subsurface/core/fulltext.cpp
Berthold Stoeger 50ff94eb8f filter: normalize text of fulltext search to base letters
The liter symbol is written as 'ℓ'. To allow searching for
that, normalize unicode strings to their base letter. This
corresponds to the 'compatibility' mode.

We might also think about stripping diacritics.

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
2022-07-08 11:38:44 -07:00

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// SPDX-License-Identifier: GPL-2.0
#include "fulltext.h"
#include "dive.h"
#include "divesite.h"
#include "tag.h"
#include "trip.h"
#include "qthelper.h"
#include <QLocale>
#include <map>
// This class caches each dives words, so that we can unregister a dive from the full text search
struct full_text_cache {
std::vector<QString> words;
};
// The FullText-search class
class FullText {
std::map<QString, std::vector<dive *>> words; // Dives that belong to each word
public:
void populate(); // Rebuild from current dive_table
void registerDive(struct dive *d); // Note: can be called repeatedly
void unregisterDive(struct dive *d); // Note: can be called repeatedly
void unregisterAll(); // Unregister all dives in the dive table
FullTextResult find(const FullTextQuery &q, StringFilterMode mode) const; // Find dives matchin all words.
private:
void registerWords(struct dive *d, const std::vector<QString> &w);
void unregisterWords(struct dive *d, const std::vector<QString> &w);
std::vector<dive *> findDives(const QString &s, StringFilterMode mode) const; // Find dives matching a given word.
};
// This class doesn't depend on any other objects, we might just initialize it at startup.
static FullText self;
// C-interface functions
extern "C" {
void fulltext_register(struct dive *d)
{
self.registerDive(d);
}
void fulltext_unregister(struct dive *d)
{
self.unregisterDive(d);
}
void fulltext_unregister_all()
{
self.unregisterAll();
}
void fulltext_populate()
{
self.populate();
}
} // extern "C"
// C++-only interface functions
FullTextResult fulltext_find_dives(const FullTextQuery &q, StringFilterMode mode)
{
return self.find(q, mode);
}
// Check whether a single dive matches the fulltext criterion
bool fulltext_dive_matches(const struct dive *d, const FullTextQuery &q, StringFilterMode mode)
{
if (!q.doit())
return true;
if (!d->full_text)
return false;
auto matchFunc =
mode == StringFilterMode::EXACT ? [](const QString &s1, const QString &s2) { return s1 == s2; } :
mode == StringFilterMode::STARTSWITH ? [](const QString &s1, const QString &s2) { return s1.startsWith(s2); } :
/* mode == StringFilterMode::SUBSTRING ? */ [](const QString &s1, const QString &s2) { return s1.contains(s2); };
const std::vector<QString> &words = d->full_text->words;
for (const QString &search: q.words) {
if (std::any_of(words.begin(), words.end(), [&search,matchFunc](const QString &w) { return matchFunc(w, search); }))
return true;
}
return false;
}
// Class implementation
// Take a text and tokenize it into words. Normalize the words to the base
// upper case base character (e.g. '' to 'L') and add to a given list,
// if not already in list.
// We might think about limiting the lower size of words we store.
// Note: we convert to QString before tokenization because we rely in
// Qt's isPunct() function.
static void tokenize(QString s, std::vector<QString> &res)
{
if (s.isEmpty())
return;
QLocale loc;
int size = s.size();
int pos = 0;
while (pos < size) {
// Skip whitespace and punctuation
while (s[pos].isSpace() || s[pos].isPunct()) {
if (++pos >= size)
return;
}
int end = pos;
while (end < size && !s[end].isSpace() && !s[end].isPunct())
++end;
QString word = s.mid(pos, end - pos);
word = word.normalized(QString::NormalizationForm_KD);
word = loc.toUpper(word);
pos = end;
if (find(res.begin(), res.end(), word) == res.end())
res.push_back(word);
}
}
// Get all words of a dive
static std::vector<QString> getWords(const dive *d)
{
std::vector<QString> res;
tokenize(QString(d->notes), res);
tokenize(QString(d->diveguide), res);
tokenize(QString(d->buddy), res);
tokenize(QString(d->suit), res);
for (const tag_entry *tag = d->tag_list; tag; tag = tag->next)
tokenize(QString(tag->tag->name), res);
for (int i = 0; i < d->cylinders.nr; ++i) {
const cylinder_t &cyl = *get_cylinder(d, i);
tokenize(QString(cyl.type.description), res);
}
for (int i = 0; i < d->weightsystems.nr; ++i) {
const weightsystem_t &ws = d->weightsystems.weightsystems[i];
tokenize(QString(ws.description), res);
}
// TODO: We should tokenize all dive-sites and trips first and then
// take the tokens from a cache.
if (d->dive_site)
tokenize(d->dive_site->name, res);
// TODO: We should index trips separately!
if (d->divetrip)
tokenize(d->divetrip->location, res);
return res;
}
void FullText::populate()
{
// we want this to be two calls as the second text is overwritten below by the lines starting with "\r"
uiNotification(QObject::tr("Create full text index"));
uiNotification(QObject::tr("start processing"));
int i;
dive *d;
for_each_dive(i, d)
registerDive(d);
uiNotification(QObject::tr("%1 dives processed").arg(dive_table.nr));
}
void FullText::registerDive(struct dive *d)
{
if (d->full_text)
unregisterWords(d, d->full_text->words);
else
d->full_text = new full_text_cache;
d->full_text->words = getWords(d);
registerWords(d, d->full_text->words);
}
void FullText::unregisterDive(struct dive *d)
{
if (!d->full_text)
return;
unregisterWords(d, d->full_text->words);
delete d->full_text;
d->full_text = nullptr;
}
void FullText::unregisterAll()
{
int i;
dive *d;
for_each_dive(i, d) {
delete d->full_text;
d->full_text = nullptr;
}
words.clear();
}
// Register words of a dive.
void FullText::registerWords(struct dive *d, const std::vector<QString> &w)
{
for (const QString &word: w) {
std::vector<dive *> &entry = words[word];
if (std::find(entry.begin(), entry.end(), d) == entry.end())
entry.push_back(d);
}
}
// Unregister words of a dive.
void FullText::unregisterWords(struct dive *d, const std::vector<QString> &w)
{
for (const QString &word: w) {
auto it = words.find(word);
if (it == words.end()) {
qWarning("FullText::unregisterWords: didn't find word '%s' in index!?", qPrintable(word));
continue;
}
std::vector<dive *> &entry = it->second;
entry.erase(std::remove(entry.begin(), entry.end(), d));
if (entry.empty())
words.erase(it);
}
}
// Add dives from second array to first, if not yet there
void combineDives(std::vector<dive *> &to, const std::vector<dive *> &from)
{
for (dive *d: from) {
if (std::find(to.begin(), to.end(), d) == to.end())
to.push_back(d);
}
}
std::vector<dive *> FullText::findDives(const QString &s, StringFilterMode mode) const
{
switch (mode) {
case StringFilterMode::EXACT:
default: {
// Try to access a single word
auto it = words.find(s);
if (it == words.end())
return {};
return it->second;
}
case StringFilterMode::STARTSWITH: {
// Find all words that start with a substring. We use the fact
// that these words must form a contiguous block, since the words are
// ordered lexicographically.
auto it = words.lower_bound(s);
if (it == words.end() || !it->first.startsWith(s))
return {};
std::vector<dive *> res = it->second;
++it;
while (it != words.end() && it->first.startsWith(s)) {
combineDives(res, it->second);
++it;
}
return res;
}
case StringFilterMode::SUBSTRING: {
// Find all words that contain a substring. Here, we have to check all words!
std::vector<dive *> res;
for (auto it = words.begin(); it != words.end(); ++it) {
if (it->first.contains(s))
combineDives(res, it->second);
}
return res;
}
}
}
FullTextResult FullText::find(const FullTextQuery &q, StringFilterMode mode) const
{
if (q.words.empty())
return FullTextResult();
std::vector<dive *> res = findDives(q.words[0], mode);
for (size_t i = 1; i < q.words.size(); ++i) {
std::vector<dive *> res2 = findDives(q.words[i], mode);
// Remove dives from res that are not in res2
res.erase(std::remove_if(res.begin(), res.end(),
[&res2] (dive *d) { return std::find(res2.begin(), res2.end(), d) == res2.end(); }), res.end());
}
return { res };
}
FullTextQuery &FullTextQuery::operator=(const QString &s)
{
originalQuery = s;
words.clear();
tokenize(s, words);
return *this;
}
bool FullTextQuery::doit() const
{
return !words.empty();
}
bool FullTextResult::dive_matches(const struct dive *d) const
{
return std::find(dives.begin(), dives.end(), d) != dives.end();
}