/usr/include/hfst/HfstFlagDiacritics.h is in libhfst45-dev 3.10.0~r2798-3.
This file is owned by root:root, with mode 0o644.
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//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 3 of the License, or (at your option) any later version.
// See the file COPYING included with this distribution for more
// information.
#ifndef _FLAG_DIACRITICS_H_
#define _FLAG_DIACRITICS_H_
#include <iostream>
#include <string>
#include <map>
#include <vector>
#include <cassert>
#include <utility>
#include "hfstdll.h"
/** @file HfstFlagDiacritics.h
\brief Class declarations for flag diacritic handling. */
namespace hfst {
enum FdOperator {Pop, Nop, Rop, Dop, Cop, Uop};
typedef unsigned short FdFeature;
typedef short FdValue;
class FdOperation
{
private:
FdOperator op;
FdFeature feature;
FdValue value;
std::string name;
public:
HFSTDLL FdOperation
(FdOperator op, FdFeature feat, FdValue val, const std::string& str):
op(op), feature(feat), value(val), name(str) {}
HFSTDLL FdOperator Operator(void) const { return op; }
HFSTDLL FdFeature Feature(void) const { return feature; }
HFSTDLL FdValue Value(void) const { return value; }
HFSTDLL std::string Name(void) const { return name; }
HFSTDLL static FdOperator char_to_operator(char c)
{
switch (c) {
case 'P': return Pop;
case 'N': return Nop;
case 'R': return Rop;
case 'D': return Dop;
case 'C': return Cop;
case 'U': return Uop;
default:
throw;
}
}
HFSTDLL static bool is_diacritic(const std::string& diacritic_str);
HFSTDLL static std::string::size_type find_diacritic
(const std::string& diacritic_str,
std::string::size_type& length);
HFSTDLL static std::string get_operator(const std::string& diacritic);
HFSTDLL static std::string get_feature(const std::string& diacritic);
HFSTDLL static std::string get_value(const std::string& diacritic);
HFSTDLL static bool has_value(const std::string& diacritic);
};
template<class T> class FdState;
/** \brief A collection of the flag diacritics from a symbol table indexed
by keys of type \a T
*/
template<class T>
class FdTable
{
private:
// Used for generating IDs that stand in for feature and value strings
std::map<std::string, FdFeature> feature_map;
std::map<std::string, FdValue> value_map;
std::map<T, FdOperation> operations;
std::map<std::string, T> symbol_map;
public:
FdTable(): feature_map(), value_map()
{ value_map[std::string()] = 0; } // empty value = neutral
void define_diacritic(T symbol, const std::string& str)
{
if(!FdOperation::is_diacritic(str))
throw;
FdOperator op = FdOperation::char_to_operator(str.at(1));
std::string feat;
std::string val;
// Third character is always the first fullstop.
size_t first_full_stop_pos = 2;
// Find the second full stop, if there is one.
size_t second_full_stop_pos = str.find('.',first_full_stop_pos+1);
size_t last_char_pos = str.size() - 1;
if(second_full_stop_pos == std::string::npos)
{
assert(op == Cop || op == Dop || op == Rop);
feat = str.substr(first_full_stop_pos+1,
last_char_pos-first_full_stop_pos-1);
}
else
{
feat = str.substr(first_full_stop_pos+1,
second_full_stop_pos-first_full_stop_pos-1);
val = str.substr(second_full_stop_pos+1,
last_char_pos-second_full_stop_pos-1);
}
if(feature_map.count(feat) == 0)
{
FdFeature next = feature_map.size();
feature_map[feat] = next;
}
if(value_map.count(val) == 0)
{
FdValue next = value_map.size()+1;
value_map[val] = next;
}
operations.insert
(std::pair<T,FdOperation>
(symbol,
FdOperation(op, feature_map[feat], value_map[val], str)));
symbol_map.insert(std::pair<std::string,T>(str, symbol));
}
FdFeature num_features() const { return feature_map.size(); }
bool is_diacritic(T symbol) const
{ return operations.find(symbol) != operations.end(); }
const FdOperation* get_operation(T symbol) const
{
// for some reason this fails to compile???
//std::map<T,FdOperation>::const_iterator i
// = operations.find(symbol);
//return (i==operations.end()) ? NULL : &(i->second);
return (operations.find(symbol)==operations.end()) ? NULL :
&(operations.find(symbol)->second);
}
const FdOperation* get_operation(const std::string& symbol) const
{
return (symbol_map.find(symbol)==symbol_map.end()) ? NULL :
get_operation(symbol_map.find(symbol)->second);
}
bool is_valid_string(const std::vector<T>& symbols) const
{
FdState<T> state(*this);
for(size_t i=0; i<symbols.size(); i++)
{
if(!state.apply_operation(symbols[i]))
break;
}
return !state.fails();
}
bool is_valid_string(const std::string& str) const
{
FdState<T> state(*this);
std::string remaining(str);
std::string::size_type length;
while(true)
{
std::string::size_type next_diacritic_pos
= FdOperation::find_diacritic(remaining, length);
if(next_diacritic_pos == std::string::npos)
break;
std::string diacritic = remaining.substr(0, length);
if(!state.apply_operation(diacritic))
break;
remaining = remaining.substr(length);
}
return !state.fails();
}
};
/** \brief Contains the values of each of the flag diacritic features from a
table. It allows for evaluating a series of diacritic operations
*/
template<class T>
class FdState
{
private:
const FdTable<T>* table;
// This is indexed with values of type FdFeature
typename std::vector<FdValue> values;
T num_features;
bool error_flag;
public:
FdState(const FdTable<T>& t):
table(&t), values(table->num_features()),
num_features(table->num_features()), error_flag(false)
{}
FdState():
table(NULL), values(), num_features(0), error_flag(false)
{}
const FdTable<T>& get_table() const {return *table;}
const std::vector<FdValue> & get_values(void) const
{ return values; }
void assign_values(std::vector<FdValue> const & vals)
{
values = vals;
if (values.size() != num_features) {
error_flag = true;
}
}
bool apply_operation(T symbol)
{
const FdOperation* op = table->get_operation(symbol);
if(op)
return apply_operation(*op);
return true; // if the symbol isn't a diacritic
}
bool apply_operation(const FdOperation& op)
{
switch(op.Operator()) {
case Pop: // positive set
values[op.Feature()] = op.Value();
return true;
case Nop: // negative set (literally, in this implementation)
values[op.Feature()] = -1*op.Value();
return true;
case Rop: // require
if (op.Value() == 0) // empty require
return (values[op.Feature()] != 0);
else // nonempty require
return (values[op.Feature()] == op.Value());
case Dop: // disallow
if (op.Value() == 0) // empty disallow
return (values[op.Feature()] == 0);
else // nonempty disallow
return (values[op.Feature()] != op.Value());
case Cop: // clear
values[op.Feature()] = 0;
return true;
case Uop: // unification
if(values[op.Feature()] == 0 || /* if the feature is unset or */
values[op.Feature()] == op.Value() || /* the feature is at
this value already
or */
(values[op.Feature()] < 0 &&
(values[op.Feature()]*(-1) != op.Value())) /* the feature is
negatively set
to something
else */
)
{
values[op.Feature()] = op.Value();
return true;
}
return false;
}
throw; // for the compiler's peace of mind
}
bool apply_operation(const std::string& symbol)
{
const FdOperation* op = table->get_operation(symbol);
if(op)
return apply_operation(*op);
return true;
}
bool fails() const {return error_flag;}
void reset()
{
error_flag = false;
values.clear();
values.insert(values.begin(), table->num_features(), 0);
}
};
}
#endif
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