/usr/include/ui-utilcpp/Recoder.hpp is in libui-utilcpp-dev 1.8.5-1+b2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* @file
*/
#ifndef UI_UTIL_RECODER_HPP
#define UI_UTIL_RECODER_HPP
// STDC++
#include <string>
#include <map>
// C libraries
#ifdef WIN32
#define PARAMS(Args) Args
#else
#include <recodext.h>
#endif
// C++ libraries
#include <ui-utilcpp/Exception.hpp>
#include <ui-utilcpp/Misc.hpp>
namespace UI {
namespace Util {
/** @brief Holder class for conversion results. */
class Conversion
{
private:
char const * const cStr_;
size_t const cSize_;
public:
/** @brief Constructor. */
Conversion(char const * const cStr, size_t const cSize);
virtual ~Conversion();
/** @brief Get conversion data.
*
* @note: This is a C-String, i.e., it always ends in a
* zero-byte. However, there also may be zero-bytes in between
* (depending on the encoding); you would also need getSize() in
* that case.
*/
char const * get() const;
/** @brief Get size (in bytes) of conversion data. */
size_t getSize() const;
/** @brief Get std::string copy of conversion data.
*
* @note This copies the whole conversion (not only the C-String)
* into the std::string (@see get()).
*/
std::string getString() const;
};
/** @brief Conversion w/ std::free call on the supplied C-String. */
class StdFreeConversion: public Conversion
{
private:
void * freeObject_;
public:
/** @brief Constructor. cStr will be std::free'd. */
StdFreeConversion(char * cStr, size_t const cSize);
virtual ~StdFreeConversion();
};
/** @brief Conversion w/ std::string holder. */
class StringConversion: public Conversion
{
private:
std::string * delObject_;
public:
/** @brief Constructor. str will be delete'd. */
StringConversion(std::string * str);
virtual ~StringConversion();
};
/** @brief Factory for Conversions. */
class Converter
{
public:
/** @brief Error codes for exceptions. */
enum ErrorCode
{
EncUnknown_,
ConversionErr_,
UnknownErr_
};
/** @brief Exceptions for this class. */
typedef CodeException<ErrorCode> Exception;
/** @brief Converter base constructor. */
Converter(std::string const & inEnc, std::string const & outEnc, bool const & sloppy=false);
virtual ~Converter();
/** @brief Convert from byte buffer. */
virtual Conversion const * make(char const * const buf, size_t const bufSize) const = 0;
/** @brief Convert from C-String. */
Conversion const * make(char const * const cStr) const;
/** @brief Convert from std::string. */
Conversion const * make(std::string const & str) const;
/** @brief Get id (informational). */
std::string getID() const;
protected:
/** @name Input/output encoding and sloppy conversion flag.
* @{ */
std::string const inEnc_;
std::string const outEnc_;
bool const sloppy_;
//* @} */
};
#ifndef WIN32
/** @brief Converter based on librecode (see there). */
class LibRecodeConverter: public Converter
{
private:
RECODE_OUTER outer_;
RECODE_REQUEST request_;
/** @brief Verbatim from librecode. */
static void guarantee_nul_terminator(RECODE_TASK task);
public:
/** @brief Constructor; this supports sloppy encoding if desired. */
LibRecodeConverter(std::string const & inEnc, std::string const & outEnc, bool const & sloppy=false);
virtual ~LibRecodeConverter();
Conversion const * make(char const * const buf, size_t const bufSize) const;
};
#endif
/** @brief Character set converter, using libc's "iconv" directly. */
class IConvConverter: public Converter
{
private:
iconv_t conversion_;
public:
/** @brief Constructor; this does not support sloppy encoding. */
IConvConverter(std::string const & inEnc, std::string const & outEnc, const bool & sloppy = false);
virtual ~IConvConverter();
Conversion const * make(char const * const buf, size_t const bufSize) const;
};
/** @brief Converter for URL-Encoding. */
class URLConverter: public Converter
{
public:
/** @brief Constructor; inEnc and outEnc are fixed by the encode flag. */
URLConverter(bool const encode=true);
Conversion const * make(char const * const buf, size_t const bufSize) const;
/** @note All below is copied 1-1 from the from URL class. */
private:
static const unsigned char MinNum = 0x30;
static const unsigned char MaxNum = 0x39;
static const unsigned char MinAlp = 0x41;
static const unsigned char MaxAlp = 0x46;
static const unsigned char NumMod = 0x30;
static const unsigned char AlpMod = 0x37;
static const unsigned char MinAlp2 = 0x61;
static const unsigned char MaxAlp2 = 0x66;
static const unsigned char AlpMod2 = 0x57;
/** @brief Convert an ASCII representation of a hex digit into its byte value e.g. : "b" = '00001011" = 11.
*
* @param in the hex digit ASCII code
*
* @returns the byte value of the hex digit
*/
static unsigned char number(unsigned char in);
public:
/**@brief Encode an URL string.
*
* The following rules are applied in the conversion:
* The alphanumeric characters "a" through "z", "A" through "Z" and "0" through "9"
* remain the same.
* The special characters ".", "-", "*", and "_" remain the same.
* The space character " " is converted into a plus sign "+".
* The other special characters will be converted in a sequence of the form "%xy"
* which epresenting a byte where xy is the two-digit hexadecimal representation of
* the 8 bits.
*
* @param url the URL to encode
*
* @returns the encoded URL
*/
static std::string encode(std::string const & url);
/** @brief Decode an URL encoded string.
*
* The following rules are applied in the conversion:
* The alphanumeric characters "a" through "z", "A" through "Z" and "0" through "9"
* remain the same.
* The special characters ".", "-", "*", and "_" remain the same.
* The plus sign "+" is converted into a space character " ".
* A sequence of the form "%xy" will be treated as representing a byte where xy is
* the two-digit hexadecimal representation of the 8 bits.
*
* @param url the encoded URL string
*
* @returns the decoded URL
*/
static std::string decode(std::string const & url);
};
/** @brief Converter for Base64 encoding, using CommonCpp functions. */
class Cpp2Base64Converter: public Converter
{
public:
/** @brief Constructor; inEnc and outEnc are fixed by the encode flag. */
Cpp2Base64Converter(bool const encode=true);
Conversion const * make(char const * const buf, size_t const bufSize) const;
};
/** @brief Converter charEncoding -> rfc2047 (MIME). */
class Rfc2047Converter: public Converter
{
public:
/** @brief Constructor; inEnc and outEnc are fixed by the encode flag. */
Rfc2047Converter(std::string const & inCharEnc);
Conversion const * make(char const * const buf, size_t const bufSize) const;
};
/** @brief Converter UTF-8 <-> rfc3490 (IDN). */
class Rfc3490Utf8Converter: public Converter
{
public:
/** @brief Constructor; inEnc and outEnc are fixed by the encode flag. */
Rfc3490Utf8Converter(bool const encode=true);
Conversion const * make(char const * const buf, size_t const bufSize) const;
};
/** @brief Converter from an-char-encoded string with randomly placed email-adresse -> the same string w/ domain parts magically replaced with IDN-encoding. */
class IdnEMailConverter: public Converter
{
public:
/** @brief Constructor; inEnc and outEnc are fixed by the encode flag. */
IdnEMailConverter(std::string const & inEnc);
Conversion const * make(char const * const buf, size_t const bufSize) const;
};
/** @brief Meta converter class: converter switcher and generic interface. */
class Recoder
{
private:
bool isEnc(std::string const & enc, std::string const & encs) const;
Converter const * converter_;
public:
/** @brief Constructor; sloppy is only supported by some converters. */
Recoder(std::string const & inEnc, std::string const & outEnc, bool const & sloppy=false);
~Recoder();
/** @name Run conversions.
*
* - Use non-factory methods "run" for temporary/small conversions.
* - Use factory methods "make" if results are kept, or your conversion
* is big and you want to optimize your code.
*
* @note Note again that Converter's are factories for
* Conversion's. If you use a methode here returning a Conversion
* pointer, you are reponsible for deletion as well.
*
* @{ */
Conversion const * make(char const * src, size_t srcSize) const;
Conversion const * make(char const * src) const;
std::string run(char const * const buf, size_t const bufSize) const;
std::string run(char const * const src) const;
std::string run(std::string const & src) const;
/** @} */
};
/** @brief This can be used to cache recoder instances.
*
* @note You really should use this instead of repeatedly creating
* temporary Recoder instances -- first, as it's expensive (at least
* for librecode), and second, librecode converters have a rather huge
* memory leak.
*/
class RecoderCache
{
public:
static Recoder const & get(std::string const & inEnc, std::string const & outEnc, bool const & sloppy=false);
~RecoderCache();
private:
typedef std::map<std::string, Recoder *> RecoderMap;
RecoderMap cache_;
static RecoderCache * instance_;
};
}}
#endif
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