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1 /////////////////////////////////////////////////////////////////////////////
2 // Name: mbconvclasses.h
3 // Purpose: topic overview
4 // Author: wxWidgets team
5 // RCS-ID: $Id$
6 // Licence: wxWindows licence
7 /////////////////////////////////////////////////////////////////////////////
8
9 /**
10
11 @page overview_mbconv wxMBConv Overview
12
13 Classes: wxMBConv, wxMBConvLibc, wxMBConvUTF7, wxMBConvUTF8, wxCSConv,
14 wxMBConvUTF16, wxMBConvUTF32
15
16 The wxMBConv classes in wxWidgets enable an Unicode-aware application to easily
17 convert between Unicode and the variety of 8-bit encoding systems still in use.
18
19 @li @ref overview_mbconv_need
20 @li @ref overview_mbconv_string
21 @li @ref overview_mbconv_classes
22 @li @ref overview_mbconv_objects
23 @li @ref overview_mbconv_csconv
24 @li @ref overview_mbconv_converting
25 @li @ref overview_mbconv_buffers
26
27
28 <hr>
29
30
31 @section overview_mbconv_need Background: The Need for Conversion
32
33 As programs are becoming more and more globalized, and users exchange documents
34 across country boundaries as never before, applications increasingly need to
35 take into account all the different character sets in use around the world. It
36 is no longer enough to just depend on the default byte-sized character set that
37 computers have traditionally used.
38
39 A few years ago, a solution was proposed: the Unicode standard. Able to contain
40 the complete set of characters in use in one unified global coding system, it
41 would resolve the character set problems once and for all.
42
43 But it hasn't happened yet, and the migration towards Unicode has created new
44 challenges, resulting in "compatibility encodings" such as UTF-8. A large
45 number of systems out there still depends on the old 8-bit encodings, hampered
46 by the huge amounts of legacy code still widely deployed. Even sending Unicode
47 data from one Unicode-aware system to another may need encoding to an 8-bit
48 multibyte encoding (UTF-7 or UTF-8 is typically used for this purpose), to pass
49 unhindered through any traditional transport channels.
50
51
52 @section overview_mbconv_string Background: The wxString Class
53
54 @todo rewrite this overview; it's not up2date with wxString changes
55
56 If you have compiled wxWidgets in Unicode mode, the wxChar type will become
57 identical to wchar_t rather than char, and a wxString stores wxChars. Hence,
58 all wxString manipulation in your application will then operate on Unicode
59 strings, and almost as easily as working with ordinary char strings (you just
60 need to remember to use the wxT() macro to encapsulate any string literals).
61
62 But often, your environment doesn't want Unicode strings. You could be sending
63 data over a network, or processing a text file for some other application. You
64 need a way to quickly convert your easily-handled Unicode data to and from a
65 traditional 8-bit encoding. And this is what the wxMBConv classes do.
66
67
68 @section overview_mbconv_classes wxMBConv Classes
69
70 The base class for all these conversions is the wxMBConv class (which itself
71 implements standard libc locale conversion). Derived classes include
72 wxMBConvLibc, several different wxMBConvUTFxxx classes, and wxCSConv, which
73 implement different kinds of conversions. You can also derive your own class
74 for your own custom encoding and use it, should you need it. All you need to do
75 is override the MB2WC and WC2MB methods.
76
77
78 @section overview_mbconv_objects wxMBConv Objects
79
80 Several of the wxWidgets-provided wxMBConv classes have predefined instances
81 (wxConvLibc, wxConvFileName, wxConvUTF7, wxConvUTF8, wxConvLocal). You can use
82 these predefined objects directly, or you can instantiate your own objects.
83
84 A variable, wxConvCurrent, points to the conversion object that the user
85 interface is supposed to use, in the case that the user interface is not
86 Unicode-based (like with GTK+ 1.2). By default, it points to wxConvLibc or
87 wxConvLocal, depending on which works best on the current platform.
88
89
90 @section overview_mbconv_csconv wxCSConv
91
92 The wxCSConv class is special because when it is instantiated, you can tell it
93 which character set it should use, which makes it meaningful to keep many
94 instances of them around, each with a different character set (or you can
95 create a wxCSConv instance on the fly).
96
97 The predefined wxCSConv instance, wxConvLocal, is preset to use the default
98 user character set, but you should rarely need to use it directly, it is better
99 to go through wxConvCurrent.
100
101
102 @section overview_mbconv_converting Converting Strings
103
104 Once you have chosen which object you want to use to convert your text, here is
105 how you would use them with wxString. These examples all assume that you are
106 using a Unicode build of wxWidgets, although they will still compile in a
107 non-Unicode build (they just won't convert anything).
108
109 Example 1: Constructing a wxString from input in current encoding.
110
111 @code
112 wxString str(input_data, *wxConvCurrent);
113 @endcode
114
115 Example 2: Input in UTF-8 encoding.
116
117 @code
118 wxString str(input_data, wxConvUTF8);
119 @endcode
120
121 Example 3: Input in KOI8-R. Construction of wxCSConv instance on the fly.
122
123 @code
124 wxString str(input_data, wxCSConv(wxT("koi8-r")));
125 @endcode
126
127 Example 4: Printing a wxString to stdout in UTF-8 encoding.
128
129 @code
130 puts(str.mb_str(wxConvUTF8));
131 @endcode
132
133 Example 5: Printing a wxString to stdout in custom encoding. Using
134 preconstructed wxCSConv instance.
135
136 @code
137 wxCSConv cust(user_encoding);
138 printf("Data: %s\n", (const char*) str.mb_str(cust));
139 @endcode
140
141 @note Since mb_str() returns a temporary wxCharBuffer to hold the result of the
142 conversion, you need to explicitly cast it to const char* if you use it in a
143 vararg context (like with printf).
144
145
146 @section overview_mbconv_buffers Converting Buffers
147
148 If you have specialized needs, or just don't want to use wxString, you can also
149 use the conversion methods of the conversion objects directly. This can even be
150 useful if you need to do conversion in a non-Unicode build of wxWidgets;
151 converting a string from UTF-8 to the current encoding should be possible by
152 doing this:
153
154 @code
155 wxString str(wxConvUTF8.cMB2WC(input_data), *wxConvCurrent);
156 @endcode
157
158 Here, cMB2WC of the UTF8 object returns a wxWCharBuffer containing a Unicode
159 string. The wxString constructor then converts it back to an 8-bit character
160 set using the passed conversion object, *wxConvCurrent. (In a Unicode build of
161 wxWidgets, the constructor ignores the passed conversion object and retains the
162 Unicode data.)
163
164 This could also be done by first making a wxString of the original data:
165
166 @code
167 wxString input_str(input_data);
168 wxString str(input_str.wc_str(wxConvUTF8), *wxConvCurrent);
169 @endcode
170
171 To print a wxChar buffer to a non-Unicode stdout:
172
173 @code
174 printf("Data: %s\n", (const char*) wxConvCurrent->cWX2MB(unicode_data));
175 @endcode
176
177 If you need to do more complex processing on the converted data, you may want
178 to store the temporary buffer in a local variable:
179
180 @code
181 const wxWX2MBbuf tmp_buf = wxConvCurrent->cWX2MB(unicode_data);
182 const char *tmp_str = (const char*) tmp_buf;
183 printf("Data: %s\n", tmp_str);
184 process_data(tmp_str);
185 @endcode
186
187 If a conversion had taken place in cWX2MB (i.e. in a Unicode build), the buffer
188 will be deallocated as soon as tmp_buf goes out of scope. The macro wxWX2MBbuf
189 reflects the correct return value of cWX2MB (either char* or wxCharBuffer),
190 except for the const.
191
192 */
193