#ifndef CPPJIEBA_UNICODE_H #define CPPJIEBA_UNICODE_H #include #include #include #include #include #include "limonp/LocalVector.hpp" namespace cppjieba { using std::string; using std::vector; typedef uint32_t Rune; struct Word { string word; uint32_t offset; uint32_t unicode_offset; uint32_t unicode_length; Word(const string& w, uint32_t o) : word(w), offset(o) { } Word(const string& w, uint32_t o, uint32_t unicode_offset, uint32_t unicode_length) : word(w), offset(o), unicode_offset(unicode_offset), unicode_length(unicode_length) { } }; // struct Word inline std::ostream& operator << (std::ostream& os, const Word& w) { return os << "{\"word\": \"" << w.word << "\", \"offset\": " << w.offset << "}"; } struct RuneStr { Rune rune; uint32_t offset; uint32_t len; uint32_t unicode_offset; uint32_t unicode_length; RuneStr(): rune(0), offset(0), len(0), unicode_offset(0), unicode_length(0) { } RuneStr(Rune r, uint32_t o, uint32_t l) : rune(r), offset(o), len(l), unicode_offset(0), unicode_length(0) { } RuneStr(Rune r, uint32_t o, uint32_t l, uint32_t unicode_offset, uint32_t unicode_length) : rune(r), offset(o), len(l), unicode_offset(unicode_offset), unicode_length(unicode_length) { } }; // struct RuneStr inline std::ostream& operator << (std::ostream& os, const RuneStr& r) { return os << "{\"rune\": \"" << r.rune << "\", \"offset\": " << r.offset << ", \"len\": " << r.len << "}"; } typedef limonp::LocalVector Unicode; typedef limonp::LocalVector RuneStrArray; // [left, right] struct WordRange { RuneStrArray::const_iterator left; RuneStrArray::const_iterator right; WordRange(RuneStrArray::const_iterator l, RuneStrArray::const_iterator r) : left(l), right(r) { } size_t Length() const { return right - left + 1; } bool IsAllAscii() const { for (RuneStrArray::const_iterator iter = left; iter <= right; ++iter) { if (iter->rune >= 0x80) { return false; } } return true; } }; // struct WordRange struct RuneStrLite { uint32_t rune; uint32_t len; RuneStrLite(): rune(0), len(0) { } RuneStrLite(uint32_t r, uint32_t l): rune(r), len(l) { } }; // struct RuneStrLite inline RuneStrLite DecodeRuneInString(const char* str, size_t len) { RuneStrLite rp(0, 0); if (str == NULL || len == 0) { return rp; } if (!(str[0] & 0x80)) { // 0xxxxxxx // 7bit, total 7bit rp.rune = (uint8_t)(str[0]) & 0x7f; rp.len = 1; } else if ((uint8_t)str[0] <= 0xdf && 1 < len) { // 110xxxxxx // 5bit, total 5bit rp.rune = (uint8_t)(str[0]) & 0x1f; // 6bit, total 11bit rp.rune <<= 6; rp.rune |= (uint8_t)(str[1]) & 0x3f; rp.len = 2; } else if((uint8_t)str[0] <= 0xef && 2 < len) { // 1110xxxxxx // 4bit, total 4bit rp.rune = (uint8_t)(str[0]) & 0x0f; // 6bit, total 10bit rp.rune <<= 6; rp.rune |= (uint8_t)(str[1]) & 0x3f; // 6bit, total 16bit rp.rune <<= 6; rp.rune |= (uint8_t)(str[2]) & 0x3f; rp.len = 3; } else if((uint8_t)str[0] <= 0xf7 && 3 < len) { // 11110xxxx // 3bit, total 3bit rp.rune = (uint8_t)(str[0]) & 0x07; // 6bit, total 9bit rp.rune <<= 6; rp.rune |= (uint8_t)(str[1]) & 0x3f; // 6bit, total 15bit rp.rune <<= 6; rp.rune |= (uint8_t)(str[2]) & 0x3f; // 6bit, total 21bit rp.rune <<= 6; rp.rune |= (uint8_t)(str[3]) & 0x3f; rp.len = 4; } else { rp.rune = 0; rp.len = 0; } return rp; } inline bool DecodeRunesInString(const char* s, size_t len, RuneStrArray& runes) { runes.clear(); runes.reserve(len / 2); for (uint32_t i = 0, j = 0; i < len;) { RuneStrLite rp = DecodeRuneInString(s + i, len - i); if (rp.len == 0) { runes.clear(); return false; } RuneStr x(rp.rune, i, rp.len, j, 1); runes.push_back(x); i += rp.len; ++j; } return true; } inline bool DecodeRunesInString(const string& s, RuneStrArray& runes) { return DecodeRunesInString(s.c_str(), s.size(), runes); } inline bool DecodeRunesInString(const char* s, size_t len, Unicode& unicode) { unicode.clear(); RuneStrArray runes; if (!DecodeRunesInString(s, len, runes)) { return false; } unicode.reserve(runes.size()); for (size_t i = 0; i < runes.size(); i++) { unicode.push_back(runes[i].rune); } return true; } inline bool IsSingleWord(const string& str) { RuneStrLite rp = DecodeRuneInString(str.c_str(), str.size()); return rp.len == str.size(); } inline bool DecodeRunesInString(const string& s, Unicode& unicode) { return DecodeRunesInString(s.c_str(), s.size(), unicode); } inline Unicode DecodeRunesInString(const string& s) { Unicode result; DecodeRunesInString(s, result); return result; } // [left, right] inline Word GetWordFromRunes(const string& s, RuneStrArray::const_iterator left, RuneStrArray::const_iterator right) { assert(right->offset >= left->offset); uint32_t len = right->offset - left->offset + right->len; uint32_t unicode_length = right->unicode_offset - left->unicode_offset + right->unicode_length; return Word(s.substr(left->offset, len), left->offset, left->unicode_offset, unicode_length); } inline string GetStringFromRunes(const string& s, RuneStrArray::const_iterator left, RuneStrArray::const_iterator right) { assert(right->offset >= left->offset); uint32_t len = right->offset - left->offset + right->len; return s.substr(left->offset, len); } inline void GetWordsFromWordRanges(const string& s, const vector& wrs, vector& words) { for (size_t i = 0; i < wrs.size(); i++) { words.push_back(GetWordFromRunes(s, wrs[i].left, wrs[i].right)); } } inline vector GetWordsFromWordRanges(const string& s, const vector& wrs) { vector result; GetWordsFromWordRanges(s, wrs, result); return result; } inline void GetStringsFromWords(const vector& words, vector& strs) { strs.resize(words.size()); for (size_t i = 0; i < words.size(); ++i) { strs[i] = words[i].word; } } } // namespace cppjieba #endif // CPPJIEBA_UNICODE_H