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Diffstat (limited to 'src/server/shared/Utilities/Util.h')
| -rw-r--r-- | src/server/shared/Utilities/Util.h | 545 |
1 files changed, 0 insertions, 545 deletions
diff --git a/src/server/shared/Utilities/Util.h b/src/server/shared/Utilities/Util.h deleted file mode 100644 index 3da1c800410..00000000000 --- a/src/server/shared/Utilities/Util.h +++ /dev/null @@ -1,545 +0,0 @@ -/* - * Copyright (C) 2008-2015 TrinityCore <http://www.trinitycore.org/> - * Copyright (C) 2005-2009 MaNGOS <http://getmangos.com/> - * - * This program 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 2 of the License, or (at your - * option) any later version. - * - * This program 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 this program. If not, see <http://www.gnu.org/licenses/>. - */ - -#ifndef _UTIL_H -#define _UTIL_H - -#include "Define.h" -#include "Errors.h" - -#include <algorithm> -#include <string> -#include <vector> -#include <list> -#include <map> - -// Searcher for map of structs -template<typename T, class S> struct Finder -{ - T val_; - T S::* idMember_; - - Finder(T val, T S::* idMember) : val_(val), idMember_(idMember) {} - bool operator()(const std::pair<int, S> &obj) { return obj.second.*idMember_ == val_; } -}; - -class Tokenizer -{ -public: - typedef std::vector<char const*> StorageType; - - typedef StorageType::size_type size_type; - - typedef StorageType::const_iterator const_iterator; - typedef StorageType::reference reference; - typedef StorageType::const_reference const_reference; - -public: - Tokenizer(const std::string &src, char const sep, uint32 vectorReserve = 0); - ~Tokenizer() { delete[] m_str; } - - const_iterator begin() const { return m_storage.begin(); } - const_iterator end() const { return m_storage.end(); } - - size_type size() const { return m_storage.size(); } - - reference operator [] (size_type i) { return m_storage[i]; } - const_reference operator [] (size_type i) const { return m_storage[i]; } - -private: - char* m_str; - StorageType m_storage; -}; - -void stripLineInvisibleChars(std::string &src); - -int32 MoneyStringToMoney(const std::string& moneyString); - -struct tm* localtime_r(const time_t* time, struct tm *result); - -std::string secsToTimeString(uint64 timeInSecs, bool shortText = false, bool hoursOnly = false); -uint32 TimeStringToSecs(const std::string& timestring); -std::string TimeToTimestampStr(time_t t); - -/* Return a random number in the range min..max. */ -int32 irand(int32 min, int32 max); - -/* Return a random number in the range min..max (inclusive). */ -uint32 urand(uint32 min, uint32 max); - -/* Return a random number in the range 0 .. UINT32_MAX. */ -uint32 rand32(); - -/* Return a random number in the range min..max */ -float frand(float min, float max); - -/* Return a random double from 0.0 to 1.0 (exclusive). */ -double rand_norm(); - -/* Return a random double from 0.0 to 100.0 (exclusive). */ -double rand_chance(); - -/* Return true if a random roll fits in the specified chance (range 0-100). */ -inline bool roll_chance_f(float chance) -{ - return chance > rand_chance(); -} - -/* Return true if a random roll fits in the specified chance (range 0-100). */ -inline bool roll_chance_i(int chance) -{ - return chance > irand(0, 99); -} - -inline void ApplyPercentModFloatVar(float& var, float val, bool apply) -{ - if (val == -100.0f) // prevent set var to zero - val = -99.99f; - var *= (apply ? (100.0f + val) / 100.0f : 100.0f / (100.0f + val)); -} - -// Percentage calculation -template <class T, class U> -inline T CalculatePct(T base, U pct) -{ - return T(base * static_cast<float>(pct) / 100.0f); -} - -template <class T, class U> -inline T AddPct(T &base, U pct) -{ - return base += CalculatePct(base, pct); -} - -template <class T, class U> -inline T ApplyPct(T &base, U pct) -{ - return base = CalculatePct(base, pct); -} - -template <class T> -inline T RoundToInterval(T& num, T floor, T ceil) -{ - return num = std::min(std::max(num, floor), ceil); -} - -// UTF8 handling -bool Utf8toWStr(const std::string& utf8str, std::wstring& wstr); -// in wsize==max size of buffer, out wsize==real string size -bool Utf8toWStr(char const* utf8str, size_t csize, wchar_t* wstr, size_t& wsize); -inline bool Utf8toWStr(const std::string& utf8str, wchar_t* wstr, size_t& wsize) -{ - return Utf8toWStr(utf8str.c_str(), utf8str.size(), wstr, wsize); -} - -bool WStrToUtf8(std::wstring const& wstr, std::string& utf8str); -// size==real string size -bool WStrToUtf8(wchar_t* wstr, size_t size, std::string& utf8str); - -size_t utf8length(std::string& utf8str); // set string to "" if invalid utf8 sequence -void utf8truncate(std::string& utf8str, size_t len); - -inline bool isBasicLatinCharacter(wchar_t wchar) -{ - if (wchar >= L'a' && wchar <= L'z') // LATIN SMALL LETTER A - LATIN SMALL LETTER Z - return true; - if (wchar >= L'A' && wchar <= L'Z') // LATIN CAPITAL LETTER A - LATIN CAPITAL LETTER Z - return true; - return false; -} - -inline bool isExtendedLatinCharacter(wchar_t wchar) -{ - if (isBasicLatinCharacter(wchar)) - return true; - if (wchar >= 0x00C0 && wchar <= 0x00D6) // LATIN CAPITAL LETTER A WITH GRAVE - LATIN CAPITAL LETTER O WITH DIAERESIS - return true; - if (wchar >= 0x00D8 && wchar <= 0x00DE) // LATIN CAPITAL LETTER O WITH STROKE - LATIN CAPITAL LETTER THORN - return true; - if (wchar == 0x00DF) // LATIN SMALL LETTER SHARP S - return true; - if (wchar >= 0x00E0 && wchar <= 0x00F6) // LATIN SMALL LETTER A WITH GRAVE - LATIN SMALL LETTER O WITH DIAERESIS - return true; - if (wchar >= 0x00F8 && wchar <= 0x00FE) // LATIN SMALL LETTER O WITH STROKE - LATIN SMALL LETTER THORN - return true; - if (wchar >= 0x0100 && wchar <= 0x012F) // LATIN CAPITAL LETTER A WITH MACRON - LATIN SMALL LETTER I WITH OGONEK - return true; - if (wchar == 0x1E9E) // LATIN CAPITAL LETTER SHARP S - return true; - return false; -} - -inline bool isCyrillicCharacter(wchar_t wchar) -{ - if (wchar >= 0x0410 && wchar <= 0x044F) // CYRILLIC CAPITAL LETTER A - CYRILLIC SMALL LETTER YA - return true; - if (wchar == 0x0401 || wchar == 0x0451) // CYRILLIC CAPITAL LETTER IO, CYRILLIC SMALL LETTER IO - return true; - return false; -} - -inline bool isEastAsianCharacter(wchar_t wchar) -{ - if (wchar >= 0x1100 && wchar <= 0x11F9) // Hangul Jamo - return true; - if (wchar >= 0x3041 && wchar <= 0x30FF) // Hiragana + Katakana - return true; - if (wchar >= 0x3131 && wchar <= 0x318E) // Hangul Compatibility Jamo - return true; - if (wchar >= 0x31F0 && wchar <= 0x31FF) // Katakana Phonetic Ext. - return true; - if (wchar >= 0x3400 && wchar <= 0x4DB5) // CJK Ideographs Ext. A - return true; - if (wchar >= 0x4E00 && wchar <= 0x9FC3) // Unified CJK Ideographs - return true; - if (wchar >= 0xAC00 && wchar <= 0xD7A3) // Hangul Syllables - return true; - if (wchar >= 0xFF01 && wchar <= 0xFFEE) // Halfwidth forms - return true; - return false; -} - -inline bool isNumeric(wchar_t wchar) -{ - return (wchar >= L'0' && wchar <=L'9'); -} - -inline bool isNumeric(char c) -{ - return (c >= '0' && c <='9'); -} - -inline bool isNumeric(char const* str) -{ - for (char const* c = str; *c; ++c) - if (!isNumeric(*c)) - return false; - - return true; -} - -inline bool isNumericOrSpace(wchar_t wchar) -{ - return isNumeric(wchar) || wchar == L' '; -} - -inline bool isBasicLatinString(const std::wstring &wstr, bool numericOrSpace) -{ - for (size_t i = 0; i < wstr.size(); ++i) - if (!isBasicLatinCharacter(wstr[i]) && (!numericOrSpace || !isNumericOrSpace(wstr[i]))) - return false; - return true; -} - -inline bool isExtendedLatinString(const std::wstring &wstr, bool numericOrSpace) -{ - for (size_t i = 0; i < wstr.size(); ++i) - if (!isExtendedLatinCharacter(wstr[i]) && (!numericOrSpace || !isNumericOrSpace(wstr[i]))) - return false; - return true; -} - -inline bool isCyrillicString(const std::wstring &wstr, bool numericOrSpace) -{ - for (size_t i = 0; i < wstr.size(); ++i) - if (!isCyrillicCharacter(wstr[i]) && (!numericOrSpace || !isNumericOrSpace(wstr[i]))) - return false; - return true; -} - -inline bool isEastAsianString(const std::wstring &wstr, bool numericOrSpace) -{ - for (size_t i = 0; i < wstr.size(); ++i) - if (!isEastAsianCharacter(wstr[i]) && (!numericOrSpace || !isNumericOrSpace(wstr[i]))) - return false; - return true; -} - -inline wchar_t wcharToUpper(wchar_t wchar) -{ - if (wchar >= L'a' && wchar <= L'z') // LATIN SMALL LETTER A - LATIN SMALL LETTER Z - return wchar_t(uint16(wchar)-0x0020); - if (wchar == 0x00DF) // LATIN SMALL LETTER SHARP S - return wchar_t(0x1E9E); - if (wchar >= 0x00E0 && wchar <= 0x00F6) // LATIN SMALL LETTER A WITH GRAVE - LATIN SMALL LETTER O WITH DIAERESIS - return wchar_t(uint16(wchar)-0x0020); - if (wchar >= 0x00F8 && wchar <= 0x00FE) // LATIN SMALL LETTER O WITH STROKE - LATIN SMALL LETTER THORN - return wchar_t(uint16(wchar)-0x0020); - if (wchar >= 0x0101 && wchar <= 0x012F) // LATIN SMALL LETTER A WITH MACRON - LATIN SMALL LETTER I WITH OGONEK (only %2=1) - { - if (wchar % 2 == 1) - return wchar_t(uint16(wchar)-0x0001); - } - if (wchar >= 0x0430 && wchar <= 0x044F) // CYRILLIC SMALL LETTER A - CYRILLIC SMALL LETTER YA - return wchar_t(uint16(wchar)-0x0020); - if (wchar == 0x0451) // CYRILLIC SMALL LETTER IO - return wchar_t(0x0401); - - return wchar; -} - -inline wchar_t wcharToUpperOnlyLatin(wchar_t wchar) -{ - return isBasicLatinCharacter(wchar) ? wcharToUpper(wchar) : wchar; -} - -inline wchar_t wcharToLower(wchar_t wchar) -{ - if (wchar >= L'A' && wchar <= L'Z') // LATIN CAPITAL LETTER A - LATIN CAPITAL LETTER Z - return wchar_t(uint16(wchar)+0x0020); - if (wchar >= 0x00C0 && wchar <= 0x00D6) // LATIN CAPITAL LETTER A WITH GRAVE - LATIN CAPITAL LETTER O WITH DIAERESIS - return wchar_t(uint16(wchar)+0x0020); - if (wchar >= 0x00D8 && wchar <= 0x00DE) // LATIN CAPITAL LETTER O WITH STROKE - LATIN CAPITAL LETTER THORN - return wchar_t(uint16(wchar)+0x0020); - if (wchar >= 0x0100 && wchar <= 0x012E) // LATIN CAPITAL LETTER A WITH MACRON - LATIN CAPITAL LETTER I WITH OGONEK (only %2=0) - { - if (wchar % 2 == 0) - return wchar_t(uint16(wchar)+0x0001); - } - if (wchar == 0x1E9E) // LATIN CAPITAL LETTER SHARP S - return wchar_t(0x00DF); - if (wchar == 0x0401) // CYRILLIC CAPITAL LETTER IO - return wchar_t(0x0451); - if (wchar >= 0x0410 && wchar <= 0x042F) // CYRILLIC CAPITAL LETTER A - CYRILLIC CAPITAL LETTER YA - return wchar_t(uint16(wchar)+0x0020); - - return wchar; -} - -inline void wstrToUpper(std::wstring& str) -{ - std::transform( str.begin(), str.end(), str.begin(), wcharToUpper ); -} - -inline void wstrToLower(std::wstring& str) -{ - std::transform( str.begin(), str.end(), str.begin(), wcharToLower ); -} - -std::wstring GetMainPartOfName(std::wstring const& wname, uint32 declension); - -bool utf8ToConsole(const std::string& utf8str, std::string& conStr); -bool consoleToUtf8(const std::string& conStr, std::string& utf8str); -bool Utf8FitTo(const std::string& str, std::wstring const& search); -void utf8printf(FILE* out, const char *str, ...); -void vutf8printf(FILE* out, const char *str, va_list* ap); - -bool IsIPAddress(char const* ipaddress); - -uint32 CreatePIDFile(const std::string& filename); - -std::string ByteArrayToHexStr(uint8 const* bytes, uint32 length, bool reverse = false); - -// simple class for not-modifyable list -template <typename T> -class HookList -{ - typedef typename std::list<T>::iterator ListIterator; - private: - typename std::list<T> m_list; - public: - HookList<T> & operator+=(T t) - { - m_list.push_back(t); - return *this; - } - HookList<T> & operator-=(T t) - { - m_list.remove(t); - return *this; - } - size_t size() - { - return m_list.size(); - } - ListIterator begin() - { - return m_list.begin(); - } - ListIterator end() - { - return m_list.end(); - } -}; - -class flag96 -{ -private: - uint32 part[3]; - -public: - flag96(uint32 p1 = 0, uint32 p2 = 0, uint32 p3 = 0) - { - part[0] = p1; - part[1] = p2; - part[2] = p3; - } - - inline bool IsEqual(uint32 p1 = 0, uint32 p2 = 0, uint32 p3 = 0) const - { - return (part[0] == p1 && part[1] == p2 && part[2] == p3); - } - - inline bool HasFlag(uint32 p1 = 0, uint32 p2 = 0, uint32 p3 = 0) const - { - return (part[0] & p1 || part[1] & p2 || part[2] & p3); - } - - inline void Set(uint32 p1 = 0, uint32 p2 = 0, uint32 p3 = 0) - { - part[0] = p1; - part[1] = p2; - part[2] = p3; - } - - inline bool operator <(const flag96 &right) const - { - for (uint8 i = 3; i > 0; --i) - { - if (part[i - 1] < right.part[i - 1]) - return true; - else if (part[i - 1] > right.part[i - 1]) - return false; - } - return false; - } - - inline bool operator ==(const flag96 &right) const - { - return - ( - part[0] == right.part[0] && - part[1] == right.part[1] && - part[2] == right.part[2] - ); - } - - inline bool operator !=(const flag96 &right) const - { - return !this->operator ==(right); - } - - inline flag96 & operator =(const flag96 &right) - { - part[0] = right.part[0]; - part[1] = right.part[1]; - part[2] = right.part[2]; - return *this; - } - - inline flag96 operator &(const flag96 &right) const - { - return flag96(part[0] & right.part[0], part[1] & right.part[1], - part[2] & right.part[2]); - } - - inline flag96 & operator &=(const flag96 &right) - { - part[0] &= right.part[0]; - part[1] &= right.part[1]; - part[2] &= right.part[2]; - return *this; - } - - inline flag96 operator |(const flag96 &right) const - { - return flag96(part[0] | right.part[0], part[1] | right.part[1], - part[2] | right.part[2]); - } - - inline flag96 & operator |=(const flag96 &right) - { - part[0] |= right.part[0]; - part[1] |= right.part[1]; - part[2] |= right.part[2]; - return *this; - } - - inline flag96 operator ~() const - { - return flag96(~part[0], ~part[1], ~part[2]); - } - - inline flag96 operator ^(const flag96 &right) const - { - return flag96(part[0] ^ right.part[0], part[1] ^ right.part[1], - part[2] ^ right.part[2]); - } - - inline flag96 & operator ^=(const flag96 &right) - { - part[0] ^= right.part[0]; - part[1] ^= right.part[1]; - part[2] ^= right.part[2]; - return *this; - } - - inline operator bool() const - { - return (part[0] != 0 || part[1] != 0 || part[2] != 0); - } - - inline bool operator !() const - { - return !this->operator bool(); - } - - inline uint32 & operator [](uint8 el) - { - return part[el]; - } - - inline const uint32 & operator [](uint8 el) const - { - return part[el]; - } -}; - -enum ComparisionType -{ - COMP_TYPE_EQ = 0, - COMP_TYPE_HIGH, - COMP_TYPE_LOW, - COMP_TYPE_HIGH_EQ, - COMP_TYPE_LOW_EQ, - COMP_TYPE_MAX -}; - -template <class T> -bool CompareValues(ComparisionType type, T val1, T val2) -{ - switch (type) - { - case COMP_TYPE_EQ: - return val1 == val2; - case COMP_TYPE_HIGH: - return val1 > val2; - case COMP_TYPE_LOW: - return val1 < val2; - case COMP_TYPE_HIGH_EQ: - return val1 >= val2; - case COMP_TYPE_LOW_EQ: - return val1 <= val2; - default: - // incorrect parameter - ASSERT(false); - return false; - } -} - -#endif |