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/*  This file is part of ClioPatria.

    Author:	Jan Wielemaker <J.Wielemaker@cs.vu.nl>
    HTTP:	http://e-culture.multimedian.nl/
    Copyright:  2007, E-Culture/MultimediaN

    ClioPatria is free software: you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation, either version 2 of the License, or
    (at your option) any later version.

    ClioPatria is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with ClioPatria.  If not, see <http://www.gnu.org/licenses/>.
*/

:- module(xpath,
	  [ xpath/3,			% +DOM, +Spec, -Value
	    xpath_chk/3,		% +DOM, +Spec, -Value

	    op(400, fx, //),
	    op(400, fx, /),
	    op(200, fy, @)
	  ]).
:- use_module(library(record)).
:- use_module(library(lists)).
:- use_module(library(occurs)).
:- use_module(library(debug)).

/** <module> Select nodes in an XML DOM

The library xpath.pl provides predicates to select nodes from an XML DOM
tree as produced by library(sgml) based  on descriptions inspired by the
XPATH language.

The   predicate   xpath/3   selects   a   sub-structure   of   the   DOM
non-deterministically based on an  xpath-like   specification.  Not  all
selectors of XPATH are implemented, but the ability to mix xpath/3 calls
with arbitrary Prolog code  provides  a   powerful  tool  for extracting
information from XML parse-trees.

@see http://www.w3.org/TR/xpath
*/

:- record
	element(name, attributes, content).

%%	xpath_chk(+DOM, +Spec, ?Content) is semidet.
%
%	Semi-deterministic version of xpath/3.

xpath_chk(DOM, Spec, Content) :-
	xpath(DOM, Spec, Content), !.

%%	xpath(+DOM, +Spec, ?Content) is nondet.
%
%	Match an element in a DOM structure.   The syntax is inspired by
%	XPath, using () rather than  []   to  select  inside an element.
%	First we can construct paths using / and //:
%
%	    $ =|//|=Term :
%	    Select any node in the DOM matching term.
%	    $ =|/|=Term :
%	    Match the root against Term.
%	    $ Term :
%	    Select the immediate children of the root matching Term.
%
%	The Terms above are of type   _callable_.  The functor specifies
%	the element name. The element name   '*'  refers to any element.
%	The name =self= refers to the   top-element  itself and is often
%	used for processing matches of an  earlier xpath/3 query. A term
%	NS:Term refers to an XML  name   in  the  namespace NS. Optional
%	arguments specify additional  constraints   and  functions.  The
%	arguments are processed from left  to right. Defined conditional
%	argument values are:
%
%	    $ Integer :
%	    The N-th element with the given name
%	    $ =last= :
%	    The last element with the given name.
%	    $ =last= - IntExpr :
%	    The IntExpr-th element counting from the last (0-based)
%
%	Defined function argument values are:
%
%	    $ =self= :
%	    Evaluate to the entire element
%	    $ =text= :
%	    Evaluates to all text from the sub-tree as an atom
%	    $ =normalize_space= :
%	    As =text=, but uses normalize_space/2 to normalise
%	    white-space in the output
%	    $ =number= :
%	    Extract an integer or float from the value.  Ignores
%	    leading and trailing white-space
%	    $ =|@|=Attribute :
%	    Evaluates to the value of the given attribute
%
%	In addition, the argument-list can be _conditions_:
%
%	    $ Left = Right :
%	    Succeeds if the left-hand unifies with the right-hand.
%	    E.g. normalize_space = 'euro'
%	    $ contains(Haystack, Needle) :
%	    Succeeds if Needle is a sub-string of Haystack.
%
%	Examples:
%
%	Match each table-row in DOM:
%
%	    ==
%	    xpath(DOM, //tr, TR)
%	    ==
%
%	Match the last cell  of  each   tablerow  in  DOM.  This example
%	illustrates that a result can be the input of subsequent xpath/3
%	queries. Using multiple queries  on   the  intermediate  TR term
%	guarantee that all results come from the same table-row:
%
%	    ==
%	    xpath(DOM, //tr, TR),
%	    xpath(TR,  /td(last), TD)
%	    ==
%
%	Match each =href= attribute in an <a> element
%
%	    ==
%	    xpath(DOM, //a(@href), HREF)
%	    ==
%
%	Suppose we have a table containing  rows where each first column
%	is the name of a product with a   link to details and the second
%	is the price (a number).  The   following  predicate matches the
%	name, URL and price:
%
%	    ==
%	    product(DOM, Name, URL, Price) :-
%	    	xpath(DOM, //tr, TR),
%	    	xpath(TR, td(1), C1),
%	    	xpath(C1, /self(normalize_space), Name),
%	    	xpath(C1, a(@href), URL),
%	    	xpath(TR, td(2, number), Price).
%	    ==

xpath(DOM, Spec, Content) :-
	in_dom(Spec, DOM, Content).

in_dom(//Spec, DOM, Value) :- !,
	element_spec(Spec, Name, Modifiers),
	sub_dom(I, Len, Name, E, DOM),
	modifiers(Modifiers, I, Len, E, Value).
in_dom(/Spec, E, Value) :- !,
	element_spec(Spec, Name, Modifiers),
	(   Name == self
	->  true
	;   element_name(E, Name)
	),
	modifiers(Modifiers, 1, 1, E, Value).
in_dom(A/B, DOM, Value) :- !,
	in_dom(A, DOM, Value0),
	in_dom(B, Value0, Value).
in_dom(A//B, DOM, Value) :- !,
	in_dom(A, DOM, Value0),
	in_dom(//B, Value0, Value).
in_dom(Spec, element(_, _, Content), Value) :-
	element_spec(Spec, Name, Modifiers),
	count_named_elements(Content, Name, CLen),
	CLen > 0,
	nth_element(N, Name, E, Content),
	modifiers(Modifiers, N, CLen, E, Value).

element_spec(Var, _, _) :-
	var(Var), !,
	instantiation_error(Var).
element_spec(NS:Term, NS:Name, Modifiers) :- !,
	Term =.. [Name0|Modifiers],
	star(Name0, Name).
element_spec(Term, Name, Modifiers) :- !,
	Term =.. [Name0|Modifiers],
	star(Name0, Name).

star(*, _) :- !.
star(Name, Name).


%%	sub_dom(-Index, -Count, +Name, -Sub, +DOM) is nondet.
%
%	Sub is a node in DOM with Name.
%
%	@param Count	is the total number of nodes in the content
%			list Sub appears that have the same name.
%	@param Index	is the 1-based index of Sub of nodes with
%			Name.

sub_dom(1, 1, Name, DOM, DOM) :-
	element_name(DOM, Name).
sub_dom(N, Len, Name, E, element(_,_,Content)) :- !,
	sub_dom_2(N, Len, Name, E, Content).
sub_dom(N, Len, Name, E, Content) :-
	is_list(Content),
	sub_dom_2(N, Len, Name, E, Content).

sub_dom_2(N, Len, Name, Element, Content) :-
	(   count_named_elements(Content, Name, Len),
	    nth_element(N, Name, Element, Content)
	;   member(element(_,_,C2), Content),
	    sub_dom_2(N, Len, Name, Element, C2)
	).


%%	count_named_elements(+Content, +Name, -Count) is det.
%
%	Count is the number of nodes with Name in Content.

count_named_elements(Content, Name, Count) :-
	count_named_elements(Content, Name, 0, Count).

count_named_elements([], _, Count, Count).
count_named_elements([element(Name,_,_)|T], Name, C0, C) :- !,
	C1 is C0+1,
	count_named_elements(T, Name, C1, C).
count_named_elements([_|T], Name, C0, C) :-
	count_named_elements(T, Name, C0, C).


%%	nth_element(?N, +Name, -Element, +Content:list) is nondet.
%
%	True if Element is the N-th element with name in Content.

nth_element(N, Name, Element, Content) :-
	nth_element_(1, N, Name, Element, Content).

nth_element_(I, N, Name, E, [H|T]) :-
	element_name(H, Name), !,
	(   N = I,
	    E = H
	;   I2 is I + 1,
	    (	nonvar(N), I2 > N
	    ->	!, fail
	    ;	true
	    ),
	    nth_element_(I2, N, Name, E, T)
	).
nth_element_(I, N, Name, E, [_|T]) :-
	nth_element_(I, N, Name, E, T).


%%	modifiers(+Modifiers, +I, +Clen, +DOM, -Value)
%
%

modifiers([], _, _, Value, Value).
modifiers([H|T], I, L, Value0, Value) :-
	modifier(H, I, L, Value0, Value1),
	modifiers(T, I, L, Value1, Value).

modifier(N, I, _, Value, Value) :-				% Integer
	integer(N), !,
	N =:= I.
modifier(last, I, L, Value, Value) :- !,			% last
	I =:= L.
modifier(last-Expr, I, L, Value, Value) :- !,			% last-Expr
	I =:= L-Expr.
modifier(Function, _, _, In, Out) :-
	xpath_function(Function, In, Out).

xpath_function(self, DOM, Value) :- !,				% self
	Value = DOM.
xpath_function(text, DOM, Text) :- !,				% text
	text_of_dom(DOM, Text).
xpath_function(normalize_space, DOM, Text) :- !,		% normalize_space
	text_of_dom(DOM, Text0),
	normalize_space(atom(Text), Text0).
xpath_function(number, DOM, Number) :- !,			% number
	text_of_dom(DOM, Text0),
	normalize_space(string(Text), Text0),
	catch(atom_number(Text, Number), _, fail).
xpath_function(@Name, element(_, Attrs, _), Value) :- !,	% @Name
	memberchk(Name=Value, Attrs).
xpath_function(Left = Right, Value, Value) :- !,		% =
	var_or_function(Left, Value, LeftValue),
	var_or_function(Right, Value, RightValue),
	LeftValue = RightValue.
xpath_function(contains(Haystack, Needle), Value, Value) :- !,	% contains(Haystack, Needle)
	val_or_function(Haystack, Value, HaystackValue),
	val_or_function(Needle, Value, NeedleValue),
	atom(HaystackValue), atom(NeedleValue),
	(   sub_atom(HaystackValue, _, _, _, NeedleValue)
	->  true
	).

var_or_function(Arg, _, Arg) :-
	var(Arg), !.
var_or_function(Func, Value0, Value) :-
	xpath_function(Func, Value0, Value).

val_or_function(Arg, _, Arg) :-
	var(Arg), !,
	instantiation_error(Arg).
val_or_function(Func, Value0, Value) :-				% TBD
	xpath_function(Func, Value0, Value).


%%	text_of_dom(+DOM, -Text:atom) is det.
%
%	Text is the joined textual content of DOM.

text_of_dom(DOM, Text) :-
	phrase(text_of(DOM), Tokens),
	concat_atom(Tokens, Text).

text_of(element(_,_,Content)) -->
	text_of_list(Content).
text_of([]) -->
	[].
text_of([H|T]) -->
	text_of(H),
	text_of(T).


text_of_list([]) -->
	[].
text_of_list([H|T]) -->
	text_of_1(H),
	text_of_list(T).


text_of_1(element(_,_,Content)) --> !,
	text_of_list(Content).
text_of_1(Data) -->
	{ assertion(atom(Data)) },
	[Data].