yap-6.3/pl/atoms.yap

 /*************************************************************************
 *									 *
 *	 YAP Prolog 							 *
 *									 *
 *	Yap Prolog was developed at NCCUP - Universidade do Porto	 *
 *									 *
 * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-2014	 *
 *									 *
 *************************************************************************/

%% @{

:- system_module( '$_atoms', [
			      atom_concat/2,
			      string_concat/2,
        atomic_list_concat/2,
        atomic_list_concat/3,
        current_atom/1], []).

:- use_system_module( '$_errors', ['$do_error'/2]).

%% @{

/**
  * @addtogroup Predicates_on_Atoms
  * @ingroup YAPChars
 *
*/

/** @pred  atom_concat(+ _As_,? _A_)


The predicate holds when the first argument is a list of atoms, and the
second unifies with the atom obtained by concatenating all the atoms in
the first list.


*/
atom_concat(Xs,At) :-
	( var(At) ->
	   '$atom_concat'(Xs, At )
        ;
	 '$atom_concat_constraints'(Xs, 0, At, Unbound),
	 '$process_atom_holes'(Unbound)
        ).

% the constraints are of the form hole: HoleAtom, Begin, Atom, End
'$atom_concat_constraints'([At], 0, At, []) :- !.
'$atom_concat_constraints'([At0], mid(Next, At), At, [hole(At0, Next, At, end)]) :-  !.
% just slice first atom
'$atom_concat_constraints'([At0|Xs], 0, At, Unbound) :-
	atom(At0), !,
	sub_atom(At0, 0, _Sz, L, _Ata ),
	sub_atom(At, _, L, 0, Atr ), %remainder
	'$atom_concat_constraints'(Xs, 0, Atr, Unbound).
% first hole: Follow says whether we have two holes in a row, At1 will be our atom
'$atom_concat_constraints'([At0|Xs], 0, At, [hole(At0, 0, At, Next)|Unbound]) :-
	 '$atom_concat_constraints'(Xs, mid(Next,_At1), At, Unbound).
% end of a run
'$atom_concat_constraints'([At0|Xs], mid(end, At1), At, Unbound) :-
	atom(At0), !,
	sub_atom(At, Next, _Sz, L, At0),
	sub_atom(At, 0, Next, Next, At1),
	sub_atom(At, _, L, 0, Atr), %remainder
	'$atom_concat_constraints'(Xs, 0, Atr, Unbound).
'$atom_concat_constraints'([At0|Xs], mid(Next,At1), At, Next, [hole(At0, Next, At, Follow)|Unbound]) :-
	 '$atom_concat_constraints'(Xs, mid(Follow, At1), At, Unbound).

'$process_atom_holes'([]).
'$process_atom_holes'([hole(At0, Next, At1, End)|Unbound]) :- End == end, !,
	sub_atom(At1, Next, _, 0, At0),
	 '$process_atom_holes'(Unbound).
'$process_atom_holes'([hole(At0, Next, At1, Follow)|Unbound]) :-
	sub_atom(At1, Next, Sz, _Left, At0),
	Follow is Next+Sz,
	 '$process_atom_holes'(Unbound).


/** @pred  atomic_list_concat(+ _As_,? _A_)


The predicate holds when the first argument is a list of atomic terms, and
the second unifies with the atom obtained by concatenating all the
atomic terms in the first list. The first argument thus may contain
atoms or numbers.


*/
atomic_list_concat(L,At) :-
	atomic_concat(L, At).

/** @pred  atomic_list_concat(? _As_,+ _Separator_,? _A_)

Creates an atom just like atomic_list_concat/2, but inserts
 _Separator_ between each pair of atoms. For example:

~~~~~{.prolog}
?- atomic_list_concat([gnu, gnat], `, `, A).

A = `gnu, gnat`
~~~~~

YAP emulates the SWI-Prolog version of this predicate that can also be
used to split atoms by instantiating  _Separator_ and  _Atom_ as
shown below.

~~~~~{.prolog}
?- atomic_list_concat(L, -, 'gnu-gnat').

L = [gnu, gnat]
~~~~~


*/
atomic_list_concat(L, El, At) :-
	var(El), !,
	'$do_error'(instantiation_error,atomic_list_concat(L,El,At)).
atomic_list_concat(L, El, At) :-
	ground(L), !,
	'$add_els'(L,El,LEl),
	atomic_concat(LEl, At).
atomic_list_concat(L, El, At) :-
	nonvar(At), !,
	'$atomic_list_concat_all'( At, El, L).

'$atomic_list_concat_all'( At, El, [A|L]) :-
	sub_atom(At, Pos, 1, Left, El), !,
        sub_atom(At, 0, Pos, _, A),
        sub_atom(At, _, Left, 0, At1),
	'$atomic_list_concat_all'( At1, El, L).
'$atomic_list_concat_all'( At, _El, [At]).

'$add_els'([A,B|L],El,[A,El|NL]) :- !,
	'$add_els'([B|L],El,NL).
'$add_els'(L,_,L).


%
% small compatibility hack

'$singletons_in_term'(T,VL) :-
	'$variables_in_term'(T,[],V10),
	'$sort'(V10, V1),
	'$non_singletons_in_term'(T,[],V20),
	'$sort'(V20, V2),
	'$subtract_lists_of_variables'(V2,V1,VL).

'$subtract_lists_of_variables'([],VL,VL).
'$subtract_lists_of_variables'([_|_],[],[]) :- !.
'$subtract_lists_of_variables'([V1|VL1],[V2|VL2],VL) :-
	V1 == V2, !,
	'$subtract_lists_of_variables'(VL1,VL2,VL).
'$subtract_lists_of_variables'([V1|VL1],[V2|VL2],[V2|VL]) :-
	'$subtract_lists_of_variables'([V1|VL1],VL2,VL).

/** @pred  current_atom( _A_)


Checks whether  _A_ is a currently defined atom. It is used to find all
currently defined atoms by backtracking.


*/
current_atom(A) :-				% check
	atom(A), !.
current_atom(A) :-				% generate
	'$current_atom'(A).

string_concat(Xs,At) :-
	( var(At) ->
	   '$string_concat'(Xs, At )
        ;
	 '$string_concat_constraints'(Xs, 0, At, Unbound),
	 '$process_string_holes'(Unbound)
        ).

% the constraints are of the form hole: HoleString, Begin, String, End
'$string_concat_constraints'([At], 0, At, []) :- !.
'$string_concat_constraints'([At0], mid(Next, At), At, [hole(At0, Next, At, end)]) :-  !.
% just slice first string
'$string_concat_constraints'([At0|Xs], 0, At, Unbound) :-
	string(At0), !,
	sub_string(At, 0, _Sz, L, At0 ),
	sub_string(At, _, L, 0, Atr ), %remainder
	'$string_concat_constraints'(Xs, 0, Atr, Unbound).
% first hole: Follow says whether we have two holes in a row, At1 will be our string
'$string_concat_constraints'([At0|Xs], 0, At, [hole(At0, 0, At, Next)|Unbound]) :-
	 '$string_concat_constraints'(Xs, mid(Next,_At1), At, Unbound).
% end of a run
'$string_concat_constraints'([At0|Xs], mid(end, At1), At, Unbound) :-
	string(At0), !,
	sub_string(At, Next, _Sz, L, At0),
	sub_string(At, 0, Next, Next, At1),
	sub_string(At, _, L, 0, Atr), %remainder
	'$string_concat_constraints'(Xs, 0, Atr, Unbound).
'$string_concat_constraints'([At0|Xs], mid(Next,At1), At, Next, [hole(At0, Next, At, Follow)|Unbound]) :-
	 '$string_concat_constraints'(Xs, mid(Follow, At1), At, Unbound).

'$process_string_holes'([]).
'$process_string_holes'([hole(At0, Next, At1, End)|Unbound]) :- End == end, !,
	sub_string(At1, Next, _, 0, At0),
	 '$process_string_holes'(Unbound).
'$process_string_holes'([hole(At0, Next, At1, Follow)|Unbound]) :-
	sub_string(At1, Next, Sz, _Left, At0),
	Follow is Next+Sz,
	 '$process_string_holes'(Unbound).

/**
@}
*/
check for mistypes 2014-04-06 17:05:17 +01:00			`/*************************************************************************`
			`* *`
			`* YAP Prolog *`
			`* *`
			`* Yap Prolog was developed at NCCUP - Universidade do Porto *`
			`* *`
			`* Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-2014 *`
			`* *`
			`*************************************************************************/`

doc support 2015-01-04 23:58:23 +00:00			`%% @{`

fix string_concat/2 2014-04-09 12:39:29 +01:00			`:- system_module( '$_atoms', [`
			`atom_concat/2,`
			`string_concat/2,`
			`atomic_list_concat/2,`
			`atomic_list_concat/3,`
			`current_atom/1], []).`

			`:- use_system_module( '$_errors', ['$do_error'/2]).`

doc support 2015-01-04 23:58:23 +00:00			`%% @{`

check for mistypes 2014-04-06 17:05:17 +01:00			`/**`
doc support 2015-01-04 23:58:23 +00:00			`* @addtogroup Predicates_on_Atoms`
			`* @ingroup YAPChars`
check for mistypes 2014-04-06 17:05:17 +01:00			`*`
change bootstrap sequence to support -B and to allow booting from pl files 2016-05-10 08:33:44 +01:00			`*/`
check for mistypes 2014-04-06 17:05:17 +01:00
change bootstrap sequence to support -B and to allow booting from pl files 2016-05-10 08:33:44 +01:00			`/** @pred atom_concat(+ _As_,? _A_)`
update docs 2014-09-11 20:06:57 +01:00

			`The predicate holds when the first argument is a list of atoms, and the`
			`second unifies with the atom obtained by concatenating all the atoms in`
			`the first list.`

change bootstrap sequence to support -B and to allow booting from pl files 2016-05-10 08:33:44 +01:00
update docs 2014-09-11 20:06:57 +01:00			`*/`
check for mistypes 2014-04-06 17:05:17 +01:00			`atom_concat(Xs,At) :-`
			`( var(At) ->`
			`'$atom_concat'(Xs, At )`
			`;`
			`'$atom_concat_constraints'(Xs, 0, At, Unbound),`
			`'$process_atom_holes'(Unbound)`
			`).`

			`% the constraints are of the form hole: HoleAtom, Begin, Atom, End`
			`'$atom_concat_constraints'([At], 0, At, []) :- !.`
			`'$atom_concat_constraints'([At0], mid(Next, At), At, [hole(At0, Next, At, end)]) :- !.`
			`% just slice first atom`
			`'$atom_concat_constraints'([At0\|Xs], 0, At, Unbound) :-`
			`atom(At0), !,`
vars 2016-01-31 10:47:00 +00:00			`sub_atom(At0, 0, _Sz, L, _Ata ),`
check for mistypes 2014-04-06 17:05:17 +01:00			`sub_atom(At, _, L, 0, Atr ), %remainder`
			`'$atom_concat_constraints'(Xs, 0, Atr, Unbound).`
			`% first hole: Follow says whether we have two holes in a row, At1 will be our atom`
			`'$atom_concat_constraints'([At0\|Xs], 0, At, [hole(At0, 0, At, Next)\|Unbound]) :-`
big cleanup: cpmpile under style checker. fix broken module stuff. 2014-10-07 01:35:41 +01:00			`'$atom_concat_constraints'(Xs, mid(Next,_At1), At, Unbound).`
check for mistypes 2014-04-06 17:05:17 +01:00			`% end of a run`
			`'$atom_concat_constraints'([At0\|Xs], mid(end, At1), At, Unbound) :-`
			`atom(At0), !,`
big cleanup: cpmpile under style checker. fix broken module stuff. 2014-10-07 01:35:41 +01:00			`sub_atom(At, Next, _Sz, L, At0),`
check for mistypes 2014-04-06 17:05:17 +01:00			`sub_atom(At, 0, Next, Next, At1),`
			`sub_atom(At, _, L, 0, Atr), %remainder`
			`'$atom_concat_constraints'(Xs, 0, Atr, Unbound).`
			`'$atom_concat_constraints'([At0\|Xs], mid(Next,At1), At, Next, [hole(At0, Next, At, Follow)\|Unbound]) :-`
big cleanup: cpmpile under style checker. fix broken module stuff. 2014-10-07 01:35:41 +01:00			`'$atom_concat_constraints'(Xs, mid(Follow, At1), At, Unbound).`
check for mistypes 2014-04-06 17:05:17 +01:00
			`'$process_atom_holes'([]).`
			`'$process_atom_holes'([hole(At0, Next, At1, End)\|Unbound]) :- End == end, !,`
			`sub_atom(At1, Next, _, 0, At0),`
			`'$process_atom_holes'(Unbound).`
			`'$process_atom_holes'([hole(At0, Next, At1, Follow)\|Unbound]) :-`
			`sub_atom(At1, Next, Sz, _Left, At0),`
			`Follow is Next+Sz,`
			`'$process_atom_holes'(Unbound).`

change bootstrap sequence to support -B and to allow booting from pl files 2016-05-10 08:33:44 +01:00
			`/** @pred atomic_list_concat(+ _As_,? _A_)`
update docs 2014-09-11 20:06:57 +01:00

			`The predicate holds when the first argument is a list of atomic terms, and`
			`the second unifies with the atom obtained by concatenating all the`
			`atomic terms in the first list. The first argument thus may contain`
			`atoms or numbers.`

change bootstrap sequence to support -B and to allow booting from pl files 2016-05-10 08:33:44 +01:00
update docs 2014-09-11 20:06:57 +01:00			`*/`
check for mistypes 2014-04-06 17:05:17 +01:00			`atomic_list_concat(L,At) :-`
			`atomic_concat(L, At).`
change bootstrap sequence to support -B and to allow booting from pl files 2016-05-10 08:33:44 +01:00
update docs 2014-09-11 20:06:57 +01:00			`/** @pred atomic_list_concat(? _As_,+ _Separator_,? _A_)`

			`Creates an atom just like atomic_list_concat/2, but inserts`
			`_Separator_ between each pair of atoms. For example:`

			`~~~~~{.prolog}`
			?- atomic_list_concat([gnu, gnat], `, `, A).

			A = `gnu, gnat`
			`~~~~~`

			`YAP emulates the SWI-Prolog version of this predicate that can also be`
			`used to split atoms by instantiating _Separator_ and _Atom_ as`
			`shown below.`

			`~~~~~{.prolog}`
			`?- atomic_list_concat(L, -, 'gnu-gnat').`

			`L = [gnu, gnat]`
			`~~~~~`

change bootstrap sequence to support -B and to allow booting from pl files 2016-05-10 08:33:44 +01:00
update docs 2014-09-11 20:06:57 +01:00			`*/`
check for mistypes 2014-04-06 17:05:17 +01:00			`atomic_list_concat(L, El, At) :-`
			`var(El), !,`
fix atomic_list_concat/3 in splt mode 2015-04-21 23:07:16 +01:00			`'$do_error'(instantiation_error,atomic_list_concat(L,El,At)).`
check for mistypes 2014-04-06 17:05:17 +01:00			`atomic_list_concat(L, El, At) :-`
fix atomic_list_concat/3 in splt mode 2015-04-21 23:07:16 +01:00			`ground(L), !,`
check for mistypes 2014-04-06 17:05:17 +01:00			`'$add_els'(L,El,LEl),`
			`atomic_concat(LEl, At).`
			`atomic_list_concat(L, El, At) :-`
			`nonvar(At), !,`
fix atomic_list_concat/3 in splt mode 2015-04-21 23:07:16 +01:00			`'$atomic_list_concat_all'( At, El, L).`

			`'$atomic_list_concat_all'( At, El, [A\|L]) :-`
			`sub_atom(At, Pos, 1, Left, El), !,`
			`sub_atom(At, 0, Pos, _, A),`
			`sub_atom(At, _, Left, 0, At1),`
			`'$atomic_list_concat_all'( At1, El, L).`
			`'$atomic_list_concat_all'( At, _El, [At]).`
check for mistypes 2014-04-06 17:05:17 +01:00
			`'$add_els'([A,B\|L],El,[A,El\|NL]) :- !,`
			`'$add_els'([B\|L],El,NL).`
			`'$add_els'(L,_,L).`
change bootstrap sequence to support -B and to allow booting from pl files 2016-05-10 08:33:44 +01:00
check for mistypes 2014-04-06 17:05:17 +01:00
			`%`
			`% small compatibility hack`

			`'$singletons_in_term'(T,VL) :-`
			`'$variables_in_term'(T,[],V10),`
			`'$sort'(V10, V1),`
			`'$non_singletons_in_term'(T,[],V20),`
change bootstrap sequence to support -B and to allow booting from pl files 2016-05-10 08:33:44 +01:00			`'$sort'(V20, V2),`
check for mistypes 2014-04-06 17:05:17 +01:00			`'$subtract_lists_of_variables'(V2,V1,VL).`

			`'$subtract_lists_of_variables'([],VL,VL).`
			`'$subtract_lists_of_variables'([_\|_],[],[]) :- !.`
			`'$subtract_lists_of_variables'([V1\|VL1],[V2\|VL2],VL) :-`
			`V1 == V2, !,`
			`'$subtract_lists_of_variables'(VL1,VL2,VL).`
			`'$subtract_lists_of_variables'([V1\|VL1],[V2\|VL2],[V2\|VL]) :-`
			`'$subtract_lists_of_variables'([V1\|VL1],VL2,VL).`

change bootstrap sequence to support -B and to allow booting from pl files 2016-05-10 08:33:44 +01:00			`/** @pred current_atom( _A_)`
update docs 2014-09-11 20:06:57 +01:00

			`Checks whether _A_ is a currently defined atom. It is used to find all`
			`currently defined atoms by backtracking.`

change bootstrap sequence to support -B and to allow booting from pl files 2016-05-10 08:33:44 +01:00
update docs 2014-09-11 20:06:57 +01:00			`*/`
check for mistypes 2014-04-06 17:05:17 +01:00			`current_atom(A) :- % check`
			`atom(A), !.`
			`current_atom(A) :- % generate`
			`'$current_atom'(A).`

fix string_concat/2 2014-04-09 12:39:29 +01:00			`string_concat(Xs,At) :-`
			`( var(At) ->`
			`'$string_concat'(Xs, At )`
			`;`
			`'$string_concat_constraints'(Xs, 0, At, Unbound),`
			`'$process_string_holes'(Unbound)`
			`).`

			`% the constraints are of the form hole: HoleString, Begin, String, End`
			`'$string_concat_constraints'([At], 0, At, []) :- !.`
			`'$string_concat_constraints'([At0], mid(Next, At), At, [hole(At0, Next, At, end)]) :- !.`
			`% just slice first string`
			`'$string_concat_constraints'([At0\|Xs], 0, At, Unbound) :-`
			`string(At0), !,`
big cleanup: cpmpile under style checker. fix broken module stuff. 2014-10-07 01:35:41 +01:00			`sub_string(At, 0, _Sz, L, At0 ),`
fix string_concat/2 2014-04-09 12:39:29 +01:00			`sub_string(At, _, L, 0, Atr ), %remainder`
			`'$string_concat_constraints'(Xs, 0, Atr, Unbound).`
			`% first hole: Follow says whether we have two holes in a row, At1 will be our string`
			`'$string_concat_constraints'([At0\|Xs], 0, At, [hole(At0, 0, At, Next)\|Unbound]) :-`
big cleanup: cpmpile under style checker. fix broken module stuff. 2014-10-07 01:35:41 +01:00			`'$string_concat_constraints'(Xs, mid(Next,_At1), At, Unbound).`
fix string_concat/2 2014-04-09 12:39:29 +01:00			`% end of a run`
			`'$string_concat_constraints'([At0\|Xs], mid(end, At1), At, Unbound) :-`
			`string(At0), !,`
big cleanup: cpmpile under style checker. fix broken module stuff. 2014-10-07 01:35:41 +01:00			`sub_string(At, Next, _Sz, L, At0),`
fix string_concat/2 2014-04-09 12:39:29 +01:00			`sub_string(At, 0, Next, Next, At1),`
			`sub_string(At, _, L, 0, Atr), %remainder`
			`'$string_concat_constraints'(Xs, 0, Atr, Unbound).`
			`'$string_concat_constraints'([At0\|Xs], mid(Next,At1), At, Next, [hole(At0, Next, At, Follow)\|Unbound]) :-`
big cleanup: cpmpile under style checker. fix broken module stuff. 2014-10-07 01:35:41 +01:00			`'$string_concat_constraints'(Xs, mid(Follow, At1), At, Unbound).`
fix string_concat/2 2014-04-09 12:39:29 +01:00
			`'$process_string_holes'([]).`
			`'$process_string_holes'([hole(At0, Next, At1, End)\|Unbound]) :- End == end, !,`
			`sub_string(At1, Next, _, 0, At0),`
			`'$process_string_holes'(Unbound).`
			`'$process_string_holes'([hole(At0, Next, At1, Follow)\|Unbound]) :-`
			`sub_string(At1, Next, Sz, _Left, At0),`
			`Follow is Next+Sz,`
			`'$process_string_holes'(Unbound).`

update docs 2014-09-11 20:06:57 +01:00			`/**`
			`@}`
			`*/`