// Generated by gmmproc 2.66.3 -- DO NOT MODIFY! #ifndef _GIOMM_CONVERTER_H #define _GIOMM_CONVERTER_H #include #include #include /* Copyright (C) 2012 The giomm Development Team * * 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 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see . */ #include #ifndef DOXYGEN_SHOULD_SKIP_THIS typedef struct _GConverterIface GConverterIface; #endif /* DOXYGEN_SHOULD_SKIP_THIS */ #ifndef DOXYGEN_SHOULD_SKIP_THIS using GConverter = struct _GConverter; using GConverterClass = struct _GConverterClass; #endif /* DOXYGEN_SHOULD_SKIP_THIS */ #ifndef DOXYGEN_SHOULD_SKIP_THIS namespace Gio { class GIOMM_API Converter_Class; } // namespace Gio #endif // DOXYGEN_SHOULD_SKIP_THIS namespace Gio { /** @addtogroup giommEnums giomm Enums and Flags */ /** * @var ConverterResult CONVERTER_ERROR * There was an error during conversion. * * @var ConverterResult CONVERTER_CONVERTED * Some data was consumed or produced. * * @var ConverterResult CONVERTER_FINISHED * The conversion is finished. * * @var ConverterResult CONVERTER_FLUSHED * Flushing is finished. * * @enum ConverterResult * * Results returned from g_converter_convert(). * * @newin{2,24} * * @ingroup giommEnums */ enum ConverterResult { CONVERTER_ERROR, CONVERTER_CONVERTED, CONVERTER_FINISHED, CONVERTER_FLUSHED }; } // namespace Gio #ifndef DOXYGEN_SHOULD_SKIP_THIS namespace Glib { template <> class GIOMM_API Value : public Glib::Value_Enum { public: static GType value_type() G_GNUC_CONST; }; } // namespace Glib #endif /* DOXYGEN_SHOULD_SKIP_THIS */ namespace Gio { /** * @var ConverterFlags CONVERTER_NO_FLAGS * No flags. * * @var ConverterFlags CONVERTER_INPUT_AT_END * At end of input data. * * @var ConverterFlags CONVERTER_FLUSH * Flush data. * * @enum ConverterFlags * * Flags used when calling a g_converter_convert(). * * @newin{2,24} * * @ingroup giommEnums * @par Bitwise operators: * %ConverterFlags operator|(ConverterFlags, ConverterFlags)
* %ConverterFlags operator&(ConverterFlags, ConverterFlags)
* %ConverterFlags operator^(ConverterFlags, ConverterFlags)
* %ConverterFlags operator~(ConverterFlags)
* %ConverterFlags& operator|=(ConverterFlags&, ConverterFlags)
* %ConverterFlags& operator&=(ConverterFlags&, ConverterFlags)
* %ConverterFlags& operator^=(ConverterFlags&, ConverterFlags)
*/ enum ConverterFlags { CONVERTER_NO_FLAGS = 0x0, CONVERTER_INPUT_AT_END = (1 << 0), CONVERTER_FLUSH = (1 << 1) }; /** @ingroup giommEnums */ inline ConverterFlags operator|(ConverterFlags lhs, ConverterFlags rhs) { return static_cast(static_cast(lhs) | static_cast(rhs)); } /** @ingroup giommEnums */ inline ConverterFlags operator&(ConverterFlags lhs, ConverterFlags rhs) { return static_cast(static_cast(lhs) & static_cast(rhs)); } /** @ingroup giommEnums */ inline ConverterFlags operator^(ConverterFlags lhs, ConverterFlags rhs) { return static_cast(static_cast(lhs) ^ static_cast(rhs)); } /** @ingroup giommEnums */ inline ConverterFlags operator~(ConverterFlags flags) { return static_cast(~static_cast(flags)); } /** @ingroup giommEnums */ inline ConverterFlags& operator|=(ConverterFlags& lhs, ConverterFlags rhs) { return (lhs = static_cast(static_cast(lhs) | static_cast(rhs))); } /** @ingroup giommEnums */ inline ConverterFlags& operator&=(ConverterFlags& lhs, ConverterFlags rhs) { return (lhs = static_cast(static_cast(lhs) & static_cast(rhs))); } /** @ingroup giommEnums */ inline ConverterFlags& operator^=(ConverterFlags& lhs, ConverterFlags rhs) { return (lhs = static_cast(static_cast(lhs) ^ static_cast(rhs))); } } // namespace Gio #ifndef DOXYGEN_SHOULD_SKIP_THIS namespace Glib { template <> class GIOMM_API Value : public Glib::Value_Flags { public: static GType value_type() G_GNUC_CONST; }; } // namespace Glib #endif /* DOXYGEN_SHOULD_SKIP_THIS */ namespace Gio { /** Converter - Data conversion interface. * Converter is implemented by objects that convert binary data in various * ways. The conversion can be stateful and may fail at any place. * * Some example conversions are: character set conversion, compression, * decompression and regular expression replace. * * @newin{2,34} */ class GIOMM_API Converter : public Glib::Interface { #ifndef DOXYGEN_SHOULD_SKIP_THIS public: using CppObjectType = Converter; using CppClassType = Converter_Class; using BaseObjectType = GConverter; using BaseClassType = GConverterIface; // noncopyable Converter(const Converter&) = delete; Converter& operator=(const Converter&) = delete; private: friend class Converter_Class; static CppClassType converter_class_; #endif /* DOXYGEN_SHOULD_SKIP_THIS */ protected: /** * You should derive from this class to use it. */ Converter(); #ifndef DOXYGEN_SHOULD_SKIP_THIS /** Called by constructors of derived classes. Provide the result of * the Class init() function to ensure that it is properly * initialized. * * @param interface_class The Class object for the derived type. */ explicit Converter(const Glib::Interface_Class& interface_class); public: // This is public so that C++ wrapper instances can be // created for C instances of unwrapped types. // For instance, if an unexpected C type implements the C interface. explicit Converter(GConverter* castitem); protected: #endif /* DOXYGEN_SHOULD_SKIP_THIS */ public: Converter(Converter&& src) noexcept; Converter& operator=(Converter&& src) noexcept; ~Converter() noexcept override; static void add_interface(GType gtype_implementer); /** Get the GType for this class, for use with the underlying GObject type system. */ static GType get_type() G_GNUC_CONST; #ifndef DOXYGEN_SHOULD_SKIP_THIS static GType get_base_type() G_GNUC_CONST; #endif ///Provides access to the underlying C GObject. GConverter* gobj() { return reinterpret_cast(gobject_); } ///Provides access to the underlying C GObject. const GConverter* gobj() const { return reinterpret_cast(gobject_); } private: public: /** This is the main operation used when converting data. It is to be called * multiple times in a loop, and each time it will do some work, i.e. * producing some output (in @a outbuf) or consuming some input (from @a inbuf) or * both. If its not possible to do any work an error is returned. * * Note that a single call may not consume all input (or any input at all). * Also a call may produce output even if given no input, due to state stored * in the converter producing output. * * If any data was either produced or consumed, and then an error happens, then * only the successful conversion is reported and the error is returned on the * next call. * * A full conversion loop involves calling this method repeatedly, each time * giving it new input and space output space. When there is no more input * data after the data in @a inbuf, the flag CONVERTER_INPUT_AT_END must be set. * The loop will be (unless some error happens) returning CONVERTER_CONVERTED * each time until all data is consumed and all output is produced, then * CONVERTER_FINISHED is returned instead. Note, that CONVERTER_FINISHED * may be returned even if CONVERTER_INPUT_AT_END is not set, for instance * in a decompression converter where the end of data is detectable from the * data (and there might even be other data after the end of the compressed data). * * When some data has successfully been converted @a bytes_read and is set to * the number of bytes read from @a inbuf, and @a bytes_written is set to indicate * how many bytes was written to @a outbuf. If there are more data to output * or consume (i.e. unless the CONVERTER_INPUT_AT_END is specified) then * CONVERTER_CONVERTED is returned, and if no more data is to be output * then CONVERTER_FINISHED is returned. * * On error CONVERTER_ERROR is returned and @a error is set accordingly. * Some errors need special handling: * * IO_ERROR_NO_SPACE is returned if there is not enough space * to write the resulting converted data, the application should * call the function again with a larger @a outbuf to continue. * * IO_ERROR_PARTIAL_INPUT is returned if there is not enough * input to fully determine what the conversion should produce, * and the CONVERTER_INPUT_AT_END flag is not set. This happens for * example with an incomplete multibyte sequence when converting text, * or when a regexp matches up to the end of the input (and may match * further input). It may also happen when @a inbuf_size is zero and * there is no more data to produce. * * When this happens the application should read more input and then * call the function again. If further input shows that there is no * more data call the function again with the same data but with * the CONVERTER_INPUT_AT_END flag set. This may cause the conversion * to finish as e.g. in the regexp match case (or, to fail again with * IO_ERROR_PARTIAL_INPUT in e.g. a charset conversion where the * input is actually partial). * * After g_converter_convert() has returned CONVERTER_FINISHED the * converter object is in an invalid state where its not allowed * to call g_converter_convert() anymore. At this time you can only * free the object or call g_converter_reset() to reset it to the * initial state. * * If the flag CONVERTER_FLUSH is set then conversion is modified * to try to write out all internal state to the output. The application * has to call the function multiple times with the flag set, and when * the available input has been consumed and all internal state has * been produced then CONVERTER_FLUSHED (or CONVERTER_FINISHED if * really at the end) is returned instead of CONVERTER_CONVERTED. * This is somewhat similar to what happens at the end of the input stream, * but done in the middle of the data. * * This has different meanings for different conversions. For instance * in a compression converter it would mean that we flush all the * compression state into output such that if you uncompress the * compressed data you get back all the input data. Doing this may * make the final file larger due to padding though. Another example * is a regexp conversion, where if you at the end of the flushed data * have a match, but there is also a potential longer match. In the * non-flushed case we would ask for more input, but when flushing we * treat this as the end of input and do the match. * * Flushing is not always possible (like if a charset converter flushes * at a partial multibyte sequence). Converters are supposed to try * to produce as much output as possible and then return an error * (typically IO_ERROR_PARTIAL_INPUT). * * @newin{2,24} * * @param inbuf The buffer * containing the data to convert. * @param inbuf_size The number of bytes in @a inbuf. * @param outbuf A buffer to write * converted data in. * @param outbuf_size The number of bytes in @a outbuf, must be at least one. * @param flags A ConverterFlags controlling the conversion details. * @param bytes_read Will be set to the number of bytes read from @a inbuf on success. * @param bytes_written Will be set to the number of bytes written to @a outbuf on success. * @return A ConverterResult, CONVERTER_ERROR on error. * * @throws Glib::Error */ ConverterResult convert(const void* inbuf, gsize inbuf_size, void* outbuf, gsize outbuf_size, ConverterFlags flags, gsize& bytes_read, gsize& bytes_written); /** Resets all internal state in the converter, making it behave * as if it was just created. If the converter has any internal * state that would produce output then that output is lost. * * @newin{2,24} */ void reset(); /// @throws Glib::Error. virtual ConverterResult convert_vfunc(const void* inbuf, gsize inbuf_size, void* outbuf, gsize outbuf_size, ConverterFlags flags, gsize& bytes_read, gsize& bytes_written); virtual void reset_vfunc(); public: public: //C++ methods used to invoke GTK+ virtual functions: protected: //GTK+ Virtual Functions (override these to change behaviour): //Default Signal Handlers:: }; } // namespace Gio namespace Glib { /** A Glib::wrap() method for this object. * * @param object The C instance. * @param take_copy False if the result should take ownership of the C instance. True if it should take a new copy or ref. * @result A C++ instance that wraps this C instance. * * @relates Gio::Converter */ GIOMM_API Glib::RefPtr wrap(GConverter* object, bool take_copy = false); } // namespace Glib #endif /* _GIOMM_CONVERTER_H */