/** This file is a part of rexy's matrix client Copyright (C) 2019 rexy712 This program is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation, either version 3 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 Affero General Public License for more details. You should have received a copy of the GNU Affero General Public License along with this program. If not, see . */ #ifndef RAII_STRING_BASE_TPP #define RAII_STRING_BASE_TPP #include //forward, move, swap, etc #include //memcpy #include //strlen, strcpy namespace raii{ template string_intermediary::string_intermediary(char* data, size_t len): string_base(data, len){} template string_intermediary::string_intermediary(const char* data, size_t len): string_base(reinterpret_cast(len ? Allocator::copy(data, len+1) : nullptr), len) { m_data[len] = 0; } template string_intermediary::string_intermediary(const char* data): string_base(data ? strlen(data) : 0) { if(m_length) m_data = reinterpret_cast(Allocator::copy(data, m_length+1)); } template string_intermediary::string_intermediary(size_t len): string_base(reinterpret_cast(len ? Allocator::allocate(len+1) : nullptr), len) { m_data[len] = 0; } //normal copy and move ctors template string_intermediary::string_intermediary(const string_intermediary& b): string_base(reinterpret_cast(b.m_length ? Allocator::copy(b.m_data, b.m_length+1) : nullptr), b.m_length){} template string_intermediary::string_intermediary(string_intermediary&& s): string_base(std::exchange(s.m_data, nullptr), s.m_length){} template string_intermediary::string_intermediary(const string_base& b): string_base(reinterpret_cast(b.length() ? Allocator::copy(b.get(), b.length()+1) : nullptr), b.length()){} //dtor template string_intermediary::~string_intermediary(void){ Allocator::free(m_data); } template string_intermediary& string_intermediary::operator=(const string_intermediary& s){ string_intermediary tmp(s); return (*this = std::move(tmp)); } template string_intermediary& string_intermediary::operator=(string_intermediary&& s){ std::swap(m_data, s.m_data); m_length = s.m_length; return *this; } //Copy from c string template string_intermediary& string_intermediary::operator=(const char* c){ return _copy_string(c, strlen(c)); } //Copy from other string_base template string_intermediary& string_intermediary::operator=(const string_base& s){ return _copy_string(s.get(), s.length()); } //Replace managed pointer. Frees existing value template void string_intermediary::reset(char* val){ Allocator::free(m_data); m_data = val; m_length = val ? strlen(val) : 0; } template void string_intermediary::reset(char* val, size_t len){ Allocator::free(m_data); m_data = val; m_length = len; } template bool string_intermediary::resize(size_t newsize){ if(newsize < m_length) return false; string_intermediary tmp(newsize); memcpy(tmp.get(), m_data, m_length); tmp[m_length] = 0; *this = std::move(tmp); return true; } template void string_intermediary::append(const char* data, size_t len){ string_intermediary tmp(m_length + len); memcpy(tmp.m_data, m_data, m_length); memcpy(tmp.m_data+m_length, data, len); tmp[m_length+len] = 0; *this = std::move(tmp); } template void string_intermediary::append(const char* data){ size_t len = strlen(data); resize(m_length+len); memcpy(m_data+m_length, data, len); m_length += len; m_data[m_length] = 0; } template void string_intermediary::append(const string_base& s){ append(s.get()); } template string_intermediary& string_intermediary::_copy_string(const char* s, size_t len){ if(!len){ Allocator::free(m_data); m_length = 0; return *this; } if(len <= m_length){ strcpy(m_data, s); }else{ Allocator::free(m_data); m_data = reinterpret_cast(Allocator::copy(s, len+1)); if(!m_data){ m_length = 0; return *this; } } m_length = len; return *this; } template template constexpr string_cat_expr::string_cat_expr(T&& l, U&& r): m_l(std::forward(l)), m_r(std::forward(r)){} template constexpr string_cat_expr::string_cat_expr(const string_cat_expr& s): m_l(std::forward(s.m_l)), m_r(std::forward(s.m_r)){} template constexpr string_cat_expr::string_cat_expr(string_cat_expr&& s): m_l(std::forward(s.m_l)), m_r(std::forward(s.m_r)){} template constexpr size_t string_cat_expr::length(void)const{ return m_l.length() + m_r.length(); } template template string_cat_expr::operator string_intermediary(void){ string_intermediary ret(length()); for(size_t i = 0;i < length();++i) ret[i] = 'n'; detail::appender> append(ret); append(*this); return ret; } template constexpr const Left& string_cat_expr::left(void)const{ return m_l; } template constexpr const Right& string_cat_expr::right(void)const{ return m_r; } template constexpr static_string::static_string(const char(&str)[N]): string_base(const_cast(str), N){} constexpr static_string::static_string(const char* str, size_t len): string_base(const_cast(str), len){} constexpr static_string::static_string(const static_string& s): string_base(s.m_data, s.m_length){} constexpr static_string::static_string(static_string&& s): string_base(s.m_data, s.m_length){} namespace detail{ template appender::appender(Targ& t): m_targ(t){} template template void appender::operator()(const string_cat_expr& str){ (*this)(str.left()); (*this)(str.right()); } template void appender::operator()(const string_base& str){ memcpy(m_targ.get()+m_pos, str.get(), str.length()); m_pos += str.length(); } } } //namespace raii #endif