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yap-6.3/packages/ProbLog/problog/nestedtries.yap

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%%% -*- Mode: Prolog; -*-
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% $Date: 2010-11-03 19:13:53 +0100 (Wed, 03 Nov 2010) $
% $Revision: 4986 $
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% Theofrastos Mantadelis
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% nested tries handling
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
:- module(nestedtries, [nested_trie_to_depth_breadth_trie/4]).
:- use_module(library(ordsets), [list_to_ord_set/2, ord_subset/2]). % this two might be better to do a custom fast implementation
:- use_module(library(lists), [memberchk/2, delete/3]).
:- use_module(library(tries), [trie_to_depth_breadth_trie/6, trie_get_depth_breadth_reduction_entry/1, trie_dup/2, trie_close/1, trie_open/1, trie_replace_nested_trie/3, trie_remove_entry/1, trie_get_entry/2, trie_put_entry/3, trie_traverse/2]).
:- use_module(flags, [problog_define_flag/5, problog_flag/2]).
:- style_check(all).
:- yap_flag(unknown,error).
:- initialization((
% problog_define_flag(subset_check, problog_flag_validate_boolean, 'perform subset check in nested tries', true, nested_tries),
problog_define_flag(loop_refine_ancs, problog_flag_validate_boolean, 'refine ancestors if no loop exists', true, nested_tries)
% problog_define_flag(trie_preprocess, problog_flag_validate_boolean, 'perform a preprocess step to nested tries', false, nested_tries),
% problog_define_flag(refine_anclst, problog_flag_validate_boolean, 'refine the ancestor list with their childs', false, nested_tries),
% problog_define_flag(anclst_represent,problog_flag_validate_in_list([list, integer]), 'represent the ancestor list', list, nested_tries)
)).
trie_replace_entry(_Trie, Entry, _E, false):-
!, trie_remove_entry(Entry).
trie_replace_entry(Trie, Entry, E, true):-
!, trie_get_entry(Entry, Proof),
delete(Proof, E, NewProof),
(NewProof == [] ->
trie_delete(Trie),
trie_put_entry(Trie, [true], _)
;
trie_remove_entry(Entry),
trie_put_entry(Trie, NewProof, _)
).
trie_replace_entry(Trie, _Entry, t(ID), R):-
trie_replace_nested_trie(Trie, ID, R).
trie_delete(Trie):-
trie_traverse(Trie, R),
trie_remove_entry(R),
fail.
trie_delete(_Trie).
is_state(Variable):-
Variable == true, !.
is_state(Variable):-
Variable == false.
is_state(Variable):-
nonvar(Variable),
Variable = not(NestedVariable),
is_state(NestedVariable).
is_trie(Trie, ID):-
nonvar(Trie),
Trie = t(ID), !.
is_trie(Trie, ID):-
nonvar(Trie),
Trie = not(NestedTrie),
is_trie(NestedTrie, ID).
is_label(Label, ID):-
atom(Label), !,
atomic_concat('L', ID, Label).
is_label(Label, ID):-
nonvar(Label),
Label = not(NestedLabel),
is_label(NestedLabel, ID).
% Ancestor related stuff
initialise_ancestors(0):-
problog_flag(anclst_represent, integer).
initialise_ancestors([]):-
problog_flag(anclst_represent, list).
add_to_ancestors(ID, Ancestors, NewAncestors):-
integer(Ancestors), !,
NewAncestors is (1 << (ID - 1)) \/ Ancestors.
add_to_ancestors(ID, Ancestors, NewAncestors):-
is_list(Ancestors),
list_to_ord_set([ID|Ancestors], NewAncestors).
ancestor_subset_check(SubAncestors, Ancestors):-
integer(SubAncestors), !,
SubAncestors is Ancestors /\ SubAncestors.
ancestor_subset_check(SubAncestors, Ancestors):-
is_list(SubAncestors),
ord_subset(SubAncestors, Ancestors).
ancestor_loop_refine(Loop, Ancestors, 0):-
var(Loop), integer(Ancestors), !.
ancestor_loop_refine(Loop, Ancestors, []):-
var(Loop), is_list(Ancestors), !.
ancestor_loop_refine(true, Ancestors, Ancestors).
% Cycle check related stuff
% missing synonym check
cycle_check(ID, Ancestors):-
integer(Ancestors), !,
Bit is 1 << (ID - 1),
Bit is Bit /\ Ancestors.
cycle_check(ID, Ancestors):-
is_list(Ancestors),
memberchk(ID, Ancestors).
preprocess(Index, DepthBreadthTrie, OptimizationLevel, StartCount, FinalEndCount):-
problog:problog_chktabled(Index, Trie), !,
trie_dup(Trie, CopyTrie),
initialise_ancestors(Ancestors),
make_nested_trie_base_cases(CopyTrie, t(Index), DepthBreadthTrie, OptimizationLevel, StartCount, EndCount, Ancestors),
trie_close(CopyTrie),
Next is Index + 1,
preprocess(Next, DepthBreadthTrie, OptimizationLevel, EndCount, FinalEndCount).
preprocess(_, _, _, FinalEndCount, FinalEndCount).
make_nested_trie_base_cases(Trie, t(ID), DepthBreadthTrie, OptimizationLevel, StartCount, FinalEndCount, Ancestors):-
trie_to_depth_breadth_trie(Trie, DepthBreadthTrie, Label, OptimizationLevel, StartCount, EndCount),
(is_trie(Label, SID) ->
trie_get_depth_breadth_reduction_entry(NestedEntry),
trie_replace_entry(Trie, NestedEntry, Label, false),
add_to_ancestors(SID, Ancestors, NewAncestors),
make_nested_trie_base_cases(Trie, t(ID), DepthBreadthTrie, OptimizationLevel, EndCount, FinalEndCount, NewAncestors)
;
FinalEndCount = EndCount,
get_set_trie(ID, Label, Ancestors)
).
nested_trie_to_depth_breadth_trie(Trie, DepthBreadthTrie, FinalLabel, OptimizationLevel):-
integer(OptimizationLevel),
trie_open(DepthBreadthTrie),
(problog_flag(trie_preprocess, true) ->
preprocess(1, DepthBreadthTrie, OptimizationLevel, 0, StartCount)
;
StartCount = 0
),
initialise_ancestors(Ancestors),
% initialise_ancestors(Childs),
(problog_flag(loop_refine_ancs, true) ->
trie_2_dbtrie_init(Trie, DepthBreadthTrie, OptimizationLevel, StartCount, _, Ancestors, FinalLabel, _)
;
trie_2_dbtrie_init(Trie, DepthBreadthTrie, OptimizationLevel, StartCount, _, Ancestors, FinalLabel, true)
),
eraseall(problog_trie_table).
trie_2_dbtrie_init(ID, DepthBreadthTrie, OptimizationLevel, StartCount, EndCount, Ancestors, Label, ContainLoop):-
get_trie_pointer(ID, Trie),
trie_dup(Trie, CopyTrie),
trie_2_dbtrie_intern(CopyTrie, DepthBreadthTrie, OptimizationLevel, StartCount, EndCount, Ancestors, Label, ContainLoop),
trie_close(CopyTrie).
trie_2_dbtrie_intern(Trie, DepthBreadthTrie, OptimizationLevel, StartCount, FinalEndCount, Ancestors, TrieLabel, ContainLoop):-
trie_to_depth_breadth_trie(Trie, DepthBreadthTrie, Label, OptimizationLevel, StartCount, EndCount),
(is_trie(Label, ID) -> % Label might have issues with negation
trie_get_depth_breadth_reduction_entry(NestedEntry),
% check if Trie introduces a loop
(cycle_check(ID, Ancestors) ->
ContainLoop = true,
NewLabel = false,
NewEndCount = EndCount
;
% check if Trie is resolved and extract it
(get_set_trie(ID, NewLabel, Ancestors) ->
NewEndCount = EndCount
;
% calculate the nested trie
add_to_ancestors(ID, Ancestors, NewAncestors), % to be able to support 2 representations
trie_2_dbtrie_init(ID, DepthBreadthTrie, OptimizationLevel, EndCount, NewEndCount, NewAncestors, NewLabel, NewContainLoop),
ancestor_loop_refine(NewContainLoop, Ancestors, RefinedAncestors),
get_set_trie(ID, NewLabel, RefinedAncestors),
ContainLoop = NewContainLoop
)
),
trie_replace_entry(Trie, NestedEntry, t(ID), NewLabel), % should be careful to verify that it works also with not(t(ID))
trie_2_dbtrie_intern(Trie, DepthBreadthTrie, OptimizationLevel, NewEndCount, FinalEndCount, Ancestors, TrieLabel, ContainLoop)
;
% else we can terminate and return
FinalEndCount = EndCount,
TrieLabel = Label
).
% predicate to check/remember resolved tries
% no refiment of ancestor list included
get_trie_pointer(ID, Trie):-
problog:problog_chktabled(ID, Trie), !.
get_trie_pointer(Trie, Trie).
get_set_trie(Trie, Label, Ancestors):-
recorded(problog_trie_table, store(Trie, StoredAncestors, Label), _),
(problog_flag(subset_check, true) ->
ancestor_subset_check(StoredAncestors, Ancestors)
;
StoredAncestors == Ancestors
), !.
get_set_trie(Trie, Label, Ancestors):-
ground(Label),
recordz(problog_trie_table, store(Trie, Ancestors, Label), _).
% chk_negated([H|T], ID):-
% simplify(H, not(t(ID))), !.
% chk_negated([_|T], ID):-
% chk_negated(T, ID).
/*
chk_negated([], ID, ID).
chk_negated([H|T], ID, not(ID)):-
simplify(H, not(t(ID))), !.
chk_negated([H|T], ID, ID):-
simplify(H, t(ID)), !.
chk_negated([_|T], ID, FID):-
chk_negated(T, ID, FID).*/