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GenVectorIO.h
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1// @(#)root/mathcore:$Id$
2// Authors: W. Brown, M. Fischler, L. Moneta 2005
3
4 /**********************************************************************
5 * *
6 * Copyright (c) 2005 , LCG ROOT MathLib Team (FNAL component) *
7 * *
8 * *
9 **********************************************************************/
10
11// Support templates (class and function) for stream i/o of vectors
12// This is a utuility to allow for control, via manipulators, of the
13// form of
14//
15// Created by: W. E. Brown and M. Fischler at Tue Jun 21 2005
16//
17// Last update: Tue Jun 21 2005
18//
19#ifndef ROOT_Math_GenVector_GenVectorIO
20#define ROOT_Math_GenVector_GenVectorIO 1
21
22#include <cctype>
23#include <iostream>
24
25
26namespace ROOT {
27namespace Math {
28
29namespace detail {
30
31
32// -------- Manipulator support ----------
33
34
36
37
38inline int
39 ios_data( int k )
40{
41 static int const ios_data[4] = { std::ios::xalloc() // open
42 , std::ios::xalloc() // sep
43 , std::ios::xalloc() // close
44 , std::ios::xalloc() // bitforbit
45 };
46
47 return ios_data[k];
48
49} // ios_data()
50
51
52template< class char_t, class traits_t >
53 inline char_t
54 get_manip( std::basic_ios<char_t,traits_t> & ios
55 , manip_t m
56 )
57{
58 char_t ch = static_cast<char_t>( ios.iword( ios_data(m) ) );
59 if( ch ) return ch;
60
61 switch( m )
62 { default : return ios.widen( '?' );
63 case open : return ios.widen( '(' );
64 case close : return ios.widen( ')' );
65 case sep : return ios.widen( ',' );
66 case bitforbit : return ch;
67 }
68
69} // get_manip<>()
70
71
72template< class char_t, class traits_t >
73 inline void
74 set_manip( std::basic_ios<char_t,traits_t> & ios
75 , manip_t m
76 , char_t ch
77 )
78{
79 ios.iword( ios_data(m) ) = static_cast<long>(ch);
80
81} // set_manip<>()
82
83
84template< class char_t >
86{
87public:
88 explicit
90 , char_t ch = 0
91 )
92 : fMan(m)
93 , fChar(ch)
94 { }
95
96 template< class traits_t >
97 void
98 set( std::basic_ios<char_t,traits_t> & ios ) const
99 {
100 set_manip<char_t>( ios, fMan, fChar );
101 }
102
103private:
105 char_t fChar;
106
107}; // manipulator<>
108
109
110template< class char_t, class traits_t >
111 inline
112 std::basic_istream<char_t,traits_t> &
113 require_delim( std::basic_istream<char_t,traits_t> & is
114 , manip_t m
115 )
116{
117 char_t delim = get_manip( is, m );
118 if( std::isspace(delim) ) return is;
119
120 char_t ch;
121 is >> ch;
122 if( ch != delim )
123 is.setstate( std::ios::failbit );
124
125 return is;
126
127} // require_delim<>()
128
129
130template< class char_t, class traits_t >
131 inline
132 std::basic_ostream<char_t,traits_t> &
133 operator << ( std::basic_ostream<char_t,traits_t> & os
134 , detail::manipulator<char_t> const & manip
135 )
136
137{
138 manip.set(os);
139 return os;
140
141} // op<< <>()
142
143
144template< class char_t, class traits_t >
145 inline
146 std::basic_istream<char_t,traits_t> &
147 operator >> ( std::basic_istream<char_t,traits_t> & is
148 , detail::manipulator<char_t> const & manip
149 )
150
151{
152 manip.set(is);
153 return is;
154
155} // op>> <>()
156
157} // namespace detail
158
159
160// --------- Functions that allow a user to control vector I/O ----------
161
162
163
164template< class char_t >
165 inline
166 detail::manipulator<char_t>
167 set_open( char_t ch )
168{
170
171} // set_open<>()
172
173
174template< class char_t >
175 inline
176 detail::manipulator<char_t>
177 set_separator( char_t ch )
178{
180
181} // set_separator<>()
182
183
184template< class char_t >
185 inline
186 detail::manipulator<char_t>
187 set_close( char_t ch )
188{
190
191} // set_close<>()
192
193
194template< class char_t, class traits_t >
195 inline
196 std::basic_ios<char_t,traits_t> &
197 human_readable( std::basic_ios<char_t,traits_t> & ios )
198{
199 ios.iword( ios_data(detail::bitforbit) ) = 0L;
200 return ios;
201
202} // human_readable<>()
203
204
205template< class char_t, class traits_t >
206 inline
207 std::basic_ios<char_t,traits_t> &
208 machine_readable( std::basic_ios<char_t,traits_t> & ios )
209{
210 ios.iword( ios_data(detail::bitforbit) ) = 1L;
211 return ios;
212
213} // machine_readable<>()
214
215
216
217} // namespace ROOT
218} // namespace Math
219
220
221#endif // ROOT_Math_GenVector_GenVectorIO
manipulator(manip_t m, char_t ch=0)
Definition: GenVectorIO.h:89
void set(std::basic_ios< char_t, traits_t > &ios) const
Definition: GenVectorIO.h:98
Namespace for new Math classes and functions.
char_t get_manip(std::basic_ios< char_t, traits_t > &ios, manip_t m)
Definition: GenVectorIO.h:54
std::basic_istream< char_t, traits_t > & operator>>(std::basic_istream< char_t, traits_t > &is, detail::manipulator< char_t > const &manip)
Definition: GenVectorIO.h:147
std::basic_ostream< char_t, traits_t > & operator<<(std::basic_ostream< char_t, traits_t > &os, detail::manipulator< char_t > const &manip)
Definition: GenVectorIO.h:133
std::basic_istream< char_t, traits_t > & require_delim(std::basic_istream< char_t, traits_t > &is, manip_t m)
Definition: GenVectorIO.h:113
void set_manip(std::basic_ios< char_t, traits_t > &ios, manip_t m, char_t ch)
Definition: GenVectorIO.h:74
int ios_data(int k)
Definition: GenVectorIO.h:39
detail::manipulator< char_t > set_open(char_t ch)
Definition: GenVectorIO.h:167
detail::manipulator< char_t > set_separator(char_t ch)
Definition: GenVectorIO.h:177
std::basic_ios< char_t, traits_t > & human_readable(std::basic_ios< char_t, traits_t > &ios)
Definition: GenVectorIO.h:197
std::basic_ios< char_t, traits_t > & machine_readable(std::basic_ios< char_t, traits_t > &ios)
Definition: GenVectorIO.h:208
detail::manipulator< char_t > set_close(char_t ch)
Definition: GenVectorIO.h:187
Namespace for new ROOT classes and functions.
Definition: StringConv.hxx:21
static constexpr double L
auto * m
Definition: textangle.C:8