/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "nsSampleWordBreaker.h" nsSampleWordBreaker::nsSampleWordBreaker() { } nsSampleWordBreaker::~nsSampleWordBreaker() { } NS_IMPL_ISUPPORTS(nsSampleWordBreaker, nsIWordBreaker) bool nsSampleWordBreaker::BreakInBetween( const char16_t* aText1 , uint32_t aTextLen1, const char16_t* aText2 , uint32_t aTextLen2) { NS_PRECONDITION( nullptr != aText1, "null ptr"); NS_PRECONDITION( nullptr != aText2, "null ptr"); if(!aText1 || !aText2 || (0 == aTextLen1) || (0 == aTextLen2)) return false; return (this->GetClass(aText1[aTextLen1-1]) != this->GetClass(aText2[0])); } #define IS_ASCII(c) (0 == ( 0xFF80 & (c))) #define ASCII_IS_ALPHA(c) ((( 'a' <= (c)) && ((c) <= 'z')) || (( 'A' <= (c)) && ((c) <= 'Z'))) #define ASCII_IS_DIGIT(c) (( '0' <= (c)) && ((c) <= '9')) #define ASCII_IS_SPACE(c) (( ' ' == (c)) || ( '\t' == (c)) || ( '\r' == (c)) || ( '\n' == (c))) #define IS_ALPHABETICAL_SCRIPT(c) ((c) < 0x2E80) // we change the beginning of IS_HAN from 0x4e00 to 0x3400 to relfect Unicode 3.0 #define IS_HAN(c) (( 0x3400 <= (c)) && ((c) <= 0x9fff))||(( 0xf900 <= (c)) && ((c) <= 0xfaff)) #define IS_KATAKANA(c) (( 0x30A0 <= (c)) && ((c) <= 0x30FF)) #define IS_HIRAGANA(c) (( 0x3040 <= (c)) && ((c) <= 0x309F)) #define IS_HALFWIDTHKATAKANA(c) (( 0xFF60 <= (c)) && ((c) <= 0xFF9F)) #define IS_THAI(c) (0x0E00 == (0xFF80 & (c) )) // Look at the higest 9 bits uint8_t nsSampleWordBreaker::GetClass(char16_t c) { // begin of the hack if (IS_ALPHABETICAL_SCRIPT(c)) { if(IS_ASCII(c)) { if(ASCII_IS_SPACE(c)) { return kWbClassSpace; } else if(ASCII_IS_ALPHA(c) || ASCII_IS_DIGIT(c)) { return kWbClassAlphaLetter; } else { return kWbClassPunct; } } else if(IS_THAI(c)) { return kWbClassThaiLetter; } else if (c == 0x00A0/*NBSP*/) { return kWbClassSpace; } else { return kWbClassAlphaLetter; } } else { if(IS_HAN(c)) { return kWbClassHanLetter; } else if(IS_KATAKANA(c)) { return kWbClassKatakanaLetter; } else if(IS_HIRAGANA(c)) { return kWbClassHiraganaLetter; } else if(IS_HALFWIDTHKATAKANA(c)) { return kWbClassHWKatakanaLetter; } else { return kWbClassAlphaLetter; } } return 0; } nsWordRange nsSampleWordBreaker::FindWord( const char16_t* aText , uint32_t aTextLen, uint32_t aOffset) { nsWordRange range; NS_PRECONDITION( nullptr != aText, "null ptr"); NS_PRECONDITION( 0 != aTextLen, "len = 0"); NS_PRECONDITION( aOffset <= aTextLen, "aOffset > aTextLen"); range.mBegin = aTextLen + 1; range.mEnd = aTextLen + 1; if(!aText || aOffset > aTextLen) return range; uint8_t c = this->GetClass(aText[aOffset]); uint32_t i; // Scan forward range.mEnd--; for(i = aOffset +1;i <= aTextLen; i++) { if( c != this->GetClass(aText[i])) { range.mEnd = i; break; } } // Scan backward range.mBegin = 0; for(i = aOffset ;i > 0; i--) { if( c != this->GetClass(aText[i-1])) { range.mBegin = i; break; } } if(kWbClassThaiLetter == c) { // need to call Thai word breaker from here // we should pass the whole Thai segment to the thai word breaker to find a shorter answer } return range; } int32_t nsSampleWordBreaker::NextWord( const char16_t* aText, uint32_t aLen, uint32_t aPos) { int8_t c1, c2; uint32_t cur = aPos; if (cur == aLen) return NS_WORDBREAKER_NEED_MORE_TEXT; c1 = this->GetClass(aText[cur]); for(cur++; cur GetClass(aText[cur]); if(c2 != c1) break; } if(kWbClassThaiLetter == c1) { // need to call Thai word breaker from here // we should pass the whole Thai segment to the thai word breaker to find a shorter answer } if (cur == aLen) return NS_WORDBREAKER_NEED_MORE_TEXT; return cur; }