/* Facebook plugin for Miranda Instant Messenger _____________________________________________ Copyright © 2009-11 Michal Zelinka, 2011-13 Robert Pösel 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 . */ #pragma once // C++ bool type #define UTILS_CONV_BOOLEAN 0x0001 // true | false // signed regular numbers #define UTILS_CONV_SIGNED_NUMBER 0x0010 // 1234 | -1234 // unsigned regular numbers #define UTILS_CONV_UNSIGNED_NUMBER 0x0020 // 1234 // miscellaneous #define UTILS_CONV_TIME_T 0x0040 // 1234567890 template void CreateProtoService(const char *module,const char *service, int (__cdecl T::*serviceProc)(WPARAM,LPARAM),T *self) { char temp[MAX_PATH*2]; mir_snprintf(temp,sizeof(temp),"%s%s",module,service); CreateServiceFunctionObj(temp,(MIRANDASERVICEOBJ)*(void**)&serviceProc, self); } template void HookProtoEvent(const char* evt, int (__cdecl T::*eventProc)(WPARAM,LPARAM), T *self) { ::HookEventObj(evt,(MIRANDAHOOKOBJ)*(void**)&eventProc,self); } template HANDLE ForkThreadEx(void (__cdecl T::*thread)(void*),T *self,void *data = 0) { return reinterpret_cast(mir_forkthreadowner( (pThreadFuncOwner)*(void**)&thread,self,data,0)); } template void ForkThread(void (__cdecl T::*thread)(void*),T *self,void *data = 0) { CloseHandle(ForkThreadEx(thread,self,data)); } namespace utils { namespace url { std::string encode(const std::string &s); std::string decode(std::string data); }; namespace time { std::string unix_timestamp(); std::string mili_timestamp(); DWORD fix_timestamp(double); }; namespace number { int random(); }; namespace text { void replace_first(std::string* data, std::string from, std::string to); void replace_all(std::string* data, std::string from, std::string to); unsigned int count_all(std::string* data, std::string term); std::string special_expressions_decode(std::string data); std::string edit_html(std::string data); std::string remove_html(std::string data); std::string slashu_to_utf8(std::string data); std::string trim(std::string data, bool rtrim = false); std::string source_get_value(std::string* data, unsigned int argument_count, ...); std::string source_get_value2(std::string* data, const char *term, const char *endings); void explode(std::string str, std::string separator, std::vector* results); void append_ordinal(unsigned long value, std::string* data); }; namespace conversion { DWORD to_timestamp(std::string data); struct tm *fbtime_to_timeinfo(double timestamp); std::string to_string(void*, WORD type); template bool from_string(T& t, const std::string& s, std::ios_base& (*f)(std::ios_base&)) { std::istringstream iss(s); return !(iss >> f >> t).fail(); } }; namespace debug { int log(std::string file_name, std::string text); }; namespace mem { void __fastcall detract(char** str); void __fastcall detract(void** p); void __fastcall detract(void* p); void* __fastcall allocate(size_t size); }; }; class ScopedLock { public: ScopedLock(HANDLE h, int t = INFINITE) : handle_(h), timeout_(t) { WaitForSingleObject(handle_,timeout_); } ~ScopedLock() { if(handle_) ReleaseMutex(handle_); } void Unlock() { ReleaseMutex(handle_); handle_ = 0; } private: HANDLE handle_; int timeout_; }; int ext_to_format(const std::string &ext); void MB(const char* m); void MBI(int a);