1/*  Part of SWI-Prolog
    2
    3    Author:        Jan Wielemaker
    4    E-mail:        J.Wielemaker@vu.nl
    5    WWW:           http://www.swi-prolog.org
    6    Copyright (c)  2015, VU University Amsterdam
    7    All rights reserved.
    8
    9    Redistribution and use in source and binary forms, with or without
   10    modification, are permitted provided that the following conditions
   11    are met:
   12
   13    1. Redistributions of source code must retain the above copyright
   14       notice, this list of conditions and the following disclaimer.
   15
   16    2. Redistributions in binary form must reproduce the above copyright
   17       notice, this list of conditions and the following disclaimer in
   18       the documentation and/or other materials provided with the
   19       distribution.
   20
   21    THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
   22    "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
   23    LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
   24    FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
   25    COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
   26    INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
   27    BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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   32    POSSIBILITY OF SUCH DAMAGE.
   33*/
   34
   35:- module(dicts,
   36          [ dicts_same_tag/2,           % +List, -Tag
   37            dict_keys/2,                % +Dict, -Keys
   38            dicts_same_keys/2,          % +DictList, -Keys
   39            dicts_to_same_keys/3,       % +DictsIn, :OnEmpty, -DictsOut
   40            dict_fill/4,                % +Value, +Key, +Dict, -Value
   41            dict_no_fill/3,             % +Key, +Dict, -Value
   42            dicts_join/3,               % +Key, +DictsIn, -Dicts
   43            dicts_join/4,               % +Key, +Dicts1, +Dicts2, -Dicts
   44            dicts_slice/3,              % +Keys, +DictsIn, -DictsOut
   45            dicts_to_compounds/4        % ?Dicts, +Keys, :OnEmpty, ?Compounds
   46          ]).   47:- use_module(library(apply)).   48:- use_module(library(pairs)).   49:- use_module(library(lists)).   50:- use_module(library(ordsets)).   51
   52:- meta_predicate
   53    dicts_to_same_keys(+,3,-),
   54    dicts_to_compounds(?,+,3,?).

 dicts_same_tag(+List, -Tag) is semidet

True when List is a list of dicts that all have the tag Tag.

   68dicts_same_tag(List, Tag) :-
   69    maplist(keys_tag(Tag), List).
   70
   71keys_tag(Tag, Dict) :-
   72    is_dict(Dict, Tag).

 dict_keys(+Dict, -Keys) is det

True when Keys is an ordered set of the keys appearing in Dict.

   78dict_keys(Dict, Keys) :-
   79    dict_pairs(Dict, _Tag, Pairs),
   80    pairs_keys(Pairs, Keys).

 dicts_same_keys(+List, -Keys) is semidet

True if List is a list of dicts that all have the same keys and Keys is an ordered set of these keys.

   88dicts_same_keys(List, Keys) :-
   89    maplist(keys_dict(Keys), List).
   90
   91keys_dict(Keys, Dict) :-
   92    dict_keys(Dict, Keys).

 dicts_to_same_keys(+DictsIn, :OnEmpty, -DictsOut)

DictsOut is a copy of DictsIn, where each dict contains all keys appearing in all dicts of DictsIn. Values for keys that are added to a dict are produced by calling OnEmpty as below. The predicate dict_fill/4 provides an implementation that fills all new cells with a predefined value.

call(:OnEmpty, +Key, +Dict, -Value)

  106dicts_to_same_keys(Dicts, _, Table) :-
  107    dicts_same_keys(Dicts, _),
  108    !,
  109    Table = Dicts.
  110dicts_to_same_keys(Dicts, OnEmpty, Table) :-
  111    maplist(dict_keys, Dicts, KeysList),
  112    append(KeysList, Keys0),
  113    sort(Keys0, Keys),
  114    maplist(extend_dict(Keys, OnEmpty), Dicts, Table).
  115
  116extend_dict(Keys, OnEmpty, Dict0, Dict) :-
  117    dict_pairs(Dict0, Tag, Pairs),
  118    pairs_keys(Pairs, DictKeys),
  119    ord_subtract(Keys, DictKeys, Missing),
  120    (   Missing == []
  121    ->  Dict = Dict0
  122    ;   maplist(key_value_pair(Dict0, OnEmpty), Missing, NewPairs),
  123        append(NewPairs, Pairs, AllPairs),
  124        dict_pairs(Dict, Tag, AllPairs)
  125    ).
  126
  127key_value_pair(Dict, OnEmpty, Key, Key-Value) :-
  128    call(OnEmpty, Key, Dict, Value).

 dict_fill(+ValueIn, +Key, +Dict, -Value) is det

Implementation for the dicts_to_same_keys/3 OnEmpty closure that fills new cells with a copy of ValueIn. Note that copy_term/2 does not really copy ground terms. Below are two examples. Note that when filling empty cells with a variable, each empty cell is bound to a new variable.

?- dicts_to_same_keys([r{x:1}, r{y:2}], dict_fill(null), L).
L = [r{x:1, y:null}, r{x:null, y:2}].
?- dicts_to_same_keys([r{x:1}, r{y:2}], dict_fill(_), L).
L = [r{x:1, y:_G2005}, r{x:_G2036, y:2}].

Use dict_no_fill/3 to raise an error if a dict is missing a key.

  147dict_fill(ValueIn, _, _, Value) :-
  148    copy_term(ValueIn, Value).

 dict_no_fill is det

Can be used instead of dict_fill/4 to raise an exception if some dict is missing a key.

  155dict_no_fill(Key, Dict, Value) :-
  156    Value = Dict.Key.

 dicts_join(+Key, +DictsIn, -Dicts) is semidet

Join dicts in Dicts that have the same value for Key, provided they do not have conflicting values on other keys. For example:

?- dicts_join(x, [r{x:1, y:2}, r{x:1, z:3}, r{x:2,y:4}], L).
L = [r{x:1, y:2, z:3}, r{x:2, y:4}].

Errors

- existence_error(key, Key, Dict) if a dict in Dicts1 or Dicts2 does not contain Key.

  171dicts_join(Join, Dicts0, Dicts) :-
  172    sort(Join, @=<, Dicts0, Dicts1),
  173    join(Dicts1, Join, Dicts).
  174
  175join([], _, []) :- !.
  176join([H0|T0], Key, [H|T]) :-
  177    !,
  178    get_dict(Key, H0, V0),
  179    join_same(T0, Key, V0, H0, H, T1),
  180    join(T1, Key, T).
  181join([One], _, [One]) :- !.
  182
  183join_same([H|T0], Key, V0, D0, D, T) :-
  184    get_dict(Key, H, V),
  185    V == V0,
  186    !,
  187    D0 >:< H,
  188    put_dict(H, D0, D1),
  189    join_same(T0, Key, V0, D1, D, T).
  190join_same(DL, _, _, D, D, DL).

 dicts_join(+Key, +Dicts1, +Dicts2, -Dicts) is semidet

Join two lists of dicts (Dicts1 and Dicts2) on Key. Each pair D1-D2 from Dicts1 and Dicts2 that have the same (==) value for Key creates a new dict D with the union of the keys from D1 and D2, provided D1 and D2 to not have conflicting values for some key. For example:

?- DL1 = [r{x:1,y:1},r{x:2,y:4}],
   DL2 = [r{x:1,z:2},r{x:3,z:4}],
   dicts_join(x, DL1, DL2, DL).
   DL = [r{x:1, y:1, z:2}, r{x:2, y:4}, r{x:3, z:4}].

Errors

- existence_error(key, Key, Dict) if a dict in Dicts1 or Dicts2 does not contain Key.

  210dicts_join(Join, Dicts1, Dicts2, Dicts) :-
  211    sort(Join, @=<, Dicts1, Dicts11),
  212    sort(Join, @=<, Dicts2, Dicts21),
  213    join(Dicts11, Dicts21, Join, Dicts).
  214
  215join([], [], _, []) :- !.
  216join([D1|T1], [D2|T2], Join, [DNew|MoreDicts]) :-
  217    !,
  218    get_dict(Join, D1, K1),
  219    get_dict(Join, D2, K2),
  220    compare(Diff, K1, K2),
  221    (   Diff == (=)
  222    ->  D1 >:< D2,
  223        put_dict(D1, D2, DNew),
  224        join(T1, T2, Join, MoreDicts)
  225    ;   Diff == (<)
  226    ->  DNew = D1,
  227        join(T1, [D2|T2], Join, MoreDicts)
  228    ;   DNew = D2,
  229        join([D1|T1], T2, Join, MoreDicts)
  230    ).
  231join([], Dicts, _, Dicts) :- !.
  232join(Dicts, [], _, Dicts).

 dicts_slice(+Keys, +DictsIn, -DictsOut) is det

DictsOut is a list of Dicts only containing values for Keys.

  239dicts_slice(Keys, DictsIn, DictsOut) :-
  240    sort(Keys, SortedKeys),
  241    maplist(dict_slice(SortedKeys), DictsIn, DictsOut).
  242
  243dict_slice(Keys, DictIn, DictOut) :-
  244    dict_pairs(DictIn, Tag, PairsIn),
  245    slice_pairs(Keys, PairsIn, PairsOut),
  246    dict_pairs(DictOut, Tag, PairsOut).
  247
  248slice_pairs([], _, []) :- !.
  249slice_pairs(_, [], []) :- !.
  250slice_pairs([H|T0], [P|PL], Pairs) :-
  251    P = K-_,
  252    compare(D, H, K),
  253    (   D == (=)
  254    ->  Pairs = [P|More],
  255        slice_pairs(T0, PL, More)
  256    ;   D == (<)
  257    ->  slice_pairs(T0, [P|PL], Pairs)
  258    ;   slice_pairs([H|T0], PL, Pairs)
  259    ).

 dicts_to_compounds(?Dicts, +Keys, :OnEmpty, ?Compounds) is semidet

True when Dicts and Compounds are lists of the same length and each element of Compounds is a compound term whose arguments represent the values associated with the corresponding keys in Keys. When converting from dict to row, OnEmpty is used to compute missing values. The functor for the compound is the same as the tag of the pair. When converting from dict to row and the dict has no tag, the functor row is used. For example:

?- Dicts = [_{x:1}, _{x:2, y:3}],
   dicts_to_compounds(Dicts, [x], dict_fill(null), Compounds).
Compounds = [row(1), row(2)].
?- Dicts = [_{x:1}, _{x:2, y:3}],
   dicts_to_compounds(Dicts, [x,y], dict_fill(null), Compounds).
Compounds = [row(1, null), row(2, 3)].
?- Compounds = [point(1,1), point(2,4)],
   dicts_to_compounds(Dicts, [x,y], dict_fill(null), Compounds).
Dicts = [point{x:1, y:1}, point{x:2, y:4}].

When converting from Dicts to Compounds Keys may be computed by dicts_same_keys/2.

  286dicts_to_compounds(Dicts, Keys, OnEmpty, Compounds) :-
  287    maplist(dict_to_compound(Keys, OnEmpty), Dicts, Compounds).
  288
  289dict_to_compound(Keys, OnEmpty, Dict, Row) :-
  290    is_dict(Dict, Tag),
  291    !,
  292    default_tag(Tag, row),
  293    maplist(key_value(Dict, OnEmpty), Keys, Values),
  294    compound_name_arguments(Row, Tag, Values).
  295dict_to_compound(Keys, _, Dict, Row) :-
  296    compound(Row),
  297    compound_name_arguments(Row, Tag, Values),
  298    pairs_keys_values(Pairs, Keys, Values),
  299    dict_pairs(Dict, Tag, Pairs).
  300
  301default_tag(Tag, Tag) :- !.
  302default_tag(_, _).
  303
  304key_value(Dict, OnEmpty, Key, Value) :-
  305    (   get_dict(Key, Dict, Value0)
  306    ->  Value = Value0
  307    ;   call(OnEmpty, Key, Dict, Value)
  308    )