///////////////////////////////////////////////////////////////////////////// // Name: encconv.h // Purpose: interface of wxEncodingConverter // Author: wxWidgets team // RCS-ID: $Id$ // Licence: wxWindows license ///////////////////////////////////////////////////////////////////////////// /** @class wxEncodingConverter This class is capable of converting strings between two 8-bit encodings/charsets. It can also convert from/to Unicode (but only if you compiled wxWidgets with wxUSE_WCHAR_T set to 1). Only a limited subset of encodings is supported by wxEncodingConverter: @c wxFONTENCODING_ISO8859_1..15, @c wxFONTENCODING_CP1250..1257 and @c wxFONTENCODING_KOI8. @note Please use wxMBConv classes instead if possible. wxCSConv has much better support for various encodings than wxEncodingConverter. wxEncodingConverter is useful only if you rely on wxCONVERT_SUBSTITUTE mode of operation (see wxEncodingConverter::Init()). @library{wxbase} @category{misc} @see wxFontMapper, wxMBConv, @ref overview_nonenglish */ class wxEncodingConverter : public wxObject { public: /** Constructor. */ wxEncodingConverter(); /** Return @true if (any text in) multibyte encoding @a encIn can be converted to another one (@a encOut) losslessly. Do not call this method with @c wxFONTENCODING_UNICODE as either parameter, it doesn't make sense (always works in one sense and always depends on the text to convert in the other). */ static bool CanConvert(wxFontEncoding encIn, wxFontEncoding encOut); /** @name Conversion functions @{ */ /** Convert input string according to settings passed to Init() and writes the result to output. All the Convert() function overloads return @true if the conversion was lossless and @false if at least one of the characters couldn't be converted was and replaced with '?' in the output. Note that if @c wxCONVERT_SUBSTITUTE was passed to Init(), substitution is considered a lossless operation. @note You must call Init() before using this method! @note wchar_t versions of the method are not available if wxWidgets was compiled with @c wxUSE_WCHAR_T set to 0. */ bool Convert(const char* input, char* output) const; bool Convert(const wchar_t* input, wchar_t* output) const; bool Convert(const char* input, wchar_t* output) const; bool Convert(const wchar_t* input, char* output) const; /** Convert input string according to settings passed to Init() in-place, i.e. write the result to the same memory area. See the Convert(const char*,char*) const overload for more info. */ bool Convert(char* str) const; bool Convert(wchar_t* str) const; /** Convert a wxString and return a new wxString object. See the Convert(const char*,char*) const overload for more info. */ wxString Convert(const wxString& input) const; //@} /** Similar to GetPlatformEquivalents(), but this one will return ALL equivalent encodings, regardless of the platform, and including itself. This platform's encodings are before others in the array. And again, if @a enc is in the array, it is the very first item in it. */ static wxFontEncodingArray GetAllEquivalents(wxFontEncoding enc); /** Return equivalents for given font that are used under given platform. Supported platforms: @li wxPLATFORM_UNIX @li wxPLATFORM_WINDOWS @li wxPLATFORM_OS2 @li wxPLATFORM_MAC @li wxPLATFORM_CURRENT wxPLATFORM_CURRENT means the platform this binary was compiled for. Examples: @verbatim current platform enc returned value ---------------------------------------------- unix CP1250 {ISO8859_2} unix ISO8859_2 {ISO8859_2} windows ISO8859_2 {CP1250} unix CP1252 {ISO8859_1,ISO8859_15} @endverbatim Equivalence is defined in terms of convertibility: two encodings are equivalent if you can convert text between then without losing information (it may - and will - happen that you lose special chars like quotation marks or em-dashes but you shouldn't lose any diacritics and language-specific characters when converting between equivalent encodings). Remember that this function does @b NOT check for presence of fonts in system. It only tells you what are most suitable encodings. (It usually returns only one encoding.) @note Note that argument enc itself may be present in the returned array, so that you can, as a side-effect, detect whether the encoding is native for this platform or not. @note Convert() is not limited to converting between equivalent encodings, it can convert between two arbitrary encodings. @note If @a enc is present in the returned array, then it is always the first item of it. @note Please note that the returned array may contain no items at all. */ static wxFontEncodingArray GetPlatformEquivalents(wxFontEncoding enc, int platform = wxPLATFORM_CURRENT); /** Initialize the conversion. Both output or input encoding may be wxFONTENCODING_UNICODE, but only if wxUSE_ENCODING is set to 1. All subsequent calls to Convert() will interpret its argument as a string in @a input_enc encoding and will output string in @a output_enc encoding. You must call this method before calling Convert. You may call it more than once in order to switch to another conversion. @a method affects behaviour of Convert() in case input character cannot be converted because it does not exist in output encoding: @li @b wxCONVERT_STRICT: follow behaviour of GNU Recode - just copy unconvertible characters to output and don't change them (its integer value will stay the same) @li @b wxCONVERT_SUBSTITUTE: try some (lossy) substitutions - e.g. replace unconvertible latin capitals with acute by ordinary capitals, replace en-dash or em-dash by '-' etc. Both modes guarantee that output string will have same length as input string. @return @false if given conversion is impossible, @true otherwise (conversion may be impossible either if you try to convert to Unicode with non-Unicode build of wxWidgets or if input or output encoding is not supported). */ bool Init(wxFontEncoding input_enc, wxFontEncoding output_enc, int method = wxCONVERT_STRICT); };