Amebis/ZRCola
Amebis/ZRCola
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ZRCola/lib/libZRCola/include/zrcola/language.h
Simon Rozman ebdbb84a29 Enable recommended code analysis and address warnings 
Signed-off-by: Simon Rozman <simon@rozman.si>
2020-02-13 13:18:11 +01:00

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/*
Copyright 2015-2020 Amebis
This file is part of ZRCola.
ZRCola is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
ZRCola 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with ZRCola. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include "common.h"
#include <stdex/idrec.h>
#include <istream>
#include <ostream>
#include <vector>
#include <string>
#pragma warning(push)
#pragma warning(disable: 4200)
#pragma warning(disable: 4251)
#pragma warning(disable: 4512)
namespace ZRCola {
///
/// Language Character Database
///
class ZRCOLA_API langchar_db {
public:
#pragma pack(push)
#pragma pack(2)
///
/// Character data
///
struct langchar {
public:
langid_t lang; ///< Language ID
protected:
unsigned __int16 chr_to; ///< Character end in \c data
wchar_t data[]; ///< Character
private:
inline langchar(_In_ const langchar &other);
inline langchar& operator=(_In_ const langchar &other);
public:
///
/// Constructs the language character
///
/// \param[in] lang Character language
/// \param[in] chr Character
/// \param[in] chr_len Number of UTF-16 characters in \p chr
///
inline langchar(
_In_opt_ langid_t lang = langid_t::blank,
_In_opt_z_count_(chr_len) const wchar_t *chr = NULL,
_In_opt_ size_t chr_len = 0)
{
this->lang = lang;
this->chr_to = static_cast<unsigned __int16>(chr_len);
if (chr && chr_len) memcpy(this->data, chr, sizeof(wchar_t)*chr_len);
}
inline const wchar_t* chr () const { return data; };
inline wchar_t* chr () { return data; };
inline const wchar_t* chr_end() const { return data + chr_to; };
inline wchar_t* chr_end() { return data + chr_to; };
inline unsigned __int16 chr_len() const { return chr_to; };
};
#pragma pack(pop)
///
/// Character index
///
class indexChr : public index<unsigned __int16, unsigned __int32, langchar>
{
public:
///
/// Constructs the index
///
/// \param[in] h Reference to vector holding the data
///
indexChr(_In_ std::vector<unsigned __int16> &h) : index<unsigned __int16, unsigned __int32, langchar>(h) {}
///
/// Compares two characters by ID (for searching)
///
/// \param[in] a Pointer to first element
/// \param[in] b Pointer to second element
///
/// \returns
/// - <0 when a < b
/// - =0 when a == b
/// - >0 when a > b
///
virtual int compare(_In_ const langchar &a, _In_ const langchar &b) const
{
int r = ZRCola::CompareString(a.chr(), a.chr_len(), b.chr(), b.chr_len());
if (r != 0) return r;
if (a.lang < b.lang) return -1;
else if (a.lang > b.lang) return 1;
return 0;
}
} idxChr; ///< Character index
#ifdef ZRCOLA_LANGCHAR_LANG_IDX
///
/// Language Index
///
class indexLang : public index<unsigned __int16, unsigned __int32, langchar>
{
public:
///
/// Constructs the index
///
/// \param[in] h Reference to vector holding the data
///
indexLang(_In_ std::vector<unsigned __int16> &h) : index<unsigned __int16, unsigned __int32, langchar>(h) {}
///
/// Compares two languages by ID (for searching)
///
/// \param[in] a Pointer to first element
/// \param[in] b Pointer to second element
///
/// \returns
/// - <0 when a < b
/// - =0 when a == b
/// - >0 when a > b
///
virtual int compare(_In_ const langchar &a, _In_ const langchar &b) const
{
if (a.lang < b.lang) return -1;
else if (a.lang > b.lang) return 1;
int r = ZRCola::CompareString(a.chr, a.chr_len(), b.chr(), b.chr_len());
if (r != 0) return r;
return 0;
}
} idxLang; ///< Language index
#endif
std::vector<unsigned __int16> data; ///< Character data
public:
///
/// Constructs the database
///
inline langchar_db() : idxChr(data)
#ifdef ZRCOLA_LANGCHAR_LANG_IDX
, idxLang(data)
#endif
{}
///
/// Clears the database
///
inline void clear()
{
idxChr .clear();
#ifdef ZRCOLA_LANGCHAR_LANG_IDX
idxLang.clear();
#endif
data .clear();
}
///
/// Tests presence of character in the given language
///
/// \param[in] chr Pointer to character
/// \param[in] chr_end Pointer to character end
/// \param[in] lang Language
///
/// \returns
/// - \c true when character is used in language
/// - \c false otherwise
bool IsLocalCharacter(_In_ const wchar_t *chr, _In_ const wchar_t *chr_end, _In_ langid_t lang) const;
};
typedef ZRCOLA_API stdex::idrec::record<langchar_db, recordid_t, recordsize_t, ZRCOLA_RECORD_ALIGN> langchar_rec;
///
/// Language database
///
class ZRCOLA_API language_db {
public:
#pragma pack(push)
#pragma pack(2)
///
/// Language data
///
struct language {
public:
langid_t lang; ///< Language ID
protected:
unsigned __int16 name_to; ///< Language name end in \c data
wchar_t data[]; ///< Language name
private:
inline language(_In_ const language &other);
inline language& operator=(_In_ const language &other);
public:
///
/// Constructs the language
///
/// \param[in] lang Language ID
/// \param[in] name Language name
/// \param[in] name_len Number of UTF-16 characters in \p name
///
inline language(
_In_opt_ langid_t lang = langid_t::blank,
_In_opt_z_count_(name_len) const wchar_t *name = NULL,
_In_opt_ size_t name_len = 0)
{
this->lang = lang;
this->name_to = static_cast<unsigned __int16>(name_len);
if (name && name_len) memcpy(this->data, name, sizeof(wchar_t)*name_len);
}
inline const wchar_t* name () const { return data; };
inline wchar_t* name () { return data; };
inline const wchar_t* name_end() const { return data + name_to; };
inline wchar_t* name_end() { return data + name_to; };
inline unsigned __int16 name_len() const { return name_to; };
};
#pragma pack(pop)
///
/// Language index
///
class indexLang : public index<unsigned __int16, unsigned __int32, language>
{
public:
///
/// Constructs the index
///
/// \param[in] h Reference to vector holding the data
///
indexLang(_In_ std::vector<unsigned __int16> &h) : index<unsigned __int16, unsigned __int32, language>(h) {}
///
/// Compares two languages by ID (for searching)
///
/// \param[in] a Pointer to first element
/// \param[in] b Pointer to second element
///
/// \returns
/// - <0 when a < b
/// - =0 when a == b
/// - >0 when a > b
///
virtual int compare(_In_ const language &a, _In_ const language &b) const
{
if (a.lang < b.lang) return -1;
else if (a.lang > b.lang) return 1;
return 0;
}
} idxLang; ///< Language index
std::vector<unsigned __int16> data; ///< Language data
public:
///
/// Constructs the database
///
inline language_db() : idxLang(data) {}
///
/// Clears the database
///
inline void clear()
{
idxLang.clear();
data .clear();
}
};
typedef ZRCOLA_API stdex::idrec::record<language_db, recordid_t, recordsize_t, ZRCOLA_RECORD_ALIGN> language_rec;
};
const ZRCola::recordid_t ZRCola::langchar_rec::id = *(ZRCola::recordid_t*)"L-C";
const ZRCola::recordid_t ZRCola::language_rec::id = *(ZRCola::recordid_t*)"LNG";
///
/// Writes language character database to a stream
///
/// \param[in] stream Output stream
/// \param[in] db Language character database
///
/// \returns The stream \p stream
///
inline std::ostream& operator <<(_In_ std::ostream& stream, _In_ const ZRCola::langchar_db &db)
{
// Write character index.
if (stream.fail()) return stream;
stream << db.idxChr;
#ifdef ZRCOLA_LANGCHAR_LANG_IDX
// Write language index.
if (stream.fail()) return stream;
stream << db.idxLang;
#endif
// Write data count.
auto data_count = db.data.size();
#if defined(_WIN64) || defined(__x86_64__) || defined(__ppc64__)
// 4G check
if (data_count > 0xffffffff) {
stream.setstate(std::ios_base::failbit);
return stream;
}
#endif
if (stream.fail()) return stream;
unsigned __int32 count = (unsigned __int32)data_count;
stream.write((const char*)&count, sizeof(count));
// Write data.
if (stream.fail()) return stream;
stream.write((const char*)db.data.data(), sizeof(unsigned __int16)*static_cast<std::streamsize>(count));
return stream;
}
///
/// Reads language character database from a stream
///
/// \param[in ] stream Input stream
/// \param[out] db Language character database
///
/// \returns The stream \p stream
///
inline std::istream& operator >>(_In_ std::istream& stream, _Out_ ZRCola::langchar_db &db)
{
// Read character index.
stream >> db.idxChr;
if (!stream.good()) return stream;
#ifdef ZRCOLA_LANGCHAR_LANG_IDX
// Read language index.
stream >> db.idxLang;
if (!stream.good()) return stream;
#endif
// Read data count.
unsigned __int32 count;
stream.read((char*)&count, sizeof(count));
if (!stream.good()) return stream;
if (count) {
// Read data.
db.data.resize(count);
stream.read((char*)db.data.data(), sizeof(unsigned __int16)*static_cast<std::streamsize>(count));
} else
db.data.clear();
return stream;
}
///
/// Writes language database to a stream
///
/// \param[in] stream Output stream
/// \param[in] db Language database
///
/// \returns The stream \p stream
///
inline std::ostream& operator <<(_In_ std::ostream& stream, _In_ const ZRCola::language_db &db)
{
// Write language index.
if (stream.fail()) return stream;
stream << db.idxLang;
// Write data count.
auto data_count = db.data.size();
#if defined(_WIN64) || defined(__x86_64__) || defined(__ppc64__)
// 4G check
if (data_count > 0xffffffff) {
stream.setstate(std::ios_base::failbit);
return stream;
}
#endif
if (stream.fail()) return stream;
unsigned __int32 count = (unsigned __int32)data_count;
stream.write((const char*)&count, sizeof(count));
// Write data.
if (stream.fail()) return stream;
stream.write((const char*)db.data.data(), sizeof(unsigned __int16)*static_cast<std::streamsize>(count));
return stream;
}
///
/// Reads language database from a stream
///
/// \param[in ] stream Input stream
/// \param[out] db Language database
///
/// \returns The stream \p stream
///
inline std::istream& operator >>(_In_ std::istream& stream, _Out_ ZRCola::language_db &db)
{
// Read language index.
stream >> db.idxLang;
if (!stream.good()) return stream;
// Read data count.
unsigned __int32 count;
stream.read((char*)&count, sizeof(count));
if (!stream.good()) return stream;
if (count) {
// Read data.
db.data.resize(count);
stream.read((char*)db.data.data(), sizeof(unsigned __int16)*static_cast<std::streamsize>(count));
} else
db.data.clear();
return stream;
}
#pragma warning(pop)
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