218 lines
7.4 KiB
Prolog
218 lines
7.4 KiB
Prolog
/*************************************************************************
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* *
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* YAP Prolog *
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* *
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* Yap Prolog was developed at NCCUP - Universidade do Porto *
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* *
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* Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 *
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* *
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**************************************************************************
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* *
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* File: regexp.yap *
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* Last rev: 3/22/2000 *
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* mods: *
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* comments: Support for Regular Expressions in YAP *
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* *
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*************************************************************************/
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/**
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* @file regexp.yap
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* @author VITOR SANTOS COSTA <vsc@VITORs-MBP.lan>
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* @date Wed Nov 18 00:27:52 2015
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*
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* @brief Support for Regular Expressions in YAP
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*
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*
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*/
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:- module(regexp, [
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regexp/3,
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regexp/4
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]).
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/** @defgroup regexp Regular Expressions
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@ingroup library
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@{
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This library includes routines to determine whether a regular expression
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matches part or all of a string. The routines can also return which
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parts parts of the string matched the expression or subexpressions of
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it. This library relies on Henry Spencer's `C`-package and is only
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available in operating systems that support dynamic loading. The
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`C`-code has been obtained from the sources of FreeBSD-4.0 and is
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protected by copyright from Henry Spencer and from the Regents of the
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University of California (see the file library/regex/COPYRIGHT for
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further details).
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Much of the description of regular expressions below is copied verbatim
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from Henry Spencer's manual page.
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A regular expression is zero or more branches, separated by ``|`. It
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matches anything that matches one of the branches.
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A branch is zero or more pieces, concatenated. It matches a match for
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the first, followed by a match for the second, etc.
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A piece is an atom possibly followed by `\*`, `+`, or `?`. An atom
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followed by `\*` matches a sequence of 0 or more matches of the atom.
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An atom followed by `+` matches a sequence of 1 or more matches of the
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atom. An atom followed by `?` matches a match of the atom, or the
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null string.
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An atom is a regular expression in parentheses (matching a match for the
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regular expression), a range (see below), `.` (matching any single
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character), `^` (matching the null string at the beginning of the
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input string), `$` (matching the null string at the end of the input
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string), a `\` followed by a single character (matching that
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character), or a single character with no other significance (matching
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that character).
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A range is a sequence of characters enclosed in `[]`. It normally
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matches any single character from the sequence. If the sequence begins
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with `^`, it matches any single character not from the rest of the
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sequence. If two characters in the sequence are separated by `-`,
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this is shorthand for the full list of ASCII characters between them
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(e.g. `[0-9]` matches any decimal digit). To include a literal `]`
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in the sequence, make it the first character (following a possible
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`^`). To include a literal `-`, make it the first or last
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character.
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@pred regexp(+ _RegExp_,+ _String_,+ _Opts_)
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Match regular expression _RegExp_ to input string _String_
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according to options _Opts_. The options may be:
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+ `nocase`: Causes upper-case characters in _String_ to
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be treated as lower case during the matching process.
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*/
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/** @pred regexp(+ _RegExp_,+ _String_,+ _Opts_,? _SubMatchVars_)
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Match regular expression _RegExp_ to input string _String_
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according to options _Opts_. The variable _SubMatchVars_ should
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be originally unbound or a list of unbound variables all will contain a
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sequence of matches, that is, the head of _SubMatchVars_ will
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contain the characters in _String_ that matched the leftmost
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parenthesized subexpression within _RegExp_, the next head of list
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will contain the characters that matched the next parenthesized
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subexpression to the right in _RegExp_, and so on.
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The options may be:
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+ `nocase`: Causes upper-case characters in _String_ to
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be treated as lower case during the matching process.
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+ `indices`: Changes what is stored in
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_SubMatchVars_. Instead of storing the matching characters from
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_String_, each variable will contain a term of the form _IO-IF_
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giving the indices in _String_ of the first and last characters in
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the matching range of characters.
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In general there may be more than one way to match a regular expression
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to an input string. For example, consider the command
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~~~~~
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regexp("(a*)b*","aabaaabb", [], [X,Y])
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~~~~~
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Considering only the rules given so far, _X_ and _Y_ could end up
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with the values `"aabb"` and `"aa"`, `"aaab"` and
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`"aaa"`, `"ab"` and `"a"`, or any of several other
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combinations. To resolve this potential ambiguity `regexp` chooses among
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alternatives using the rule `first then longest`. In other words, it
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considers the possible matches in order working from left to right
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across the input string and the pattern, and it attempts to match longer
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pieces of the input string before shorter ones. More specifically, the
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following rules apply in decreasing order of priority:
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+ If a regular expression could match two different parts of an
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input string then it will match the one that begins earliest.
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+ If a regular expression contains "|" operators then the leftmost matching sub-expression is chosen.
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+ In \*, +, and ? constructs, longer matches are chosen in preference to shorter ones.
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+ In sequences of expression components the components are considered from left to right.
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In the example above, `"(a\*)b\*"` matches `"aab"`: the
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`"(a\*)"` portion of the pattern is matched first and it consumes
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the leading `"aa"`; then the `"b\*"` portion of the pattern
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consumes the next `"b"`. Or, consider the following example:
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~~~~~
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regexp("(ab|a)(b*)c", "abc", [], [X,Y,Z])
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~~~~~
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After this command _X_ will be `"abc"`, _Y_ will be
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`"ab"`, and _Z_ will be an empty string. Rule 4 specifies that
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`"(ab|a)"` gets first shot at the input string and Rule 2 specifies
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that the `"ab"` sub-expression is checked before the `"a"`
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sub-expression. Thus the `"b"` has already been claimed before the
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`"(b\*)"` component is checked and `(b\*)` must match an empty string.
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*/
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:- load_foreign_files([regexp], [], init_regexp).
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regexp(RegExp, String, Opts) :-
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length(RegExp, LRE),
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length(String, LS),
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check_opts(Opts,0,IOpts,regexp(RegExp, String, Opts)),
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check_regexp(RegExp,LRE,String,LS,IOpts).
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regexp(RegExp, String, Opts, OUT) :-
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length(RegExp, LRE),
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length(String, LS),
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check_out(OUT,0,Count,regexp(RegExp, String, Opts, OUT)),
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check_opts(Opts,0,IOpts,regexp(RegExp, String, Opts, OUT)),
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check_regexp(RegExp,LRE,String,LS,IOpts,OUT,Count).
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%
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% OUT must be bound to a list of unbound variables.
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% Check this and count how many.
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%
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check_out(V,_,_,_) :- var(V), !.
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check_out([],I,I,_) :- !.
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check_out([V|L],I0,IF,G) :- !,
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(nonvar(V) -> throw(error(uninstantiation_error(V),G)) ; true),
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I is I0+1,
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check_out(L,I,IF,G).
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check_out(OUT,_,_,G) :-
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throw(error(uninstantiation_error(OUT),G)).
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%
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% Option processing
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%
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check_opts(V,_,_,G) :- var(V), !,
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throw(error(instantiation_error,G)).
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check_opts([],I,I,_) :- !.
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check_opts([A|L],I0,IF,G) :- !,
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process_opt(A,I1,G),
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I is I0+I1,
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check_opts(L,I,IF,G).
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check_opts(Opts,_,_,G) :-
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throw(error(type_error(variable,Opts),G)).
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process_opt(V,_,G) :- var(V), !,
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throw(error(instantiation_error,G)).
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process_opt(nocase,1,_) :- !.
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process_opt(indices,2,_) :- !.
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process_opt(I,_,G) :-
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throw(error(domain_error(flag_value,regexp_options+I),G)).
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/** @} */
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