// Copyright (c) 2011 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "chrome/browser/history/snippet.h" #include <algorithm> #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/string_split.h" #include "base/string_util.h" #include "base/utf_string_conversions.h" #include "unicode/brkiter.h" #include "unicode/utext.h" #include "unicode/utf8.h" namespace { bool PairFirstLessThan(const Snippet::MatchPosition& a, const Snippet::MatchPosition& b) { return a.first < b.first; } // Combines all pairs after offset in match_positions that are contained // or touch the pair at offset. void CoalescePositionsFrom(size_t offset, Snippet::MatchPositions* match_positions) { DCHECK(offset < match_positions->size()); Snippet::MatchPosition& pair((*match_positions)[offset]); ++offset; while (offset < match_positions->size() && pair.second >= (*match_positions)[offset].first) { pair.second = std::max(pair.second, (*match_positions)[offset].second); match_positions->erase(match_positions->begin() + offset); } } // Makes sure there is a pair in match_positions that contains the specified // range. This keeps the pairs ordered in match_positions by first, and makes // sure none of the pairs in match_positions touch each other. void AddMatch(size_t start, size_t end, Snippet::MatchPositions* match_positions) { DCHECK(start < end); DCHECK(match_positions); Snippet::MatchPosition pair(start, end); if (match_positions->empty()) { match_positions->push_back(pair); return; } // There's at least one match. Find the position of the new match, // potentially extending pairs around it. Snippet::MatchPositions::iterator i = std::lower_bound(match_positions->begin(), match_positions->end(), pair, &PairFirstLessThan); if (i != match_positions->end() && i->first == start) { // Match not at the end and there is already a pair with the same // start. if (end > i->second) { // New pair extends beyond existing pair. Extend existing pair and // coalesce matches after it. i->second = end; CoalescePositionsFrom(i - match_positions->begin(), match_positions); } // else case, new pair completely contained in existing pair, nothing // to do. } else if (i == match_positions->begin()) { // Match at the beginning and the first pair doesn't have the same // start. Insert new pair and coalesce matches after it. match_positions->insert(i, pair); CoalescePositionsFrom(0, match_positions); } else { // Not at the beginning (but may be at the end). --i; if (start <= i->second && end > i->second) { // Previous element contains match. Extend it and coalesce. i->second = end; CoalescePositionsFrom(i - match_positions->begin(), match_positions); } else if (end > i->second) { // Region doesn't touch previous element. See if region touches current // element. ++i; if (i == match_positions->end() || end < i->first) { match_positions->insert(i, pair); } else { i->first = start; i->second = end; CoalescePositionsFrom(i - match_positions->begin(), match_positions); } } } } // Converts an index in a utf8 string into the index in the corresponding utf16 // string and returns the utf16 index. This is intended to be called in a loop // iterating through a utf8 string. // // utf8_string: the utf8 string. // utf8_length: length of the utf8 string. // offset: the utf8 offset to convert. // utf8_pos: current offset in the utf8 string. This is modified and on return // matches offset. // wide_pos: current index in the wide string. This is the same as the return // value. size_t AdvanceAndReturnUTF16Pos(const char* utf8_string, int32_t utf8_length, int32_t offset, int32_t* utf8_pos, size_t* utf16_pos) { DCHECK(offset >= *utf8_pos && offset <= utf8_length); UChar32 wide_char; while (*utf8_pos < offset) { U8_NEXT(utf8_string, *utf8_pos, utf8_length, wide_char); *utf16_pos += (wide_char <= 0xFFFF) ? 1 : 2; } return *utf16_pos; } // Given a character break iterator over a UTF-8 string, set the iterator // position to |*utf8_pos| and move by |count| characters. |count| can // be either positive or negative. void MoveByNGraphemes(icu::BreakIterator* bi, int count, size_t* utf8_pos) { // Ignore the return value. A side effect of the current position // being set at or following |*utf8_pos| is exploited here. // It's simpler than calling following(n) and then previous(). // isBoundary() is not very fast, but should be good enough for the // snippet generation. If not, revisit the way we scan in ComputeSnippet. bi->isBoundary(*utf8_pos); bi->next(count); *utf8_pos = static_cast<size_t>(bi->current()); } // The amount of context to include for a given hit. Note that it's counted // in terms of graphemes rather than bytes. const int kSnippetContext = 50; // Returns true if next match falls within a snippet window // from the previous match. The window size is counted in terms // of graphemes rather than bytes in UTF-8. bool IsNextMatchWithinSnippetWindow(icu::BreakIterator* bi, size_t previous_match_end, size_t next_match_start) { // If it's within a window in terms of bytes, it's certain // that it's within a window in terms of graphemes as well. if (next_match_start < previous_match_end + kSnippetContext) return true; bi->isBoundary(previous_match_end); // An alternative to this is to call |bi->next()| at most // kSnippetContext times, compare |bi->current()| with |next_match_start| // after each call and return early if possible. There are other // heuristics to speed things up if necessary, but it's not likely that // we need to bother. bi->next(kSnippetContext); int64 current = bi->current(); return (next_match_start < static_cast<uint64>(current) || current == icu::BreakIterator::DONE); } } // namespace // static void Snippet::ExtractMatchPositions(const std::string& offsets_str, const std::string& column_num, MatchPositions* match_positions) { DCHECK(match_positions); if (offsets_str.empty()) return; std::vector<std::string> offsets; base::SplitString(offsets_str, ' ', &offsets); // SQLite offsets are sets of four integers: // column, query term, match offset, match length // Matches within a string are marked by (start, end) pairs. for (size_t i = 0; i < offsets.size() - 3; i += 4) { if (offsets[i] != column_num) continue; const size_t start = atoi(offsets[i + 2].c_str()); const size_t end = start + atoi(offsets[i + 3].c_str()); // Switch to DCHECK after debugging http://crbug.com/15261. CHECK(end >= start); AddMatch(start, end, match_positions); } } // static void Snippet::ConvertMatchPositionsToWide( const std::string& utf8_string, Snippet::MatchPositions* match_positions) { DCHECK(match_positions); int32_t utf8_pos = 0; size_t utf16_pos = 0; const char* utf8_cstring = utf8_string.c_str(); const int32_t utf8_length = static_cast<int32_t>(utf8_string.size()); for (Snippet::MatchPositions::iterator i = match_positions->begin(); i != match_positions->end(); ++i) { i->first = AdvanceAndReturnUTF16Pos(utf8_cstring, utf8_length, i->first, &utf8_pos, &utf16_pos); i->second = AdvanceAndReturnUTF16Pos(utf8_cstring, utf8_length, i->second, &utf8_pos, &utf16_pos); } } Snippet::Snippet() { } Snippet::~Snippet() { } void Snippet::ComputeSnippet(const MatchPositions& match_positions, const std::string& document) { // The length of snippets we try to produce. // We can generate longer snippets but stop once we cross kSnippetMaxLength. const size_t kSnippetMaxLength = 200; const string16 kEllipsis = ASCIIToUTF16(" ... "); UText* document_utext = NULL; UErrorCode status = U_ZERO_ERROR; document_utext = utext_openUTF8(document_utext, document.data(), document.size(), &status); // Locale does not matter because there's no per-locale customization // for character iterator. scoped_ptr<icu::BreakIterator> bi(icu::BreakIterator::createCharacterInstance( icu::Locale::getDefault(), status)); bi->setText(document_utext, status); DCHECK(U_SUCCESS(status)); // We build the snippet by iterating through the matches and then grabbing // context around each match. If matches are near enough each other (within // kSnippetContext), we skip the "..." between them. string16 snippet; size_t start = 0; for (size_t i = 0; i < match_positions.size(); ++i) { // Some shorter names for the current match. const size_t match_start = match_positions[i].first; const size_t match_end = match_positions[i].second; // Switch to DCHECK after debugging http://crbug.com/15261. CHECK(match_end > match_start); CHECK(match_end <= document.size()); // Add the context, if any, to show before the match. size_t context_start = match_start; MoveByNGraphemes(bi.get(), -kSnippetContext, &context_start); start = std::max(start, context_start); if (start < match_start) { if (start > 0) snippet += kEllipsis; // Switch to DCHECK after debugging http://crbug.com/15261. CHECK(start < document.size()); snippet += UTF8ToUTF16(document.substr(start, match_start - start)); } // Add the match. const size_t first = snippet.size(); snippet += UTF8ToUTF16(document.substr(match_start, match_end - match_start)); matches_.push_back(std::make_pair(first, snippet.size())); // Compute the context, if any, to show after the match. size_t end; // Check if the next match falls within our snippet window. if (i + 1 < match_positions.size() && IsNextMatchWithinSnippetWindow(bi.get(), match_end, match_positions[i + 1].first)) { // Yes, it's within the window. Make the end context extend just up // to the next match. end = match_positions[i + 1].first; // Switch to DCHECK after debugging http://crbug.com/15261. CHECK(end >= match_end); CHECK(end <= document.size()); snippet += UTF8ToUTF16(document.substr(match_end, end - match_end)); } else { // No, there's either no next match or the next match is too far away. end = match_end; MoveByNGraphemes(bi.get(), kSnippetContext, &end); // Switch to DCHECK after debugging http://crbug.com/15261. CHECK(end >= match_end); CHECK(end <= document.size()); snippet += UTF8ToUTF16(document.substr(match_end, end - match_end)); if (end < document.size()) snippet += kEllipsis; } start = end; // Stop here if we have enough snippet computed. if (snippet.size() >= kSnippetMaxLength) break; } utext_close(document_utext); swap(text_, snippet); } void Snippet::Swap(Snippet* other) { text_.swap(other->text_); matches_.swap(other->matches_); }