/usr/include/timbl/Types.h is in libtimbl4-dev 6.4.4-4.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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$Id: Types.h 15828 2013-03-28 11:55:53Z sloot $
$URL: https://ilk.uvt.nl/svn/trunk/sources/Timbl6/include/timbl/Types.h $
Copyright (c) 1998 - 2013
ILK - Tilburg University
CLiPS - University of Antwerp
This file is part of timbl
timbl 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 3 of the License, or
(at your option) any later version.
timbl 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/>.
For questions and suggestions, see:
http://ilk.uvt.nl/software.html
or send mail to:
timbl@uvt.nl
*/
#ifndef TIMBL_TYPES_H
#define TIMBL_TYPES_H
#include <string>
#include <set>
#include <vector>
#include <map>
#include <exception>
#include <stdexcept>
#include <ostream>
#include <sstream>
#include "ticcutils/StringOps.h"
#include "timbl/StringOps.h"
namespace Timbl {
enum InputFormatType { UnknownInputFormat,
Compact, C4_5, Columns, Tabbed, ARFF, SparseBin,
Sparse,
MaxInputFormat };
inline InputFormatType& operator++( InputFormatType &I ){
return I = ( MaxInputFormat == I )
? UnknownInputFormat
: InputFormatType(I+1);
}
enum WeightType { Unknown_w,
No_w, GR_w, IG_w, X2_w, SV_w, SD_w, UserDefined_w,
Max_w };
inline WeightType& operator++( WeightType &W ){
return W = ( Max_w == W ) ? Unknown_w : WeightType(W+1);
}
enum AlgorithmType { Unknown_a,
IB1_a, IB2_a, IGTREE_a, TRIBL_a, TRIBL2_a,
LOO_a, CV_a,
Max_a };
inline AlgorithmType& operator++( AlgorithmType &W ){
return W = ( Max_a == W ) ? Unknown_a : AlgorithmType(W+1);
}
enum MetricType { UnknownMetric, Ignore,
Numeric, DotProduct, Cosine, Overlap, Levenshtein,
Dice, ValueDiff, JeffreyDiv, JSDiv, Euclidean, MaxMetric };
inline MetricType& operator++( MetricType &W ){
return W = ( MaxMetric == W ) ? UnknownMetric : MetricType(W+1);
}
enum OrdeningType { UnknownOrdening, DataFile, NoOrder,
GROrder, IGOrder,
OneoverFeature, OneoverSplitInfo,
GRoverFeature, IGoverFeature,
GREntropyOrder, IGEntropyOrder,
X2Order, SVOrder, SDOrder,
X2overFeature, SVoverFeature, SDoverFeature,
MaxOrdening };
inline OrdeningType& operator++( OrdeningType &W ){
return W = ( MaxOrdening == W ) ? UnknownOrdening : OrdeningType(W+1);
}
enum VerbosityFlags { NO_VERB=0, SILENT=1, OPTIONS=2, FEAT_W=4,
VD_MATRIX=8, EXACT=16, DISTANCE=32, DISTRIB=64,
NEAR_N=128, ADVANCED_STATS=256, CONF_MATRIX=512,
CLASS_STATS=1024, CLIENTDEBUG=2048, ALL_K=4096,
MATCH_DEPTH=8192, BRANCHING=16384, CONFIDENCE=32768,
MAX_VERB };
inline VerbosityFlags operator~( VerbosityFlags V ){
return (VerbosityFlags)( ~(int)V );
}
inline VerbosityFlags operator|( VerbosityFlags V1, VerbosityFlags V2 ){
return (VerbosityFlags)( (int)V1|(int)V2 );
}
inline VerbosityFlags& operator|= ( VerbosityFlags& f, VerbosityFlags g ){
f = (f | g);
return f;
}
inline VerbosityFlags operator& ( VerbosityFlags f, VerbosityFlags g ){
return (VerbosityFlags)((int)f & (int)g );
}
inline VerbosityFlags& operator&= ( VerbosityFlags& f, VerbosityFlags g ){
f = (f & g);
return f;
}
enum OptType { UnknownOpt,
StringT, IntegerT, BooleanT, VerbosityT, IFormatT,
AlgoT, MetricT, WeightT, OrdeningT,
MaxOpt };
inline OptType& operator++( OptType &W ){
return W = ( MaxOpt == W ) ? UnknownOpt : OptType(W+1);
}
enum DecayType { UnknownDecay,
Zero, InvDist, InvLinear, ExpDecay, MaxDecay };
inline DecayType& operator++( DecayType &W ){
return W = ( MaxDecay == W ) ? UnknownDecay : DecayType(W+1);
}
enum SmoothingType { UnknownSmoothing, Default, Lidstone, MaxSmoothing };
inline SmoothingType& operator++( SmoothingType &W ){
return W = ( MaxSmoothing == W ) ? UnknownSmoothing : SmoothingType(W+1);
}
enum normType { unknownNorm, noNorm, probabilityNorm,
addFactorNorm, logProbNorm, maxNorm };
inline normType& operator++( normType &W ){
return W = ( maxNorm == W ) ? noNorm : normType(W+1);
}
extern const char *DecayName[][2];
extern const char *OrdeningName[][2];
extern const char *WeightName[][2];
extern const char *MetricName[][2];
extern const char *InputFormatName[][2];
extern const char *AlgorithmName[][2];
extern const char *SmoothingName[][2];
extern const char *VerbosityName[][2];
extern const char *NormalisationName[][2];
WeightType charToWeig( char );
AlgorithmType charToAlg( char );
normType charToNorm( char );
}
namespace TiCC {
//
// We create specializations of TiCC templates
// the must be placed in the TiCC namespace (isn't it?)
//
using namespace Timbl;
template <>
inline DecayType stringTo<DecayType>( const std::string& str ) {
DecayType d = UnknownDecay;
for ( ++d; d < MaxDecay; ++d ){
if ( compare_nocase( str, DecayName[d][0] ) ||
compare_nocase( str, DecayName[d][1] ) ){
return d;
}
}
throw( std::runtime_error( "conversion from string '"
+ str + "' to decayType failed" ) );
return UnknownDecay;
}
template <>
inline std::string toString<DecayType>( const DecayType& W, bool b ){
if ( b )
return DecayName[W][1];
else
return DecayName[W][0];
}
template <>
inline OrdeningType stringTo<OrdeningType>( const std::string& str ) {
OrdeningType d = UnknownOrdening;
for ( ++d; d < MaxOrdening; ++d ){
if ( compare_nocase( str, OrdeningName[d][0] ) ||
compare_nocase( str, OrdeningName[d][1] ) ){
return d;
}
}
throw( std::runtime_error( "conversion from string '"
+ str + "' to ordeningType failed" ) );
return UnknownOrdening;
}
template <>
inline std::string toString<OrdeningType>( const OrdeningType& W,
bool b ){
return OrdeningName[W][(b?1:0)];
}
template <>
inline MetricType stringTo<MetricType>( const std::string& str ) {
MetricType d = UnknownMetric;
for ( ++d; d < MaxMetric; ++d ){
if ( compare_nocase( str, MetricName[d][0] ) ||
compare_nocase( str, MetricName[d][1] ) ){
return d;
}
}
throw( std::runtime_error( "conversion from string '"
+ str + "' to metricType failed" ) );
return UnknownMetric;
}
template <>
inline std::string toString<MetricType>( const MetricType& W, bool b ){
if ( b )
return MetricName[W][1];
else
return MetricName[W][0];
}
template <>
inline WeightType stringTo<WeightType>( const std::string& str ) {
WeightType w = Unknown_w;
if ( str.length() == 1 && isdigit(str[0]) ){
w = charToWeig( str[0] );
}
if ( w != Unknown_w )
return w;
for ( ++w; w < Max_w; ++w ){
if ( compare_nocase( str, WeightName[w][0] ) ||
compare_nocase( str, WeightName[w][1] ) ){
return w;
}
}
throw( std::runtime_error( "conversion from string '"
+ str + "' to weightType failed" ) );
return Unknown_w;
}
template <>
inline std::string toString<WeightType>( const WeightType& W, bool b ){
if ( b )
return WeightName[W][1];
else
return WeightName[W][0];
}
template <>
inline AlgorithmType stringTo<AlgorithmType>( const std::string& str ) {
AlgorithmType a = Unknown_a;
if ( str.length() == 1 && isdigit(str[0]) ){
a = charToAlg( str[0] );
}
if ( a != Unknown_a )
return a;
for ( ++a; a < Max_a; ++a ){
if ( compare_nocase( str, AlgorithmName[a][0] ) ||
compare_nocase( str, AlgorithmName[a][1] ) ){
return a;
}
}
throw( std::runtime_error( "conversion from string '"
+ str + "' to algorithmType failed" ) );
return Unknown_a;
}
template <>
inline std::string toString<AlgorithmType>( const AlgorithmType& a,
bool b ){
if ( b )
return AlgorithmName[a][1];
else
return AlgorithmName[a][0];
}
template <>
inline InputFormatType stringTo<InputFormatType>( const std::string& str ){
InputFormatType d = UnknownInputFormat;
for ( ++d; d < MaxInputFormat; ++d ){
if ( compare_nocase( str, InputFormatName[d][0] ) ||
compare_nocase( str, InputFormatName[d][1] ) ){
return d;
}
}
throw( std::runtime_error( "conversion from string '"
+ str + "' to weightType failed" ) );
return UnknownInputFormat;
}
template <>
inline std::string toString<InputFormatType>( const InputFormatType& i,
bool b ){
if ( b )
return InputFormatName[i][1];
else
return InputFormatName[i][0];
}
template <>
inline SmoothingType stringTo<SmoothingType>( const std::string& str ) {
SmoothingType d = UnknownSmoothing;
for ( ++d; d < MaxSmoothing; ++d ){
if ( compare_nocase( str, SmoothingName[d][0] ) ||
compare_nocase( str, SmoothingName[d][1] ) ){
return d;
}
}
throw( std::runtime_error( "conversion from string '"
+ str + "' to smoothingType failed" ) );
return UnknownSmoothing;
}
template <>
inline std::string toString<SmoothingType>( const SmoothingType& s,
bool b ){
if ( b )
return SmoothingName[s][1];
else
return SmoothingName[s][0];
}
template <>
inline normType stringTo<normType>( const std::string& str ) {
normType d = unknownNorm;
if ( str.length() == 1 && isdigit(str[0]) ){
d = charToNorm( str[0] );
}
if ( d != unknownNorm )
return d;
for ( ++d; d < maxNorm; ++d ){
if ( compare_nocase( str, NormalisationName[d][0] ) ||
compare_nocase( str, NormalisationName[d][1] ) ){
return d;
}
}
throw( std::runtime_error( "conversion from string '"
+ str + "' to normalisationType failed" ) );
return unknownNorm;
}
template <>
inline std::string toString<normType>( const normType& s,
bool b ){
if ( b )
return NormalisationName[s][1];
else
return NormalisationName[s][0];
}
inline bool string_to_verbflag( const std::string& line,
VerbosityFlags &a ){
unsigned int i;
for ( i=0; VerbosityName[i][0][0] != '\0'; i++ )
if ( compare_nocase( line, VerbosityName[i][0] ) ||
compare_nocase( line, VerbosityName[i][1] ) ){
if ( i==0 ){
a = NO_VERB;
}
else{
a = (VerbosityFlags)(1<<(i-1));
}
return true;
}
return false;
}
template <>
inline VerbosityFlags stringTo<VerbosityFlags>( const std::string& str ) {
std::vector<std::string> tmp;
size_t cnt = TiCC::split_at( str, tmp, "+" );
VerbosityFlags V = NO_VERB;
for ( size_t i=0; i < cnt; ++i ){
VerbosityFlags Flag;
if ( string_to_verbflag( tmp[i], Flag ) ){
V |= Flag;
}
else {
throw( std::runtime_error( "conversion from string '"
+ str + "' to verbosityFlag failed" ) );
}
}
return V;
}
inline std::string verbosity_to_string( int v, bool full ){
if ( v == 0 )
return VerbosityName[0][(full?1:0)];
else {
std::string OutLine;
bool first = true;
for ( unsigned int i=1; VerbosityName[i][0][0] != '\0'; ++i )
if ( v & (1<<(i-1)) ){
if (first)
first = false;
else
OutLine += '+';
OutLine += VerbosityName[i][(full?1:0)];
}
return OutLine;
}
}
template <>
inline std::string toString<VerbosityFlags>( const VerbosityFlags& v,
bool full ){
return verbosity_to_string( (int)v, full );
}
inline std::string toString( const AlgorithmType& a, bool b=false ){
return toString<AlgorithmType>( a, b );
}
inline std::string toString( const MetricType& a, bool b=false ){
return toString<MetricType>( a, b );
}
inline std::string toString( const WeightType& a, bool b=false ){
return toString<WeightType>( a, b );
}
inline std::string toString( const InputFormatType& a, bool b=false ){
return toString<InputFormatType>( a, b );
}
inline std::string toString( const DecayType& a, bool b=false ){
return toString<DecayType>( a, b );
}
inline std::string toString( const OrdeningType& a, bool b=false ){
return toString<OrdeningType>( a, b );
}
inline std::string toString( const VerbosityFlags& a, bool b=false ){
return toString<VerbosityFlags>( a, b );
}
}
#endif
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