Textractor_test/extensions/removerepeat.cpp
2019-06-04 15:30:48 -04:00

110 lines
3.3 KiB
C++

#include "extension.h"
void RemoveRepeatedSentences(std::wstring& sentence, uint64_t textNumber)
{
static std::deque<ThreadSafe<std::vector<std::wstring>>> cache;
static std::mutex m;
m.lock();
if (textNumber + 1 > cache.size()) cache.resize(textNumber + 1);
auto[lock, prevSentences] = cache.at(textNumber).operator->();
m.unlock();
auto& inserted = prevSentences->emplace_back(sentence);
auto firstLocation = std::find(prevSentences->begin(), prevSentences->end(), sentence);
if (&*firstLocation != &inserted)
{
prevSentences->erase(firstLocation);
sentence.clear();
}
if (prevSentences->size() > 50) prevSentences->erase(prevSentences->begin());
}
void RemoveRepeatedChars(std::wstring& sentence)
{
std::vector<int> repeatNumbers(sentence.size() + 1, 0);
int repeatNumber = 1;
wchar_t prevChar = L'\0';
for (auto nextChar : sentence)
{
if (nextChar == prevChar)
{
repeatNumber += 1;
}
else
{
prevChar = nextChar;
repeatNumbers.at(repeatNumber) += 1;
repeatNumber = 1;
}
}
if ((repeatNumber = std::distance(repeatNumbers.begin(), std::max_element(repeatNumbers.begin(), repeatNumbers.end()))) == 1) return;
std::wstring newSentence;
for (int i = 0; i < sentence.size();)
{
newSentence.push_back(sentence.at(i));
for (int j = i; j <= sentence.size(); ++j)
{
if (j == sentence.size() || sentence.at(i) != sentence.at(j))
{
i += (j - i) % repeatNumber == 0 ? repeatNumber : 1;
break;
}
}
}
sentence = newSentence;
}
void RemoveCyclicRepeats(std::wstring& sentence)
{
if (sentence.size() > 15000) return; // this algorithm is O(N^3) so if N > 15000 it's extremely slow
auto data = std::make_unique<wchar_t[]>(sentence.size() + 1);
wcscpy_s(data.get(), sentence.size() + 1, sentence.c_str());
wchar_t* dataEnd = data.get() + sentence.size();
int skip = 0, count = 0;
for (wchar_t* end = dataEnd; end - data.get() > skip; --end)
{
std::swap(*end, *dataEnd);
int junkLength = end - data.get() - skip;
auto junkFound = wcsstr(sentence.c_str() + skip + junkLength, data.get() + skip);
std::swap(*end, *dataEnd);
if (junkFound)
{
if (count && junkLength < min(skip / count, 4)) break;
skip += junkLength;
count += 1;
end = dataEnd;
}
}
if (count && skip / count >= 3) sentence = data.get() + skip;
}
bool ProcessSentence(std::wstring& sentence, SentenceInfo sentenceInfo)
{
if (sentenceInfo["text number"] == 0) return false;
RemoveRepeatedSentences(sentence, sentenceInfo["text number"]);
RemoveRepeatedChars(sentence);
RemoveCyclicRepeats(sentence);
return true;
}
TEST(
{
std::wstring repeatedChars = L"aaaaaaaaaaaabbbbbbcccdddaabbbcccddd";
RemoveRepeatedChars(repeatedChars);
assert(repeatedChars.find(L"aaaabbcd") == 0);
std::wstring cyclicRepeats = L"_abcde_abcdef_abcdefg_abcdefg_abcdefg_abcdefg_abcdefg";
std::wstring buildupRepeats = L"__a_ab_abc_abcd_abcde_abcdef_abcdefg";
RemoveCyclicRepeats(cyclicRepeats);
RemoveCyclicRepeats(buildupRepeats);
assert(cyclicRepeats == L"_abcdefg");
assert(buildupRepeats == L"_abcdefg");
std::wstring empty = L"", one = L" ", normal = L"This is a normal sentence. はい";
ProcessSentence(empty, { SentenceInfo::DUMMY });
ProcessSentence(one, { SentenceInfo::DUMMY });
ProcessSentence(normal, { SentenceInfo::DUMMY });
assert(empty == L"" && one == L" " && normal == L"This is a normal sentence. はい");
}
);