495 lines
16 KiB
C++
495 lines
16 KiB
C++
// Copyright 2013 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "browser/devtools_file_system_indexer.h"
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#include <stddef.h>
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#include <iterator>
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#include "base/bind.h"
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#include "base/callback.h"
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#include "base/files/file_enumerator.h"
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#include "base/files/file_util.h"
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#include "base/files/file_util_proxy.h"
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#include "base/lazy_instance.h"
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#include "base/logging.h"
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#include "base/macros.h"
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#include "base/stl_util.h"
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#include "base/strings/string_util.h"
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#include "base/strings/utf_string_conversions.h"
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#include "content/public/browser/browser_thread.h"
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using base::Bind;
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using base::Callback;
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using base::FileEnumerator;
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using base::FilePath;
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using base::Time;
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using base::TimeDelta;
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using base::TimeTicks;
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using content::BrowserThread;
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using std::map;
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using std::set;
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using std::string;
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using std::vector;
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namespace brightray {
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namespace {
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typedef int32_t Trigram;
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typedef char TrigramChar;
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typedef uint16_t FileId;
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const int kMinTimeoutBetweenWorkedNotification = 200;
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// Trigram characters include all ASCII printable characters (32-126) except for
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// the capital letters, because the index is case insensitive.
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const size_t kTrigramCharacterCount = 126 - 'Z' - 1 + 'A' - ' ' + 1;
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const size_t kTrigramCount =
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kTrigramCharacterCount * kTrigramCharacterCount * kTrigramCharacterCount;
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const int kMaxReadLength = 10 * 1024;
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const TrigramChar kUndefinedTrigramChar = -1;
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const TrigramChar kBinaryTrigramChar = -2;
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const Trigram kUndefinedTrigram = -1;
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template <typename Char>
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bool IsAsciiUpper(Char c) {
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return c >= 'A' && c <= 'Z';
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}
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class Index {
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public:
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Index();
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Time LastModifiedTimeForFile(const FilePath& file_path);
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void SetTrigramsForFile(const FilePath& file_path,
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const vector<Trigram>& index,
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const Time& time);
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vector<FilePath> Search(string query);
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void PrintStats();
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void NormalizeVectors();
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private:
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~Index();
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FileId GetFileId(const FilePath& file_path);
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typedef map<FilePath, FileId> FileIdsMap;
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FileIdsMap file_ids_;
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FileId last_file_id_;
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// The index in this vector is the trigram id.
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vector<vector<FileId> > index_;
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typedef map<FilePath, Time> IndexedFilesMap;
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IndexedFilesMap index_times_;
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vector<bool> is_normalized_;
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DISALLOW_COPY_AND_ASSIGN(Index);
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};
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base::LazyInstance<Index>::Leaky g_trigram_index = LAZY_INSTANCE_INITIALIZER;
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TrigramChar TrigramCharForChar(char c) {
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static TrigramChar* trigram_chars = nullptr;
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if (!trigram_chars) {
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trigram_chars = new TrigramChar[256];
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for (size_t i = 0; i < 256; ++i) {
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if (i > 127) {
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trigram_chars[i] = kUndefinedTrigramChar;
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continue;
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}
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char ch = static_cast<char>(i);
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if (ch == '\t')
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ch = ' ';
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if (IsAsciiUpper(ch))
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ch = ch - 'A' + 'a';
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bool is_binary_char = ch < 9 || (ch >= 14 && ch < 32) || ch == 127;
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if (is_binary_char) {
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trigram_chars[i] = kBinaryTrigramChar;
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continue;
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}
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if (ch < ' ') {
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trigram_chars[i] = kUndefinedTrigramChar;
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continue;
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}
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if (ch >= 'Z')
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ch = ch - 'Z' - 1 + 'A';
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ch -= ' ';
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char signed_trigram_count = static_cast<char>(kTrigramCharacterCount);
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CHECK(ch >= 0 && ch < signed_trigram_count);
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trigram_chars[i] = ch;
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}
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}
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unsigned char uc = static_cast<unsigned char>(c);
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return trigram_chars[uc];
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}
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Trigram TrigramAtIndex(const vector<TrigramChar>& trigram_chars, size_t index) {
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static int kTrigramCharacterCountSquared =
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kTrigramCharacterCount * kTrigramCharacterCount;
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if (trigram_chars[index] == kUndefinedTrigramChar ||
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trigram_chars[index + 1] == kUndefinedTrigramChar ||
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trigram_chars[index + 2] == kUndefinedTrigramChar)
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return kUndefinedTrigram;
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Trigram trigram = kTrigramCharacterCountSquared * trigram_chars[index] +
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kTrigramCharacterCount * trigram_chars[index + 1] +
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trigram_chars[index + 2];
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return trigram;
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}
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Index::Index() : last_file_id_(0) {
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index_.resize(kTrigramCount);
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is_normalized_.resize(kTrigramCount);
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std::fill(is_normalized_.begin(), is_normalized_.end(), true);
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}
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Index::~Index() {}
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Time Index::LastModifiedTimeForFile(const FilePath& file_path) {
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DCHECK_CURRENTLY_ON(BrowserThread::FILE);
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Time last_modified_time;
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if (index_times_.find(file_path) != index_times_.end())
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last_modified_time = index_times_[file_path];
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return last_modified_time;
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}
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void Index::SetTrigramsForFile(const FilePath& file_path,
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const vector<Trigram>& index,
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const Time& time) {
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DCHECK_CURRENTLY_ON(BrowserThread::FILE);
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FileId file_id = GetFileId(file_path);
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vector<Trigram>::const_iterator it = index.begin();
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for (; it != index.end(); ++it) {
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Trigram trigram = *it;
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index_[trigram].push_back(file_id);
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is_normalized_[trigram] = false;
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}
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index_times_[file_path] = time;
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}
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vector<FilePath> Index::Search(string query) {
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DCHECK_CURRENTLY_ON(BrowserThread::FILE);
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const char* data = query.c_str();
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vector<TrigramChar> trigram_chars;
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trigram_chars.reserve(query.size());
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for (size_t i = 0; i < query.size(); ++i) {
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TrigramChar trigram_char = TrigramCharForChar(data[i]);
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if (trigram_char == kBinaryTrigramChar)
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trigram_char = kUndefinedTrigramChar;
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trigram_chars.push_back(trigram_char);
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}
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vector<Trigram> trigrams;
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for (size_t i = 0; i + 2 < query.size(); ++i) {
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Trigram trigram = TrigramAtIndex(trigram_chars, i);
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if (trigram != kUndefinedTrigram)
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trigrams.push_back(trigram);
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}
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set<FileId> file_ids;
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bool first = true;
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vector<Trigram>::const_iterator it = trigrams.begin();
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for (; it != trigrams.end(); ++it) {
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Trigram trigram = *it;
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if (first) {
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std::copy(index_[trigram].begin(),
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index_[trigram].end(),
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std::inserter(file_ids, file_ids.begin()));
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first = false;
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continue;
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}
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set<FileId> intersection = base::STLSetIntersection<set<FileId> >(
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file_ids, index_[trigram]);
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file_ids.swap(intersection);
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}
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vector<FilePath> result;
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FileIdsMap::const_iterator ids_it = file_ids_.begin();
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for (; ids_it != file_ids_.end(); ++ids_it) {
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if (trigrams.size() == 0 ||
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file_ids.find(ids_it->second) != file_ids.end()) {
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result.push_back(ids_it->first);
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}
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}
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return result;
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}
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FileId Index::GetFileId(const FilePath& file_path) {
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DCHECK_CURRENTLY_ON(BrowserThread::FILE);
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string file_path_str = file_path.AsUTF8Unsafe();
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if (file_ids_.find(file_path) != file_ids_.end())
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return file_ids_[file_path];
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file_ids_[file_path] = ++last_file_id_;
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return last_file_id_;
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}
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void Index::NormalizeVectors() {
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DCHECK_CURRENTLY_ON(BrowserThread::FILE);
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for (size_t i = 0; i < kTrigramCount; ++i) {
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if (!is_normalized_[i]) {
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std::sort(index_[i].begin(), index_[i].end());
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if (index_[i].capacity() > index_[i].size())
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vector<FileId>(index_[i]).swap(index_[i]);
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is_normalized_[i] = true;
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}
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}
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}
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void Index::PrintStats() {
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DCHECK_CURRENTLY_ON(BrowserThread::FILE);
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LOG(ERROR) << "Index stats:";
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size_t size = 0;
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size_t maxSize = 0;
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size_t capacity = 0;
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for (size_t i = 0; i < kTrigramCount; ++i) {
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if (index_[i].size() > maxSize)
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maxSize = index_[i].size();
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size += index_[i].size();
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capacity += index_[i].capacity();
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}
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LOG(ERROR) << " - total trigram count: " << size;
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LOG(ERROR) << " - max file count per trigram: " << maxSize;
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LOG(ERROR) << " - total vectors capacity " << capacity;
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size_t total_index_size =
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capacity * sizeof(FileId) + sizeof(vector<FileId>) * kTrigramCount;
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LOG(ERROR) << " - estimated total index size " << total_index_size;
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}
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typedef Callback<void(bool, const vector<bool>&)> IndexerCallback;
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} // namespace
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DevToolsFileSystemIndexer::FileSystemIndexingJob::FileSystemIndexingJob(
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const FilePath& file_system_path,
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const TotalWorkCallback& total_work_callback,
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const WorkedCallback& worked_callback,
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const DoneCallback& done_callback)
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: file_system_path_(file_system_path),
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total_work_callback_(total_work_callback),
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worked_callback_(worked_callback),
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done_callback_(done_callback),
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current_file_(BrowserThread::GetMessageLoopProxyForThread(
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BrowserThread::FILE).get()),
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files_indexed_(0),
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stopped_(false) {
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current_trigrams_set_.resize(kTrigramCount);
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current_trigrams_.reserve(kTrigramCount);
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}
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DevToolsFileSystemIndexer::FileSystemIndexingJob::~FileSystemIndexingJob() {}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::Start() {
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DCHECK_CURRENTLY_ON(BrowserThread::UI);
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BrowserThread::PostTask(
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BrowserThread::FILE,
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FROM_HERE,
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Bind(&FileSystemIndexingJob::CollectFilesToIndex, this));
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}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::Stop() {
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DCHECK_CURRENTLY_ON(BrowserThread::UI);
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BrowserThread::PostTask(BrowserThread::FILE,
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FROM_HERE,
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Bind(&FileSystemIndexingJob::StopOnFileThread, this));
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}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::StopOnFileThread() {
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stopped_ = true;
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}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::CollectFilesToIndex() {
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DCHECK_CURRENTLY_ON(BrowserThread::FILE);
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if (stopped_)
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return;
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if (!file_enumerator_) {
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file_enumerator_.reset(
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new FileEnumerator(file_system_path_, true, FileEnumerator::FILES));
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}
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FilePath file_path = file_enumerator_->Next();
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if (file_path.empty()) {
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BrowserThread::PostTask(
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BrowserThread::UI,
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FROM_HERE,
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Bind(total_work_callback_, file_path_times_.size()));
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indexing_it_ = file_path_times_.begin();
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IndexFiles();
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return;
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}
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Time saved_last_modified_time =
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g_trigram_index.Get().LastModifiedTimeForFile(file_path);
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FileEnumerator::FileInfo file_info = file_enumerator_->GetInfo();
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Time current_last_modified_time = file_info.GetLastModifiedTime();
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if (current_last_modified_time > saved_last_modified_time) {
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file_path_times_[file_path] = current_last_modified_time;
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}
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BrowserThread::PostTask(
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BrowserThread::FILE,
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FROM_HERE,
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Bind(&FileSystemIndexingJob::CollectFilesToIndex, this));
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}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::IndexFiles() {
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DCHECK_CURRENTLY_ON(BrowserThread::FILE);
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if (stopped_)
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return;
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if (indexing_it_ == file_path_times_.end()) {
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g_trigram_index.Get().NormalizeVectors();
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BrowserThread::PostTask(BrowserThread::UI, FROM_HERE, done_callback_);
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return;
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}
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FilePath file_path = indexing_it_->first;
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current_file_.CreateOrOpen(
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file_path,
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base::File::FLAG_OPEN | base::File::FLAG_READ,
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Bind(&FileSystemIndexingJob::StartFileIndexing, this));
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}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::StartFileIndexing(
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base::File::Error error) {
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if (!current_file_.IsValid()) {
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FinishFileIndexing(false);
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return;
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}
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current_file_offset_ = 0;
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current_trigrams_.clear();
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std::fill(current_trigrams_set_.begin(), current_trigrams_set_.end(), false);
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ReadFromFile();
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}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::ReadFromFile() {
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if (stopped_) {
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CloseFile();
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return;
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}
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current_file_.Read(current_file_offset_, kMaxReadLength,
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Bind(&FileSystemIndexingJob::OnRead, this));
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}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::OnRead(
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base::File::Error error,
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const char* data,
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int bytes_read) {
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if (error != base::File::FILE_OK) {
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FinishFileIndexing(false);
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return;
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}
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if (!bytes_read || bytes_read < 3) {
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FinishFileIndexing(true);
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return;
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}
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size_t size = static_cast<size_t>(bytes_read);
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vector<TrigramChar> trigram_chars;
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trigram_chars.reserve(size);
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for (size_t i = 0; i < size; ++i) {
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TrigramChar trigram_char = TrigramCharForChar(data[i]);
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if (trigram_char == kBinaryTrigramChar) {
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current_trigrams_.clear();
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FinishFileIndexing(true);
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return;
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}
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trigram_chars.push_back(trigram_char);
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}
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for (size_t i = 0; i + 2 < size; ++i) {
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Trigram trigram = TrigramAtIndex(trigram_chars, i);
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if ((trigram != kUndefinedTrigram) && !current_trigrams_set_[trigram]) {
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current_trigrams_set_[trigram] = true;
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current_trigrams_.push_back(trigram);
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}
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}
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current_file_offset_ += bytes_read - 2;
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ReadFromFile();
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}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::FinishFileIndexing(
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bool success) {
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DCHECK_CURRENTLY_ON(BrowserThread::FILE);
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CloseFile();
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if (success) {
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FilePath file_path = indexing_it_->first;
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g_trigram_index.Get().SetTrigramsForFile(
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file_path, current_trigrams_, file_path_times_[file_path]);
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}
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ReportWorked();
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++indexing_it_;
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IndexFiles();
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}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::CloseFile() {
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if (current_file_.IsValid())
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current_file_.Close(Bind(&FileSystemIndexingJob::CloseCallback, this));
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}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::CloseCallback(
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base::File::Error error) {}
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void DevToolsFileSystemIndexer::FileSystemIndexingJob::ReportWorked() {
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TimeTicks current_time = TimeTicks::Now();
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bool should_send_worked_nitification = true;
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if (!last_worked_notification_time_.is_null()) {
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TimeDelta delta = current_time - last_worked_notification_time_;
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if (delta.InMilliseconds() < kMinTimeoutBetweenWorkedNotification)
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should_send_worked_nitification = false;
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}
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++files_indexed_;
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if (should_send_worked_nitification) {
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last_worked_notification_time_ = current_time;
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BrowserThread::PostTask(
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BrowserThread::UI, FROM_HERE, Bind(worked_callback_, files_indexed_));
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files_indexed_ = 0;
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}
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}
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DevToolsFileSystemIndexer::DevToolsFileSystemIndexer() {
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}
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DevToolsFileSystemIndexer::~DevToolsFileSystemIndexer() {}
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scoped_refptr<DevToolsFileSystemIndexer::FileSystemIndexingJob>
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DevToolsFileSystemIndexer::IndexPath(
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const string& file_system_path,
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const TotalWorkCallback& total_work_callback,
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const WorkedCallback& worked_callback,
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const DoneCallback& done_callback) {
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DCHECK_CURRENTLY_ON(BrowserThread::UI);
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scoped_refptr<FileSystemIndexingJob> indexing_job =
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new FileSystemIndexingJob(FilePath::FromUTF8Unsafe(file_system_path),
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total_work_callback,
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worked_callback,
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done_callback);
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indexing_job->Start();
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return indexing_job;
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}
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void DevToolsFileSystemIndexer::SearchInPath(const string& file_system_path,
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const string& query,
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const SearchCallback& callback) {
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DCHECK_CURRENTLY_ON(BrowserThread::UI);
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BrowserThread::PostTask(
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BrowserThread::FILE,
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FROM_HERE,
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Bind(&DevToolsFileSystemIndexer::SearchInPathOnFileThread,
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this,
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file_system_path,
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query,
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callback));
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}
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void DevToolsFileSystemIndexer::SearchInPathOnFileThread(
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const string& file_system_path,
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const string& query,
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const SearchCallback& callback) {
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DCHECK_CURRENTLY_ON(BrowserThread::FILE);
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vector<FilePath> file_paths = g_trigram_index.Get().Search(query);
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vector<string> result;
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FilePath path = FilePath::FromUTF8Unsafe(file_system_path);
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vector<FilePath>::const_iterator it = file_paths.begin();
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for (; it != file_paths.end(); ++it) {
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if (path.IsParent(*it))
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result.push_back(it->AsUTF8Unsafe());
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}
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BrowserThread::PostTask(BrowserThread::UI, FROM_HERE, Bind(callback, result));
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}
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} // namespace brightray
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