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/*
* Copyright (C) 2005 Universitat d'Alacant / Universidad de Alicante
*
* This program 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.
*
* This program 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 this program; if not, see <http://www.gnu.org/licenses/>.
*/
#ifndef _STATE_
#define _STATE_
#include <map>
#include <set>
#include <string>
#include <vector>
#include <queue>
#include <climits>
#include <lttoolbox/alphabet.h>
#include <lttoolbox/node.h>
#include <lttoolbox/match_exe.h>
#include <lttoolbox/match_state.h>
#include <lttoolbox/transducer.h>
using namespace std;
/**
* Class to represent the current state of transducer processing
*/
class State
{
private:
/**
* The current state of transducer processing
*/
struct TNodeState
{
Node *where;
vector<pair<int, double>> *sequence;
// a state is "dirty" if it was introduced at runtime (case variants, etc.)
bool dirty;
TNodeState(Node * const &w, vector<pair<int, double>> * const &s, bool const &d): where(w), sequence(s), dirty(d){}
TNodeState & operator=(TNodeState const &other)
{
where = other.where;
sequence = other.sequence;
dirty = other.dirty;
return *this;
}
};
vector<TNodeState> state;
/**
* Destroy function
*/
void destroy();
/**
* Make a transition, version for lowercase letters and symbols
* @param input the input symbol
*/
void apply(int const input);
/**
* Make a transition, version for lowercase and uppercase letters
* @param input the input symbol
* @param alt the alternative input symbol
*/
void apply(int const input, int const alt);
void apply(int const input, int const alt1, int const alt2);
/**
* Make a transition, with multiple possibilities
* @param input the input symbol
* @param alts set of alternative input symbols
*/
void apply(int const input, set<int> const alts);
/**
* Make a transition, only applying lowercase version if
* uppercase version is absent
* @param input the input symbol
* @param alt the alternative input symbol
*/
void apply_careful(int const input, int const alt);
/**
* Make a transition, but overriding the output symbol
* @param input symbol
* @param output symbol we expect to appear
* @param output symbol we want to appear
*/
void apply_override(int const input, int const old_sym, int const new_sym);
/**
* Calculate the epsilon closure over the current state, replacing
* its content.
*/
void epsilonClosure();
bool lastPartHasRequiredSymbol(const vector<pair<int, double>> &seq, int requiredSymbol, int separationSymbol);
public:
/**
* Copy function
* @param s the state to be copied
*/
void copy(State const &s);
/**
* Constructor
*/
State();
/**
* Destructor
*/
~State();
/**
* Copy constructor
* @param s the state to be copied
*/
State(State const &s);
/**
* Assignment operator
* @param s the state to be assigned
* @return the object that results from the assignation
*/
State & operator =(State const &s);
/**
* Number of alive transductions
* @return the size
*/
int size() const;
/**
* step = apply + epsilonClosure
* @param input the input symbol
*/
void step(int const input);
/**
* step = apply + epsilonClosure
* @param input the input symbol
* @param alt the alternative input symbol
*/
void step(int const input, int const alt);
void step(int const input, int const alt1, int const alt2);
/**
* step = apply + epsilonClosure
* @param input the input symbol
* @param alt the alternative input symbols
*/
void step(int const input, set<int> const alts);
void step_case(wchar_t val, bool caseSensitive);
void step_case(wchar_t val, wchar_t val2, bool caseSensitive);
void step_careful(int const input, int const alt);
void step_override(int const input, int const old_sym, int const new_sym);
/**
* Init the state with the initial node and empty output
* @param initial the initial node of the transducer
*/
void init(Node *initial);
/**
* Remove states not containing a specific symbol in their last 'part', and states
* with more than a number of 'parts'
* @param requieredSymbol the symbol requiered in the last part
* @param separationSymbol the symbol that represent the separation between two parts
* @param compound_max_elements the maximum part number allowed
*/
void pruneCompounds(int requiredSymbol, int separationSymbol, int compound_max_elements);
/**
* Remove states containing a forbidden symbol
* @param forbiddenSymbol the symbol forbidden
*/
void pruneStatesWithForbiddenSymbol(int forbiddenSymbol);
/**
* Returns the lexical form in a sorted by weights manner
* and restricts to N analyses or N weight classes if those options are provided.
* @param the original lexical form map
* @param the max number of printable analyses
* @param the max number of printable weight classes
* @return the sorted lexical form
*/
template <typename T1, typename T2>
struct sort_weights {
typedef pair<T1, T2> type;
bool operator ()(type const& a, type const& b) const {
return a.second < b.second;
}
};
vector<pair< wstring, double >> NFinals(vector<pair<wstring, double>> lf,
int maxAnalyses,
int maxWeightClasses) const;
/**
* Print all outputs of current parsing, preceded by a bar '/',
* from the final nodes of the state
* @param finals the set of final nodes
* @param a the alphabet to decode strings
* @param escaped_chars the set of chars to be preceded with one
* backslash
* @param uppercase true if the word is uppercase
* @param firstupper true if the first letter of a word is uppercase
* @param firstchar first character of the word
* @return the result of the transduction
*/
wstring filterFinals(map<Node *, double> const &finals,
Alphabet const &a,
set<wchar_t> const &escaped_chars,
bool display_weights = false,
int max_analyses = INT_MAX,
int max_weight_classes = INT_MAX,
bool uppercase = false,
bool firstupper = false,
int firstchar = 0) const;
/**
* Same as previous one, but the output is adapted to the SAO system
* @param finals the set of final nodes
* @param a the alphabet to decode strings
* @param escaped_chars the set of chars to be preceded with one
* backslash
* @param uppercase true if the word is uppercase
* @param firstupper true if the first letter of a word is uppercase
* @param firstchar first character of the word
* @return the result of the transduction
*/
wstring filterFinalsSAO(map<Node *, double> const &finals,
Alphabet const &a,
set<wchar_t> const &escaped_chars,
bool uppercase = false,
bool firstupper = false,
int firstchar = 0) const;
/**
* Same as previous one, but the output is adapted to the LRX system
* @param finals the set of final nodes
* @param a the alphabet to decode strings
* @param escaped_chars the set of chars to be preceded with one
* backslash
* @param uppercase true if the word is uppercase
* @param firstupper true if the first letter of a word is uppercase
* @param firstchar first character of the word
* @return the result of the transduction
*/
set<pair<wstring, vector<wstring> > > filterFinalsLRX(map<Node *, double> const &finals,
Alphabet const &a,
set<wchar_t> const &escaped_chars,
bool uppercase = false,
bool firstupper = false,
int firstchar = 0) const;
/**
* Find final states, remove those that not has a requiredSymbol and 'restart' each of them as the
* set of initial states, but remembering the sequence and adding a separationSymbol
* @param finals
* @param requiredSymbol
* @param restart_state
* @param separationSymbol
*/
void restartFinals(const map<Node *, double> &finals, int requiredSymbol, State *restart_state, int separationSymbol);
/**
* Returns true if at least one record of the state references a
* final node of the set
* @param finals set of final nodes @return
* @true if the state is final
*/
bool isFinal(map<Node *, double> const &finals) const;
/**
* Return the full states string (to allow debuging...) using a Java ArrayList.toString style
*/
wstring getReadableString(const Alphabet &a);
wstring filterFinalsTM(map<Node *, double> const &finals,
Alphabet const &alphabet,
set<wchar_t> const &escaped_chars,
queue<wstring> &blanks,
vector<wstring> &numbers) const;
};
#endif
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