found: replaced or not_found insertion_done: replaced implies item (key) = new no_change_if_not_found: not_found implies item (key) = old item (key) found_item_is_old_item: found_item = old item (key) end replace_key (new_key: STRING_8; old_key: STRING_8) -- If there is an item of key old_key and no item of key -- new_key, replace the former's key by new_key, -- set replaced, and set found_item to the item -- previously associated with old_key. -- Otherwise set not_found or conflict respectively. -- If conflict, set found_item to the item previously -- associated with new_key. -- -- To choose between various insert/replace procedures, -- see instructions in the Indexing clause. -- (from HASH_TABLE) local l_item: STRING_8 do internal_search (new_key) if not found then internal_search (old_key) if found then l_item := content.item (position) remove (old_key) put (l_item, new_key) control := Replaced_constant end else set_conflict found_item := content.item (position) end ensure -- from HASH_TABLE same_count: count = old count replaced_or_conflict_or_not_found: replaced or conflict or not_found old_absent: (replaced and not same_keys (new_key, old_key)) implies (not has (old_key)) new_present: (replaced or conflict) = has (new_key) new_item: replaced implies (item (new_key) = old (item (old_key))) not_found_implies_no_old_key: not_found implies old (not has (old_key)) conflict_iff_already_present: conflict = old has (new_key) not_inserted_if_conflict: conflict implies (item (new_key) = old item (new_key)) end feature -- Removal clear_all obsolete "Use `wipe_out' instead. [2017-05-31]" -- (from HASH_TABLE) do wipe_out end prune (v: STRING_8) -- Remove first occurrence of v, if any, -- after cursor position. -- Move cursor to right neighbor. -- (or after if no right neighbor or v does not occur) -- (from HASH_TABLE) require -- from COLLECTION prunable: prunable do if object_comparison then from until after or else item_for_iteration ~ v loop forth end else from until after or else item_for_iteration = v loop forth end end if not after then remove (key_for_iteration) end end prune_all (v: STRING_8) -- Remove all occurrences of v. -- (Reference or object equality, -- based on object_comparison.) -- (from COLLECTION) require -- from COLLECTION prunable: prunable do from until not has_item (v) loop prune (v) end ensure -- from COLLECTION no_more_occurrences: not has_item (v) end remove (key: STRING_8) -- Remove item associated with key, if present. -- Set removed if and only if an item has been -- removed (i.e. key was present); -- if so, set position to index of removed element. -- If not, set not_found. -- Reset found_item to its default value if removed. -- (from HASH_TABLE) require -- from DYNAMIC_TABLE prunable: prunable valid_key: has (key) require else -- from HASH_TABLE prunable local l_default_key: detachable STRING_8 l_default_value: detachable STRING_8 l_pos: like position l_nb_removed_items: INTEGER_32 do internal_search (key) if found then l_pos := position if key = l_default_key then has_default := False end; deleted_marks.put (True, l_pos); indexes_map.put (- l_pos + Ht_deleted_position, item_position) if iteration_position = l_pos then forth end count := count - 1 ht_lowest_deleted_position := l_pos.min (ht_lowest_deleted_position) if ht_lowest_deleted_position = count then l_nb_removed_items := content.count - ht_lowest_deleted_position; content.remove_tail (l_nb_removed_items); keys.remove_tail (l_nb_removed_items); deleted_marks.fill_with (False, ht_lowest_deleted_position, deleted_marks.count - 1) ht_deleted_item := l_default_value ht_deleted_key := l_default_key ht_lowest_deleted_position := Ht_max_position elseif attached ht_deleted_item as l_item and attached ht_deleted_key as l_key then content.put (l_item, l_pos); keys.put (l_key, l_pos) else ht_deleted_item := content.item (l_pos) ht_deleted_key := keys.item (l_pos) end control := Removed_constant found_item := l_default_value end ensure then -- from HASH_TABLE removed_or_not_found: removed or not_found not_present: not has (key) one_less: found implies (count = old count - 1) default_case: (key = computed_default_key) implies (not has_default) non_default_case: (key /= computed_default_key) implies (has_default = old has_default) end wipe_out -- Reset all items to default values; reset status. require -- from COLLECTION prunable: prunable do Precursor class_translation_clear ensure -- from COLLECTION wiped_out: is_empty ensure then -- from HASH_TABLE position_equal_to_zero: item_position = 0 count_equal_to_zero: count = 0 has_default_set: not has_default no_status: not special_status end feature -- Transformation correct_mismatch -- Attempt to correct object mismatch during retrieve using Mismatch_information. -- (from HASH_TABLE) local l_old_deleted_marks: detachable SPECIAL [BOOLEAN] i, l_capacity, l_count: INTEGER_32 l_new_table: CLASS_NAME_TRANSLATIONS l_default_item: like ht_deleted_item l_default_key: like ht_deleted_key do if not Mismatch_information.has ("hash_table_version_64") then if attached {ARRAY [STRING_8]} Mismatch_information.item ("content") as array_content then content := array_content.area end if attached {ARRAY [STRING_8]} Mismatch_information.item ("keys") as array_keys then keys := array_keys.area end if attached {ARRAY [BOOLEAN]} Mismatch_information.item ("deleted_marks") as array_marks then deleted_marks := array_marks.area end if deleted_marks /= Void and keys /= Void and then not Mismatch_information.has ("hash_table_version_57") and then deleted_marks.count /= keys.count then l_old_deleted_marks := deleted_marks create deleted_marks.make_empty (keys.count); deleted_marks.copy_data (l_old_deleted_marks, 0, 0, l_old_deleted_marks.count) end if attached {INTEGER_32} Mismatch_information.item ("count") as l_retrieved_count then l_count := l_retrieved_count end if content = Void or keys = Void or deleted_marks = Void then Precursor {MISMATCH_CORRECTOR} else from l_capacity := keys.count l_new_table := empty_duplicate (l_count) until i = l_capacity loop if attached keys.item (i) as l_key_item and then l_key_item /= l_default_key then l_new_table.put (content.item (i), l_key_item) end i := i + 1 end if attached {BOOLEAN} Mismatch_information.item ("has_default") as l_bool and then l_bool then l_new_table.put (content.item (content.capacity - 1), keys.item (l_capacity - 1)) end set_content (l_new_table.content) set_keys (l_new_table.keys) set_deleted_marks (l_new_table.deleted_marks) set_indexes_map (l_new_table.indexes_map) capacity := l_new_table.capacity iteration_position := l_new_table.iteration_position deleted_item_position := l_new_table.deleted_item_position item_position := l_new_table.item_position ht_lowest_deleted_position := Ht_max_position ht_deleted_item := l_default_item ht_deleted_key := l_default_key end control := 0 end end feature {NONE} -- Transformation hash_table_version_64: BOOLEAN -- Fake attribute for versioning purposes. Used in correct_mismatch. -- (from HASH_TABLE) feature -- Conversion linear_representation: ARRAYED_LIST [STRING_8] -- Representation as a linear structure -- (from HASH_TABLE) require -- from CONTAINER True local old_iteration_position: INTEGER_32 do old_iteration_position := iteration_position from create Result.make (count) start until off loop Result.extend (item_for_iteration) forth end iteration_position := old_iteration_position ensure then -- from HASH_TABLE result_exists: Result /= Void good_count: Result.count = count end feature -- Duplication frozen clone (other: detachable ANY): like other obsolete "Use `twin' instead. [2017-05-31]" -- Void if other is void; otherwise new object -- equal to other -- -- For non-void other, clone calls copy; -- to change copying/cloning semantics, redefine copy. -- (from ANY) do if other /= Void then Result := other.twin end ensure -- from ANY instance_free: class equal: Result ~ other end copy (other: CLASS_NAME_TRANSLATIONS) -- Re-initialize from other. -- (from HASH_TABLE) require -- from ANY other_not_void: other /= Void type_identity: same_type (other) do if other /= Current then standard_copy (other) set_content (other.content.twin) set_keys (other.keys.twin) set_deleted_marks (other.deleted_marks.twin) set_indexes_map (other.indexes_map.twin) end ensure -- from ANY is_equal: Current ~ other end frozen deep_clone (other: detachable ANY): like other obsolete "Use `deep_twin' instead. [2017-05-31]" -- Void if other is void: otherwise, new object structure -- recursively duplicated from the one attached to other -- (from ANY) do if other /= Void then Result := other.deep_twin end ensure -- from ANY instance_free: class deep_equal: deep_equal (other, Result) end frozen deep_copy (other: CLASS_NAME_TRANSLATIONS) -- Effect equivalent to that of: -- copy (other . deep_twin) -- (from ANY) require -- from ANY other_not_void: other /= Void do copy (other.deep_twin) ensure -- from ANY deep_equal: deep_equal (Current, other) end frozen deep_twin: CLASS_NAME_TRANSLATIONS -- New object structure recursively duplicated from Current. -- (from ANY) external "built_in" ensure -- from ANY deep_twin_not_void: Result /= Void deep_equal: deep_equal (Current, Result) end frozen standard_clone (other: detachable ANY): like other obsolete "Use `standard_twin' instead. [2017-05-31]" -- Void if other is void; otherwise new object -- field-by-field identical to other. -- Always uses default copying semantics. -- (from ANY) do if other /= Void then Result := other.standard_twin end ensure -- from ANY instance_free: class equal: standard_equal (Result, other) end frozen standard_copy (other: CLASS_NAME_TRANSLATIONS) -- Copy every field of other onto corresponding field -- of current object. -- (from ANY) require -- from ANY other_not_void: other /= Void type_identity: same_type (other) external "built_in" ensure -- from ANY is_standard_equal: standard_is_equal (other) end frozen standard_twin: CLASS_NAME_TRANSLATIONS -- New object field-by-field identical to other. -- Always uses default copying semantics. -- (from ANY) external "built_in" ensure -- from ANY standard_twin_not_void: Result /= Void equal: standard_equal (Result, Current) end frozen twin: CLASS_NAME_TRANSLATIONS -- New object equal to Current -- twin calls copy; to change copying/twinning semantics, redefine copy. -- (from ANY) external "built_in" ensure -- from ANY twin_not_void: Result /= Void is_equal: Result ~ Current end feature {NONE} -- Duplication empty_duplicate (n: INTEGER_32): CLASS_NAME_TRANSLATIONS -- Create an empty copy of Current that can accommodate n items -- (from HASH_TABLE) require -- from HASH_TABLE n_non_negative: n >= 0 do create Result.make (n) if object_comparison then Result.compare_objects end ensure -- from HASH_TABLE empty_duplicate_attached: Result /= Void end feature -- Basic operations frozen as_attached: attached CLASS_NAME_TRANSLATIONS obsolete "Remove calls to this feature. [2017-05-31]" -- Attached version of Current. -- (Can be used during transitional period to convert -- non-void-safe classes to void-safe ones.) -- (from ANY) do Result := Current end frozen default: detachable CLASS_NAME_TRANSLATIONS -- Default value of object's type -- (from ANY) do end frozen default_pointer: POINTER -- Default value of type POINTER -- (Avoid the need to write p.default for -- some p of type POINTER.) -- (from ANY) do ensure -- from ANY instance_free: class end default_rescue -- Process exception for routines with no Rescue clause. -- (Default: do nothing.) -- (from ANY) do end frozen do_nothing -- Execute a null action. -- (from ANY) do ensure -- from ANY instance_free: class end feature -- Inapplicable bag_put (v: STRING_8) -- Ensure that structure includes v. -- (from TABLE) require -- from COLLECTION extendible: Extendible do ensure -- from COLLECTION item_inserted: is_inserted (v) end collection_extend (v: STRING_8) -- Insert a new occurrence of v. -- (from HASH_TABLE) require -- from COLLECTION extendible: Extendible do ensure -- from COLLECTION item_inserted: is_inserted (v) end feature {NONE} -- Implementation add_space -- Increase capacity. -- (from HASH_TABLE) do accommodate (count + count // 2) ensure -- from HASH_TABLE count_not_changed: count = old count breathing_space: count < capacity end add_translation (new_name, old_name: detachable STRING_8) -- Add a translation entry mapping class old_name in the -- storing system to class new_name in the retrieving system. local n, o: ANY do if new_name /= Void and then old_name /= Void then n := new_name.to_c o := old_name.to_c class_translation_put ($n.to_pointer, $o.to_pointer) end end computed_default_key: detachable STRING_8 -- Default key -- (For performance reasons, used only in assertions; -- elsewhere, see use of local entity l_default_key.) -- (from HASH_TABLE) do end computed_default_value: detachable STRING_8 -- Default value of type G -- (For performance reasons, used only in assertions; -- elsewhere, see use of local entity l_default_value.) -- (from HASH_TABLE) do end Conflict_constant: INTEGER_32 = 1 -- Could not insert an already existing key -- (from HASH_TABLE) default_key_value: STRING_8 -- Value associated with the default key, if any -- (from HASH_TABLE) require -- from HASH_TABLE has_default: has_default do Result := content [indexes_map [capacity]] end deleted (i: INTEGER_32): BOOLEAN -- Is position i that of a deleted item? -- (from HASH_TABLE) require -- from HASH_TABLE in_bounds: i >= 0 and i <= capacity do Result := indexes_map.item (i) <= Ht_deleted_position end deleted_position (a_pos: INTEGER_32): INTEGER_32 -- Given the position of a deleted item at a_pos gives the associated position -- in content/keys. -- (from HASH_TABLE) require -- from HASH_TABLE deleted: deleted (a_pos) do Result := - indexes_map.item (a_pos) + Ht_deleted_position Result := Result.min (keys.count) ensure -- from HASH_TABLE deleted_position_non_negative: Result >= 0 deleted_position_valid: Result <= keys.count and Result <= content.count end Found_constant: INTEGER_32 = 2 -- Key found -- (from HASH_TABLE) ht_deleted_item: detachable STRING_8 -- (from HASH_TABLE) ht_deleted_key: detachable STRING_8 -- Store the item and key that will be used to replace an element of the HASH_TABLE -- that will be removed. If elements being removed are at the end of content or keys -- then they are both Void. It is only used when removing an element at a position strictly -- less than count. -- (from HASH_TABLE) Ht_deleted_position: INTEGER_32 = -2 -- Marked a deleted position. -- (from HASH_TABLE) Ht_impossible_position: INTEGER_32 = -1 -- Position outside the array indices. -- (from HASH_TABLE) ht_lowest_deleted_position: INTEGER_32 -- Index of the lowest deleted position thus far. -- (from HASH_TABLE) Ht_max_position: INTEGER_32 = 2147483645 -- Maximum possible position -- (from HASH_TABLE) initial_position (hash_value: INTEGER_32): INTEGER_32 -- Initial position for an item of hash code hash_value -- (from HASH_TABLE) do Result := hash_value \\ capacity end Inserted_constant: INTEGER_32 = 4 -- Insertion successful -- (from HASH_TABLE) internal_search (key: STRING_8) -- Search for item of key key. -- If successful, set position to index -- of item with this key (the same index as the key's index). -- If not, set position to possible position for insertion, -- and set status to found or not_found. -- (from HASH_TABLE) local l_default_key: detachable STRING_8 hash_value, increment, l_pos, l_item_pos, l_capacity: INTEGER_32 l_first_deleted_position: INTEGER_32 stop: INTEGER_32 l_keys: like keys l_indexes: like indexes_map l_deleted_marks: like deleted_marks l_key: STRING_8 do l_first_deleted_position := Ht_impossible_position if key = l_default_key or key = Void then item_position := capacity if has_default then control := Found_constant else control := Not_found_constant end else from l_keys := keys l_indexes := indexes_map l_deleted_marks := deleted_marks l_capacity := capacity stop := l_capacity hash_value := hash_code_of (key) increment := 1 + hash_value \\ (l_capacity - 1) l_item_pos := (hash_value \\ l_capacity) - increment control := Not_found_constant until stop = 0 loop l_item_pos := (l_item_pos + increment) \\ l_capacity l_pos := l_indexes [l_item_pos] if l_pos >= 0 then l_key := l_keys.item (l_pos) debug ("detect_hash_table_catcall") check catcall_detected: l_key /= Void and then l_key.same_type (key) end end if same_keys (l_key, key) then stop := 1 control := Found_constant end elseif l_pos = Ht_impossible_position then stop := 1 elseif l_first_deleted_position = Ht_impossible_position then l_pos := - l_pos + Ht_deleted_position check l_pos_valid: l_pos < l_deleted_marks.count end if not l_deleted_marks [l_pos] then stop := 1 else l_first_deleted_position := l_item_pos end end stop := stop - 1 end item_position := l_item_pos end deleted_item_position := l_first_deleted_position ensure -- from HASH_TABLE found_or_not_found: found or not_found deleted_item_at_deleted_position: (deleted_item_position /= Ht_impossible_position) implies deleted (deleted_item_position) default_iff_at_capacity: (item_position = capacity) = (key = computed_default_key) end is_off_position (pos: INTEGER_32): BOOLEAN -- Is pos a cursor position outside the authorized range? -- (from HASH_TABLE) do Result := pos < 0 or pos >= keys.count end key_at (n: INTEGER_32): detachable STRING_8 -- Key at position n -- (from HASH_TABLE) do if keys.valid_index (n) then Result := keys.item (n) end end Minimum_capacity: INTEGER_32 = 2 -- (from HASH_TABLE) Not_found_constant: INTEGER_32 = 8 -- Key not found -- (from HASH_TABLE) occupied (i: INTEGER_32): BOOLEAN -- Is position i occupied by a non-default key and a value? -- (from HASH_TABLE) require -- from HASH_TABLE in_bounds: deleted_marks.valid_index (i) do if has_default then Result := i /= indexes_map.item (capacity) and then not deleted_marks.item (i) else Result := not deleted_marks.item (i) end end position_increment (hash_value: INTEGER_32): INTEGER_32 -- Distance between successive positions for hash code -- hash_value (computed for no cycle: capacity is prime) -- (from HASH_TABLE) do Result := 1 + hash_value \\ (capacity - 1) end Removed_constant: INTEGER_32 = 16 -- Remove successful -- (from HASH_TABLE) Replaced_constant: INTEGER_32 = 32 -- Replaced value -- (from HASH_TABLE) search_for_insertion (key: STRING_8) -- Assuming there is no item of key key, compute -- position at which to insert such an item. -- (from HASH_TABLE) require -- from HASH_TABLE not_present: not has (key) local l_default_key: detachable STRING_8 hash_value, increment, l_pos, l_item_pos, l_capacity: INTEGER_32 l_first_deleted_position: INTEGER_32 stop: INTEGER_32 l_indexes: like indexes_map l_deleted_marks: like deleted_marks do l_first_deleted_position := Ht_impossible_position if key = l_default_key or key = Void then check not has_default end item_position := capacity else from l_indexes := indexes_map l_deleted_marks := deleted_marks l_capacity := capacity stop := l_capacity hash_value := hash_code_of (key) increment := 1 + hash_value \\ (l_capacity - 1) l_item_pos := (hash_value \\ l_capacity) - increment until stop = 0 loop l_item_pos := (l_item_pos + increment) \\ l_capacity l_pos := l_indexes [l_item_pos] if l_pos >= 0 then elseif l_pos = Ht_impossible_position then stop := 1 elseif l_first_deleted_position = Ht_impossible_position then l_pos := - l_pos + Ht_deleted_position check l_pos_valid: l_pos < l_deleted_marks.count end if not l_deleted_marks [l_pos] then stop := 1 else l_first_deleted_position := l_item_pos end end stop := stop - 1 end item_position := l_item_pos end deleted_item_position := l_first_deleted_position ensure -- from HASH_TABLE deleted_item_at_deleted_position: (deleted_item_position /= Ht_impossible_position) implies deleted (deleted_item_position) default_iff_at_capacity: (item_position = capacity) = (key = computed_default_key) end set_conflict -- Set status to conflict. -- (from HASH_TABLE) do control := Conflict_constant ensure -- from HASH_TABLE conflict: conflict end set_content (c: like content) -- Assign c to content. -- (from HASH_TABLE) require -- from HASH_TABLE c_attached: c /= Void do content := c ensure -- from HASH_TABLE content_set: content = c end set_deleted_marks (d: like deleted_marks) -- Assign c to content. -- (from HASH_TABLE) require -- from HASH_TABLE d_attached: d /= Void do deleted_marks := d ensure -- from HASH_TABLE deleted_marks_set: deleted_marks = d end set_found -- Set status to found. -- (from HASH_TABLE) do control := Found_constant ensure -- from HASH_TABLE found: found end set_indexes_map (v: like indexes_map) -- Assign v to indexes_map. -- (from HASH_TABLE) do indexes_map := v ensure -- from HASH_TABLE indexes_map_set: indexes_map = v end set_inserted -- Set status to inserted. -- (from HASH_TABLE) do control := Inserted_constant ensure -- from HASH_TABLE inserted: inserted end set_keys (c: like keys) -- Assign c to keys. -- (from HASH_TABLE) require -- from HASH_TABLE c_attached: c /= Void do keys := c ensure -- from HASH_TABLE keys_set: keys = c end set_no_status -- Set status to normal. -- (from HASH_TABLE) do control := 0 ensure -- from HASH_TABLE default_status: not special_status end set_not_found -- Set status to not found. -- (from HASH_TABLE) do control := Not_found_constant ensure -- from HASH_TABLE not_found: not_found end set_removed -- Set status to removed. -- (from HASH_TABLE) do control := Removed_constant ensure -- from HASH_TABLE removed: removed end set_replaced -- Set status to replaced. -- (from HASH_TABLE) do control := Replaced_constant ensure -- from HASH_TABLE replaced: replaced end special_status: BOOLEAN -- Has status been set to some non-default value? -- (from HASH_TABLE) do Result := control > 0 ensure -- from HASH_TABLE Result = (control > 0) end truly_occupied (i: INTEGER_32): BOOLEAN -- Is position i occupied by a key and a value? -- (from HASH_TABLE) do if i >= 0 and i < keys.count then Result := (has_default and i = indexes_map.item (capacity)) or else occupied (i) end ensure -- from HASH_TABLE normal_key: (i >= 0 and i < keys.count and i /= indexes_map.item (capacity)) implies (occupied (i) implies Result) default_key: (i = indexes_map.item (capacity)) implies (Result = has_default) end feature -- Correction Mismatch_information: MISMATCH_INFORMATION -- Original attribute values of mismatched object -- (from MISMATCH_CORRECTOR) once create Result end feature {NONE} -- Externals class_translation_clear external "C use %"eif_retrieve.h%"" end class_translation_count: INTEGER_32 external "C use %"eif_retrieve.h%"" end class_translation_new (i: INTEGER_32): POINTER external "C use %"eif_retrieve.h%"" end class_translation_old (i: INTEGER_32): POINTER external "C use %"eif_retrieve.h%"" end class_translation_put (new_name, old_name: POINTER) external "C use %"eif_retrieve.h%"" end feature {HASH_TABLE, HASH_TABLE_ITERATION_CURSOR} -- Implementation: content attributes and preservation content: SPECIAL [STRING_8] -- Array of contents -- (from HASH_TABLE) keys: SPECIAL [STRING_8] -- Array of keys -- (from HASH_TABLE) feature {HASH_TABLE} -- Implementation: content attributes and preservation deleted_marks: SPECIAL [BOOLEAN] -- Indexes of deleted positions in content and keys. -- (from HASH_TABLE) has_default: BOOLEAN -- Is the default key present? -- (from HASH_TABLE) indexes_map: SPECIAL [INTEGER_32] -- Indexes of items in content, and keys. -- If item is not present, then it has Ht_impossible_position. -- If item is deleted, then it has Ht_deleted_position. -- (from HASH_TABLE) item_position: INTEGER_32 -- Position in indexes_map for item at position position. Set by internal_search. -- (from HASH_TABLE) feature {HASH_TABLE} -- Implementation: search attributes control: INTEGER_32 -- Control code set by operations that may produce -- several possible conditions. -- (from HASH_TABLE) deleted_item_position: INTEGER_32 -- Place where a deleted element was found during a search -- (from HASH_TABLE) iteration_position: INTEGER_32 -- Cursor for iteration primitives -- (from HASH_TABLE) position: INTEGER_32 -- Hash table cursor, updated after each operation: -- put, remove, has, replace, force, change_key... -- (from HASH_TABLE) do Result := indexes_map.item (item_position) end soon_full: BOOLEAN -- Is table close to being filled to current capacity? -- (from HASH_TABLE) do Result := keys.count = keys.capacity ensure -- from HASH_TABLE Result = (keys.count = keys.capacity) end feature -- Output Io: STD_FILES -- Handle to standard file setup -- (from ANY) once create Result; Result.set_output_default ensure -- from ANY instance_free: class io_not_void: Result /= Void end out: STRING_8 -- Printable representation of translations local k: STRING_8 i: detachable STRING_8 do from create Result.make (25 + count * 40); Result.append ("Class name translations:%N") start until after loop k := key_for_iteration if k /= Void then Result.append (k) end; Result.append (" -> ") i := item_for_iteration if i /= Void then Result.append (i) end; Result.append_character ('%N') forth end ensure -- from ANY out_not_void: Result /= Void end print (o: detachable ANY) -- Write terse external representation of o -- on standard output. -- (from ANY) local s: READABLE_STRING_8 do if attached o then s := o.out if attached {READABLE_STRING_32} s as s32 then Io.put_string_32 (s32) elseif attached {READABLE_STRING_8} s as s8 then Io.put_string (s8) else Io.put_string_32 (s.as_string_32) end end ensure -- from ANY instance_free: class end frozen tagged_out: STRING_8 -- New string containing terse printable representation -- of current object -- (from ANY) external "built_in" ensure -- from ANY tagged_out_not_void: Result /= Void end feature -- Platform Operating_environment: OPERATING_ENVIRONMENT -- Objects available from the operating system -- (from ANY) once create Result ensure -- from ANY instance_free: class operating_environment_not_void: Result /= Void end feature {NONE} -- Retrieval frozen internal_correct_mismatch -- Called from runtime to perform a proper dynamic dispatch on correct_mismatch -- from MISMATCH_CORRECTOR. -- (from ANY) local l_msg: STRING_32 l_exc: EXCEPTIONS do if attached {MISMATCH_CORRECTOR} Current as l_corrector then l_corrector.correct_mismatch else create l_msg.make_from_string ("Mismatch: ".as_string_32) create l_exc; l_msg.append (generating_type.name_32); l_exc.raise_retrieval_exception (l_msg) end end invariant -- from HASH_TABLE keys_not_void: keys /= Void content_not_void: content /= Void keys_enough_capacity: keys.count <= capacity + 1 content_enough_capacity: content.count <= capacity + 1 valid_iteration_position: off or truly_occupied (iteration_position) control_non_negative: control >= 0 special_status: special_status = (conflict or inserted or replaced or removed or found or not_found) count_big_enough: 0 <= count count_small_enough: count <= capacity slot_count_big_enough: 0 <= count -- from FINITE empty_definition: is_empty = (count = 0) -- from ANY reflexive_equality: standard_is_equal (Current) reflexive_conformance: conforms_to (Current) -- from READABLE_INDEXABLE consistent_boundaries: iteration_lower <= iteration_upper or else iteration_lower = iteration_upper + 1 note copyright: "Copyright (c) 1984-2018, Eiffel Software and others" license: "Eiffel Forum License v2 (see http://www.eiffel.com/licensing/forum.txt)" source: "[ Eiffel Software 5949 Hollister Ave., Goleta, CA 93117 USA Telephone 805-685-1006, Fax 805-685-6869 Website http://www.eiffel.com Customer support http://support.eiffel.com ]" end -- class CLASS_NAME_TRANSLATIONS
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