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swoole_string.h
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/* +----------------------------------------------------------------------+ | Swoole | +----------------------------------------------------------------------+ | This source file is subject to version 2.0 of the Apache license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | http://www.apache.org/licenses/LICENSE-2.0.html | | If you did not receive a copy of the Apache2.0 license and are unable| | to obtain it through the world-wide-web, please send a note to | | license@swoole.com so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Author: Tianfeng Han <rango@swoole.com> | | Twosee <twose@qq.com> | +----------------------------------------------------------------------+ */ #pragma once #include "swoole.h" #include <string> #define SW_STRINGL(s) s->str, s->length #define SW_STRINGS(s) s->str, s->size #define SW_STRINGCVL(s) s->str + s->offset, s->length - s->offset namespace swoole { typedef std::function<bool(const char *, size_t)> StringExplodeHandler; class String { private: void alloc(size_t _size, const Allocator *_allocator) { if (_allocator == nullptr) { _allocator = sw_std_allocator(); } _size = SW_MEM_ALIGNED_SIZE(_size); length = 0; size = _size; offset = 0; str = (char *) _allocator->malloc(_size); allocator = _allocator; if (str == nullptr) { throw std::bad_alloc(); } } void move(String &&src) { str = src.str; length = src.length; offset = src.offset; size = src.size; allocator = src.allocator; src.str = nullptr; src.length = 0; src.size = 0; src.offset = 0; } public: size_t length; size_t size; off_t offset; char *str; const Allocator *allocator; String() { length = size = offset = 0; str = nullptr; allocator = nullptr; } explicit String(size_t _size, const Allocator *_allocator = nullptr) { alloc(_size, _allocator); } String(const char *_str, size_t _length) { alloc(_length + 1, nullptr); memcpy(str, _str, _length); str[_length] = '\0'; length = _length; } String(const std::string &_str) : String(_str.c_str(), _str.length()) {} String(String &_str) { alloc(_str.size, _str.allocator); memcpy(_str.str, str, _str.length); length = _str.length; offset = _str.offset; } String(String &&src) { move(std::move(src)); } String &operator=(String &src) { if (&src == this) { return *this; } if (allocator && str) { allocator->free(str); } alloc(src.size, src.allocator); memcpy(src.str, str, src.length); length = src.length; offset = src.offset; return *this; } String &operator=(String &&src) { if (&src == this) { return *this; } if (allocator && str) { allocator->free(str); } move(std::move(src)); return *this; } ~String() { if (allocator && str) { allocator->free(str); } } char *value() { return str; } size_t get_length() { return length; } size_t capacity() { return size; } std::string to_std_string() { return std::string(str, length); } bool contains(const char *needle, size_t l_needle) { return swoole_strnstr(str, length, needle, l_needle) != nullptr; } bool contains(const std::string &needle) { return contains(needle.c_str(), needle.size()); } bool grow(size_t incr_value) { length += incr_value; if (length == size && !reserve(size * 2)) { return false; } else { return true; } } String *substr(size_t offset, size_t len) { if (offset + len > length) { return nullptr; } auto _substr = new String(len); _substr->append(str + offset, len); return _substr; } bool empty() { return str == nullptr || length == 0; } void clear() { length = 0; offset = 0; } bool extend() { return extend(size * 2); } bool extend(size_t new_size) { assert(new_size > size); return reserve(new_size); } bool extend_align(size_t _new_size) { size_t align_size = SW_MEM_ALIGNED_SIZE(size * 2); while (align_size < _new_size) { align_size *= 2; } return reserve(align_size); } bool reserve(size_t new_size); bool repeat(const char *data, size_t len, size_t n); int append(const char *append_str, size_t length); int append(const std::string &append_str) { return append(append_str.c_str(), append_str.length()); } int append(char c) { return append(&c, sizeof(c)); } int append(const String &append_str) { size_t new_size = length + append_str.length; if (new_size > size) { if (!reserve(new_size)) { return SW_ERR; } } memcpy(str + length, append_str.str, append_str.length); length += append_str.length; return SW_OK; } void write(off_t _offset, String *write_str) { size_t new_length = _offset + write_str->length; if (new_length > size) { reserve(swoole_size_align(new_length * 2, swoole_pagesize())); } memcpy(str + _offset, write_str->str, write_str->length); if (new_length > length) { length = new_length; } } void write(off_t _offset, const char *write_str, size_t _length) { size_t new_length = _offset + _length; if (new_length > size) { reserve(swoole_size_align(new_length * 2, swoole_pagesize())); } memcpy(str + _offset, write_str, _length); if (new_length > length) { length = new_length; } } int append(int value); ssize_t split(const char *delimiter, size_t delimiter_length, const StringExplodeHandler &handler); int append_random_bytes(size_t length, bool base64 = false); void print(bool print_value = true); enum FormatFlag { FORMAT_APPEND = 1 << 0, FORMAT_GROW = 1 << 1, }; template <typename... Args> size_t format_impl(int flags, const char *format, Args... args) { size_t _size = sw_snprintf(nullptr, 0, format, args...); if (_size == 0) { return 0; } // store \0 terminator _size++; size_t new_size = (flags & FORMAT_APPEND) ? length + _size : _size; if (flags & FORMAT_GROW) { size_t align_size = SW_MEM_ALIGNED_SIZE(size * 2); while (align_size < new_size) { align_size *= 2; } new_size = align_size; } size_t n; if (flags & FORMAT_APPEND) { if (_size > size - length && !reserve(new_size)) { return 0; } n = sw_snprintf(str + length, size - length, format, args...); length += n; } else { if (_size > size && !reserve(new_size)) { return 0; } n = sw_snprintf(str, size, format, args...); length = n; } return n; } template <typename... Args> size_t format(const char *format, Args... args) { return format_impl(0, format, args...); } char *pop(size_t init_size); void reduce(off_t offset); }; inline String *make_string(size_t size, const Allocator *allocator = nullptr) { return new String(size, allocator); } } // namespace swoole