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openmw-tes3mp/apps/openmw/mwdialogue/keywordsearch.hpp

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#ifndef GAME_MWDIALOGUE_KEYWORDSEARCH_H
#define GAME_MWDIALOGUE_KEYWORDSEARCH_H
#include <map>
#include <cctype>
#include <stdexcept>
#include <vector>
#include <algorithm> // std::reverse
#include <components/misc/stringops.hpp>
namespace MWDialogue
{
template <typename string_t, typename value_t>
class KeywordSearch
{
public:
typedef typename string_t::const_iterator Point;
struct Match
{
Point mBeg;
Point mEnd;
value_t mValue;
};
void seed (string_t keyword, value_t value)
{
if (keyword.empty())
return;
seed_impl (/*std::move*/ (keyword), /*std::move*/ (value), 0, mRoot);
}
void clear ()
{
mRoot.mChildren.clear ();
mRoot.mKeyword.clear ();
}
bool containsKeyword (string_t keyword, value_t& value)
{
typename Entry::childen_t::iterator current;
typename Entry::childen_t::iterator next;
current = mRoot.mChildren.find (Misc::StringUtils::toLower (*keyword.begin()));
if (current == mRoot.mChildren.end())
return false;
else if (current->second.mKeyword.size() && Misc::StringUtils::ciEqual(current->second.mKeyword, keyword))
{
value = current->second.mValue;
return true;
}
for (Point i = ++keyword.begin(); i != keyword.end(); ++i)
{
next = current->second.mChildren.find(Misc::StringUtils::toLower (*i));
if (next == current->second.mChildren.end())
return false;
if (Misc::StringUtils::ciEqual(next->second.mKeyword, keyword))
{
value = next->second.mValue;
return true;
}
current = next;
}
return false;
}
static bool sortMatches(const Match& left, const Match& right)
{
return left.mBeg < right.mBeg;
}
void highlightKeywords (Point beg, Point end, std::vector<Match>& out)
{
std::vector<Match> matches;
for (Point i = beg; i != end; ++i)
{
// check if previous character marked start of new word
if (i != beg)
{
Point prev = i;
--prev;
if(isalpha(*prev))
continue;
}
// check first character
typename Entry::childen_t::iterator candidate = mRoot.mChildren.find (Misc::StringUtils::toLower (*i));
// no match, on to next character
if (candidate == mRoot.mChildren.end ())
continue;
// see how far the match goes
Point j = i;
// some keywords might be longer variations of other keywords, so we definitely need a list of candidates
// the first element in the pair is length of the match, i.e. depth from the first character on
std::vector< typename std::pair<int, typename Entry::childen_t::iterator> > candidates;
while ((j + 1) != end)
{
typename Entry::childen_t::iterator next = candidate->second.mChildren.find (Misc::StringUtils::toLower (*++j));
if (next == candidate->second.mChildren.end ())
{
if (candidate->second.mKeyword.size() > 0)
candidates.push_back(std::make_pair((j-i), candidate));
break;
}
candidate = next;
if (candidate->second.mKeyword.size() > 0)
candidates.push_back(std::make_pair((j-i), candidate));
}
if (candidates.empty())
continue; // didn't match enough to disambiguate, on to next character
// shorter candidates will be added to the vector first. however, we want to check against longer candidates first
std::reverse(candidates.begin(), candidates.end());
for (typename std::vector< std::pair<int, typename Entry::childen_t::iterator> >::iterator it = candidates.begin();
it != candidates.end(); ++it)
{
candidate = it->second;
// try to match the rest of the keyword
Point k = i + it->first;
typename string_t::const_iterator t = candidate->second.mKeyword.begin () + (k - i);
while (k != end && t != candidate->second.mKeyword.end ())
{
if (Misc::StringUtils::toLower (*k) != Misc::StringUtils::toLower (*t))
break;
++k, ++t;
}
// didn't match full keyword, try the next candidate
if (t != candidate->second.mKeyword.end ())
continue;
// found a keyword, but there might still be longer keywords that start somewhere _within_ this keyword
// we will resolve these overlapping keywords later, choosing the longest one in case of conflict
Match match;
match.mValue = candidate->second.mValue;
match.mBeg = i;
match.mEnd = k;
matches.push_back(match);
break;
}
}
// resolve overlapping keywords
while (matches.size())
{
int longestKeywordSize = 0;
typename std::vector<Match>::iterator longestKeyword = matches.begin();
for (typename std::vector<Match>::iterator it = matches.begin(); it != matches.end(); ++it)
{
int size = it->mEnd - it->mBeg;
if (size > longestKeywordSize)
{
longestKeywordSize = size;
longestKeyword = it;
}
typename std::vector<Match>::iterator next = it;
++next;
if (next == matches.end())
break;
if (it->mEnd <= next->mBeg)
{
break; // no overlap
}
}
Match keyword = *longestKeyword;
matches.erase(longestKeyword);
out.push_back(keyword);
// erase anything that overlaps with the keyword we just added to the output
for (typename std::vector<Match>::iterator it = matches.begin(); it != matches.end();)
{
if (it->mBeg < keyword.mEnd && it->mEnd > keyword.mBeg)
it = matches.erase(it);
else
++it;
}
}
std::sort(out.begin(), out.end(), sortMatches);
}
private:
struct Entry
{
typedef std::map <wchar_t, Entry> childen_t;
string_t mKeyword;
value_t mValue;
childen_t mChildren;
};
void seed_impl (string_t keyword, value_t value, size_t depth, Entry & entry)
{
int ch = Misc::StringUtils::toLower (keyword.at (depth));
typename Entry::childen_t::iterator j = entry.mChildren.find (ch);
if (j == entry.mChildren.end ())
{
entry.mChildren [ch].mValue = /*std::move*/ (value);
entry.mChildren [ch].mKeyword = /*std::move*/ (keyword);
}
else
{
if (j->second.mKeyword.size () > 0)
{
if (keyword == j->second.mKeyword)
throw std::runtime_error ("duplicate keyword inserted");
value_t pushValue = /*std::move*/ (j->second.mValue);
string_t pushKeyword = /*std::move*/ (j->second.mKeyword);
if (depth >= pushKeyword.size ())
throw std::runtime_error ("unexpected");
if (depth+1 < pushKeyword.size())
{
seed_impl (/*std::move*/ (pushKeyword), /*std::move*/ (pushValue), depth+1, j->second);
j->second.mKeyword.clear ();
}
}
if (depth+1 == keyword.size())
j->second.mKeyword = value;
else // depth+1 < keyword.size()
seed_impl (/*std::move*/ (keyword), /*std::move*/ (value), depth+1, j->second);
}
}
Entry mRoot;
};
}
#endif
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