| Class DS_MULTIARRAYED_HASH_SET | |
note
description:
"Hash sets implemented with multi-arrays. %
%Keys are hashed using hash_code from HASHABLE."
library: "Gobo Eiffel Structure Library"
author: "Eric Bezault <ericb@gobosoft.com>"
copyright: "Copyright (c) 2001, Eric Bezault and others"
license: "MIT License"
class interface
DS_MULTIARRAYED_HASH_SET [G -> HASHABLE]
inherit
DS_MULTIARRAYED_SPARSE_SET [G]
DS_SPARSE_SET [G]
DS_SET [G]
DS_LINEAR [G]
DS_TRAVERSABLE [G]
DS_CONTAINER [G]
DS_SEARCHABLE [G]
DS_CONTAINER [G]
DS_BILINEAR [G]
DS_LINEAR [G]
DS_TRAVERSABLE [G]
DS_CONTAINER [G]
DS_SEARCHABLE [G]
DS_CONTAINER [G]
DS_RESIZABLE [G]
DS_CONTAINER [G]
create
make (n: INTEGER) -- Create an empty set and allocate memory space -- for at least n items. Array chunks will have -- a size of default_chunk_size. -- Use `=' as comparison criterion. -- (From DS_MULTIARRAYED_SPARSE_SET.) require positive_n: n >= 0 ensure empty: is_empty capacity_set: capacity = n chunk_size_set: chunk_size = default_chunk_size before: beforemake_equal (n: INTEGER) -- Create an empty set and allocate memory space -- for at least n items. Array chunks will have -- a size of default_chunk_size. -- Use equal as comparison criterion. -- (From DS_MULTIARRAYED_SPARSE_SET.) require positive_n: n >= 0 ensure empty: is_empty capacity_set: capacity = n chunk_size_set: chunk_size = default_chunk_size before: beforemake_default -- Create an empty set and allocate memory space -- for at least default_capacity items. Array -- chunks will have a size of default_chunk_size. -- Use `=' as comparison criterion for items. -- Use equal as comparison criterion for keys. -- (From DS_CONTAINER.) ensure empty: is_empty capacity_set: capacity = default_capacity chunk_size_set: chunk_size = default_chunk_size before: beforemake_with_chunk_size (n: INTEGER; a_chunk_size: INTEGER) -- Create an empty set and allocate memory space -- for at least n items. Array chunks will have -- a size of a_chunk_size. -- Use `=' as comparison criterion. -- (From DS_MULTIARRAYED_SPARSE_SET.) require positive_n: n >= 0 a_chunk_size_positive: a_chunk_size > 0 ensure empty: is_empty capacity_set: capacity = n chunk_size_set: chunk_size = a_chunk_size before: beforemake_equal_with_chunk_size (n: INTEGER; a_chunk_size: INTEGER) -- Create an empty set and allocate memory space -- for at least n items. Array chunks will have -- a size of a_chunk_size. -- Use equal as comparison criterion. -- (From DS_MULTIARRAYED_SPARSE_SET.)) require positive_n: n >= 0 a_chunk_size_positive: a_chunk_size > 0 ensure empty: is_empty capacity_set: capacity = n chunk_size_set: chunk_size = a_chunk_size before: before
feature -- Access
infix "@", item (v: G): G -- Item equal to v held in set -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- (From DS_SET.) require has_v: has (v) ensure definition: same_items (Result, v)found_item: G -- Item found by last call to search -- (From DS_SPARSE_SET.) require item_found: founditem_for_iteration: G -- Item at internal cursor position -- (From DS_TRAVERSABLE.) require not_off: not offfirst: G -- First item in set -- (From DS_LINEAR.) require not_empty: not is_empty ensure has_first: has (Result)last: G -- Last item in table -- (From DS_BILINEAR.) require not_empty: not is_empty ensure has_last: has_item (Result)new_cursor: DS_MULTIARRAYED_HASH_SET_CURSOR [G] -- New external cursor for traversal -- (From DS_TRAVERSABLE.) ensure cursor_not_void: Result /= Void valid_cursor: valid_cursor (Result)equality_tester: DS_EQUALITY_TESTER [G] -- Equality tester; -- A void equality tester means that `=' -- will be used as comparison criterion. -- (From DS_SEARCHABLE.)
feature -- Measurement
count: INTEGER -- Number of items in set -- (From DS_CONTAINER.)capacity: INTEGER -- Maximum number of items in set -- (From DS_RESIZABLE.)default_capacity: INTEGER -- Initial capacity in make_default -- (Default value: 10) -- (From DS_RESIZABLE.) ensure default_capacity_positive: Result >= 0chunk_size: INTEGER -- Size of array chunks -- (From DS_MULTIARRAYED_SPARSE_SET.)default_chunk_size: INTEGER -- Default value for chunk_size -- (Default value: 30000) ensure default_chunk_size_positive: Result > 0 -- (From DS_MULTIARRAYED_SPARSE_SET.)occurrences (v: G): INTEGER -- Number of times v appears in set -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- (From DS_SEARCHABLE.) ensure positive: Result >= 0 has: has (v) implies Result >= 1 has_v: has (v) implies (Result = 1) not_has_v: not has (v) implies (Result = 0)
feature -- Status report
has (v: G): BOOLEAN -- Does container include v? -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- (From DS_SEARCHABLE.) ensure not_empty: Result implies not is_emptyfound: BOOLEAN -- Did last call to search succeed? -- (From DS_SPARSE_SET.)is_subset (other: DS_SET [G]): BOOLEAN -- Are all items of current set included in other? -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- (From DS_SET.) require other_not_void: other /= Void same_equality_tester: same_equality_tester (other)is_superset (other: DS_SET [G]): BOOLEAN -- Does current set include all items of other? -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- (From DS_SET.) require other_not_void: other /= Void same_equality_tester: same_equality_tester (other) ensure definition Result = other.is_subset (Current)is_disjoint (other: DS_SET [G]): BOOLEAN -- Are none of the items of current set included in other? -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- (From DS_SET.) require other_not_void: other /= Void same_equality_tester: same_equality_tester (other)is_empty: BOOLEAN -- Is set empty? -- (From DS_CONTAINER.)is_full: BOOLEAN -- Is set full? -- (From DS_RESIZABLE.)is_first: BOOLEAN -- Is internal cursor on first item? -- (From DS_LINEAR.) ensure not_empty: Result implies not is_empty not_off: Result implies not off definition: Result implies (item_for_iteration = first)is_last: BOOLEAN -- Is internal cursor on last item? -- (From DS_BILINEAR.) ensure not_empty: Result implies not is_empty not_off: Result implies not off definition: Result implies (item_for_iteration = last)after: BOOLEAN -- Is there no valid position to right of internal cursor? -- (From DS_LINEAR.)before: BOOLEAN -- Is there no valid position to left of internal cursor? -- (From DS_BILINEAR.)off: BOOLEAN -- Is there no item at internal cursor position? -- (From DS_TRAVERSABLE.)same_position (a_cursor: like new_cursor): BOOLEAN -- Is internal cursor at same position as a_cursor? -- (From DS_TRAVERSABLE.) require a_cursor_not_void: a_cursor /= Voidvalid_cursor (a_cursor: DS_CURSOR [G]): BOOLEAN -- Is a_cursor a valid cursor? -- (From DS_TRAVERSABLE.) require a_cursor_not_void: a_cursor /= Voidsame_items (v, u: G): BOOLEAN -- Are v and u considered equal? -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- (From DS_SEARCHABLE.)same_equality_tester (other: DS_SEARCHABLE [G]): BOOLEAN -- Does container use the same comparison -- criterion as other? -- (From DS_SEARCHABLE.) require other_not_void: other /= Voidequality_tester_settable (a_tester: like equality_tester): BOOLEAN -- Can set_equality_tester be called with a_tester -- as argument in current state of container? -- (Answer: the set has to be empty.) -- (From DS_SEARCHABLE.)
feature -- Search
search (v: G)
-- Search for item equal to v.
-- (Use equality_tester's comparison criterion
-- if not Void, use `=' criterion otherwise.)
-- If found, set found to true, and make that
-- item available in found_item.
-- (From DS_SPARSE_SET.)
ensure
found_set: found = has (v)
found_item_set: found implies (found_item = item (v))
feature -- Comparison
is_equal (other: like Current): BOOLEAN
-- Is set equal to other?
-- Do not take cursor positions, and capacity into
-- account, but equality_tester should be the same.
-- (From GENERAL.)
require
other_not_void: other /= Void
ensure
consistent: standard_is_equal (other) implies Result
same_type: Result implies same_type (other)
symmetric: Result implies other.is_equal (Current)
same_count: Result implies count = other.count
feature -- Duplication
copy (other: like Current)
-- Copy other to current set.
-- Move all cursors off (unless other = Current).
-- (From GENERAL.)
require
other_not_void: other /= Void
type_identity: same_type (other)
ensure
is_equal: is_equal (other)
feature -- Setting
set_equality_tester (a_tester: like equality_tester)
-- Set equality_tester to a_tester.
-- A void equality tester means that `='
-- will be used as comparison criterion.
-- (From DS_SEARCHABLE.)
require
equality_tester_settable: equality_tester_settable (a_tester)
ensure
equality_tester_set: equality_tester = a_tester
feature -- Cursor movement
start -- Move internal cursor to first position. -- (From DS_LINEAR.) ensure empty_behavior: is_empty implies after not_empty_behavior: not is_empty implies is_firstfinish -- Move internal cursor to last position. -- (From DS_BILINEAR.) ensure empty_behavior: is_empty implies before not_empty_behavior: not is_empty implies is_lastforth -- Move internal cursor to next position. -- (From DS_LINEAR.) require not_after: not afterback -- Move internal cursor to previous position. -- (From DS_BILINEAR.) require not_before: not beforesearch_forth (v: G) -- Move internal cursor to first position at or after current -- position where item_for_iteration and v are equal. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- Move after if not found. -- (From DS_LINEAR.) require not_off: not off or aftersearch_back (v: G) -- Move internal cursor to first position at or before current -- position where item_for_iteration and v are equal. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- Move before if not found. -- (From DS_BILINEAR.) require not_off: not off or beforego_after -- Move cursor to after position. -- (From DS_LINEAR.) ensure after: aftergo_before -- Move cursor to before position. -- (From DS_BILINEAR.) ensure before: beforego_to (a_cursor: like new_cursor) -- Move internal cursor to a_cursor's position. -- (From DS_TRAVERSABLE.) require cursor_not_void: a_cursor /= Void valid_cursor: valid_cursor (a_cursor) ensure same_position: same_position (a_cursor)
feature -- Element change
put (v: G) -- Add v to set, replacing any existing item. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- Do not move cursors. -- (From DS_SPARSE_SET.) require not_full: not is_full ensure same_count: (old has (v)) implies (count = old count) one_more: (not old has (v)) implies (count = old count + 1) inserted: has (v) and then item (v) = vput_new (v: G) -- Add v to set. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- Do not move cursors. -- (From DS_SPARSE_SET.) require not_full: not is_full new_item: not has (v) ensure one_more: count = old count + 1 inserted: has (v) and then item (v) = vforce (v: G) -- Add v to set, replacing any existing item. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- Resize set if necessary. -- Do not move cursors. -- (From put in DS_SET.) ensure inserted: has (v) and then item (v) = v same_count: (old has (v)) implies (count = old count) one_more: (not old has (v)) implies (count = old count + 1)force_new (v: G) -- Add v to set. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- Resize set if necessary. -- Do not move cursors. -- (From DS_SPARSE_SET.) require new_item: not has (v) ensure one_more: count = old count + 1 inserted: has (v) and then item (v) = vforce_last (v: G) -- Add v at the end of set if not already included, -- or replace it otherwise. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- Resize set if necessary. -- Do not move cursors. -- (From DS_SPARSE_SET.) ensure same_count: (old has (v)) implies (count = old count) one_more: (not old has (v)) implies (count = old count + 1) inserted: has (v) and then item (v) = v last: (not old has (v)) implies last = v
feature -- Removal
remove (v: G) -- Remove item equal to v from set. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- Move any cursors at this position forth. -- (From DS_SET.) ensure same_count: (not old has (v)) implies (count = old count) one_less: (old has (v)) implies (count = old count - 1) removed: not has (v)remove_found_item -- Remove item found by last call to search. -- Move any cursors at this position forth. -- (From DS_SPARSE_SET.) require item_found: found ensure one_less: count = old count - 1wipe_out -- Remove all items from set. -- Move all cursors off. -- (From DS_CONTAINER.) ensure wiped_out: is_empty
feature -- Basic operations
append (other: DS_SET [G]) -- Add all items of other to current set. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- (From DS_SET.) require other_not_void: other /= Void same_equality_tester: same_equality_tester (other) ensure is_superset: is_superset (other)intersect (other: DS_SET [G]) -- Remove all items not included in other. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- (From DS_SET.) require other_not_void: other /= Void same_equality_tester: same_equality_tester (other) ensure is_subset: is_subset (other)subtract (other: DS_SET [G]) -- Remove all items also included in other. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- (From DS_SET.) require other_not_void: other /= Void same_equality_tester: same_equality_tester (other) ensure is_disjoint: is_disjoint (other)symdif (other: DS_SET [G]) -- Add items of other which are not included -- in current set and remove those which are. -- (Use equality_tester's comparison criterion -- if not void, use `=' criterion otherwise.) -- (From DS_SET.) require other_not_void: other /= Void same_equality_tester: same_equality_tester (other)
feature -- Resizing
resize (n: INTEGER)
-- Resize set so that it can contain
-- at least n items. Do not lose any item.
-- Move all cursors off.
-- (From DS_RESIZABLE.)
require
n_large_enough: n >= capacity
ensure
capacity_set: capacity = n
invariant
positive_count: count >= 0 empty_definition: is_empty = (count = 0) -- (From DS_CONTAINER.)empty_constraint: is_empty implies off -- (From DS_TRAVERSABLE.)
after_constraint: after implies off -- (From DS_LINEAR.)not_both: not (after and before) before_constraint: before implies off -- (From DS_BILINEAR.)count_constraint: count <= capacity full_definition: is_full = (count = capacity) -- (From DS_RESIZABLE.)chunk_size_positive: chunk_size > 0 -- (From DS_MULTIARRAYED_SPARSE_SET.)
end -- class DS_MULTIARRAYED_HASH_SET
|
Copyright © 2001, Eric
Bezault mailto:ericb@gobosoft.com http://www.gobosoft.com Last Updated: 6 April 2001 |
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