Re-generated configure
[chr.git] / hprolog.pl
blob45f02a0919ba47d0b6abb9b3bfeeeb25df587d3f
1 :- module(hprolog,
2 [ substitute_eq/4, % +OldVal, +OldList, +NewVal, -NewList
3 memberchk_eq/2, % +Val, +List
4 intersect_eq/3, % +List1, +List2, -Intersection
5 list_difference_eq/3, % +List, -Subtract, -Rest
6 take/3, % +N, +List, -FirstElements
7 drop/3, % +N, +List, -LastElements
8 split_at/4, % +N, +List, -FirstElements, -LastElements
9 max_go_list/2, % +List, -Max
10 or_list/2, % +ListOfInts, -BitwiseOr
11 sublist/2, % ?Sublist, +List
12 bounded_sublist/3, % ?Sublist, +List, +Bound
13 chr_delete/3,
14 init_store/2,
15 get_store/2,
16 update_store/2,
17 make_get_store_goal/3,
18 make_update_store_goal/3,
19 make_init_store_goal/3,
21 empty_ds/1,
22 ds_to_list/2,
23 get_ds/3,
24 put_ds/4
25 % lookup_ht1/4
26 ]).
27 :- use_module(library(lists)).
28 :- use_module(library(assoc)).
30 empty_ds(DS) :- empty_assoc(DS).
31 ds_to_list(DS,LIST) :- assoc_to_list(DS,LIST).
32 get_ds(A,B,C) :- get_assoc(A,B,C).
33 put_ds(A,B,C,D) :- put_assoc(A,B,C,D).
36 init_store(Name,Value) :- nb_setval(Name,Value).
38 get_store(Name,Value) :- nb_getval(Name,Value).
40 update_store(Name,Value) :- b_setval(Name,Value).
42 make_init_store_goal(Name,Value,Goal) :- Goal = nb_setval(Name,Value).
44 make_get_store_goal(Name,Value,Goal) :- Goal = nb_getval(Name,Value).
46 make_update_store_goal(Name,Value,Goal) :- Goal = b_setval(Name,Value).
49 /*******************************
50 * MORE LIST OPERATIONS *
51 *******************************/
53 % substitute_eq(+OldVal, +OldList, +NewVal, -NewList)
55 % Substitute OldVal by NewVal in OldList and unify the result
56 % with NewList.
58 substitute_eq(_, [], _, []) :- ! .
59 substitute_eq(X, [U|Us], Y, [V|Vs]) :-
60 ( X == U
61 -> V = Y,
62 substitute_eq(X, Us, Y, Vs)
63 ; V = U,
64 substitute_eq(X, Us, Y, Vs)
67 % memberchk_eq(+Val, +List)
69 % Deterministic check of membership using == rather than
70 % unification.
72 memberchk_eq(X, [Y|Ys]) :-
73 ( X == Y
74 -> true
75 ; memberchk_eq(X, Ys)
78 % :- load_foreign_library(chr_support).
80 % list_difference_eq(+List, -Subtract, -Rest)
82 % Delete all elements of Subtract from List and unify the result
83 % with Rest. Element comparision is done using ==/2.
85 list_difference_eq([],_,[]).
86 list_difference_eq([X|Xs],Ys,L) :-
87 ( memberchk_eq(X,Ys)
88 -> list_difference_eq(Xs,Ys,L)
89 ; L = [X|T],
90 list_difference_eq(Xs,Ys,T)
93 % intersect_eq(+List1, +List2, -Intersection)
95 % Determine the intersection of two lists without unifying values.
97 intersect_eq([], _, []).
98 intersect_eq([X|Xs], Ys, L) :-
99 ( memberchk_eq(X, Ys)
100 -> L = [X|T],
101 intersect_eq(Xs, Ys, T)
102 ; intersect_eq(Xs, Ys, L)
106 % take(+N, +List, -FirstElements)
108 % Take the first N elements from List and unify this with
109 % FirstElements. The definition is based on the GNU-Prolog lists
110 % library. Implementation by Jan Wielemaker.
112 take(0, _, []) :- !.
113 take(N, [H|TA], [H|TB]) :-
114 N > 0,
115 N2 is N - 1,
116 take(N2, TA, TB).
118 % Drop the first N elements from List and unify the remainder with
119 % LastElements.
121 drop(0,LastElements,LastElements) :- !.
122 drop(N,[_|Tail],LastElements) :-
123 N > 0,
124 N1 is N - 1,
125 drop(N1,Tail,LastElements).
127 split_at(0,L,[],L) :- !.
128 split_at(N,[H|T],[H|L1],L2) :-
129 M is N -1,
130 split_at(M,T,L1,L2).
132 % max_go_list(+List, -Max)
134 % Return the maximum of List in the standard order of terms.
136 max_go_list([H|T], Max) :-
137 max_go_list(T, H, Max).
139 max_go_list([], Max, Max).
140 max_go_list([H|T], X, Max) :-
141 ( H @=< X
142 -> max_go_list(T, X, Max)
143 ; max_go_list(T, H, Max)
146 % or_list(+ListOfInts, -BitwiseOr)
148 % Do a bitwise disjuction over all integer members of ListOfInts.
150 or_list(L, Or) :-
151 or_list(L, 0, Or).
153 or_list([], Or, Or).
154 or_list([H|T], Or0, Or) :-
155 Or1 is H \/ Or0,
156 or_list(T, Or1, Or).
159 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
160 sublist(L, L).
161 sublist(Sub, [H|T]) :-
162 '$sublist1'(T, H, Sub).
164 '$sublist1'(Sub, _, Sub).
165 '$sublist1'([H|T], _, Sub) :-
166 '$sublist1'(T, H, Sub).
167 '$sublist1'([H|T], X, [X|Sub]) :-
168 '$sublist1'(T, H, Sub).
170 bounded_sublist(Sublist,_,_) :-
171 Sublist = [].
172 bounded_sublist(Sublist,[H|List],Bound) :-
173 Bound > 0,
175 Sublist = [H|Rest],
176 NBound is Bound - 1,
177 bounded_sublist(Rest,List,NBound)
179 bounded_sublist(Sublist,List,Bound)
183 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
185 chr_delete([], _, []).
186 chr_delete([H|T], X, L) :-
187 ( H==X ->
188 chr_delete(T, X, L)
189 ; L=[H|RT],
190 chr_delete(T, X, RT)