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https://github.com/libretro/bsnes-libretro.git
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1e626e75ef
Fixed crash when idling with the snow effect enabled. Added Android target to libretro port [rtretiakov] Various nall library improvements.
177 lines
5.9 KiB
C++
177 lines
5.9 KiB
C++
#pragma once
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//suffix array construction via induced sorting
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//many thanks to Screwtape for the thorough explanation of this algorithm
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//this implementation would not be possible without his help
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namespace nall {
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//note that induced_sort will return an array of size+1 characters,
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//where the first character is the empty suffix, equal to size
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template<typename T>
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inline auto induced_sort(array_view<T> data, const uint characters = 256) -> vector<int> {
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const uint size = data.size();
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if(size == 0) return vector<int>{0}; //required to avoid out-of-bounds accesses
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if(size == 1) return vector<int>{1, 0}; //not strictly necessary; but more performant
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vector<bool> types; //0 = S-suffix (sort before next suffix), 1 = L-suffix (sort after next suffix)
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types.resize(size + 1);
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types[size - 0] = 0; //empty suffix is always S-suffix
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types[size - 1] = 1; //last suffix is always L-suffix compared to empty suffix
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for(uint n : reverse(range(size - 1))) {
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if(data[n] < data[n + 1]) {
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types[n] = 0; //this suffix is smaller than the one after it
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} else if(data[n] > data[n + 1]) {
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types[n] = 1; //this suffix is larger than the one after it
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} else {
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types[n] = types[n + 1]; //this suffix will be the same as the one after it
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}
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}
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//left-most S-suffix
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auto isLMS = [&](int n) -> bool {
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if(n == 0) return 0; //no character to the left of the first suffix
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return !types[n] && types[n - 1]; //true if this is the start of a new S-suffix
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};
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//test if two LMS-substrings are equal
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auto isEqual = [&](int lhs, int rhs) -> bool {
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if(lhs == size || rhs == size) return false; //no other suffix can be equal to the empty suffix
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for(uint n = 0;; n++) {
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bool lhsLMS = isLMS(lhs + n);
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bool rhsLMS = isLMS(rhs + n);
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if(n && lhsLMS && rhsLMS) return true; //substrings are identical
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if(lhsLMS != rhsLMS) return false; //length mismatch: substrings cannot be identical
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if(data[lhs + n] != data[rhs + n]) return false; //character mismatch: substrings are different
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}
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};
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//determine the sizes of each bucket: one bucket per character
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vector<uint> counts;
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counts.resize(characters);
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for(uint n : range(size)) counts[data[n]]++;
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//bucket sorting start offsets
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vector<uint> heads;
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heads.resize(characters);
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uint headOffset;
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auto getHeads = [&] {
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headOffset = 1;
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for(uint n : range(characters)) {
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heads[n] = headOffset;
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headOffset += counts[n];
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}
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};
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//bucket sorting end offsets
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vector<uint> tails;
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tails.resize(characters);
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uint tailOffset;
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auto getTails = [&] {
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tailOffset = 1;
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for(uint n : range(characters)) {
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tailOffset += counts[n];
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tails[n] = tailOffset - 1;
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}
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};
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//inaccurate LMS bucket sort
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vector<int> suffixes;
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suffixes.resize(size + 1, (int)-1);
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getTails();
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for(uint n : range(size)) {
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if(!isLMS(n)) continue; //skip non-LMS-suffixes
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suffixes[tails[data[n]]--] = n; //advance from the tail of the bucket
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}
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suffixes[0] = size; //the empty suffix is always an LMS-suffix, and is the first suffix
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//sort all L-suffixes to the left of LMS-suffixes
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auto sortL = [&] {
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getHeads();
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for(uint n : range(size + 1)) {
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if(suffixes[n] == -1) continue; //offsets may not be known yet here ...
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auto l = suffixes[n] - 1;
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if(l < 0 || !types[l]) continue; //skip S-suffixes
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suffixes[heads[data[l]]++] = l; //advance from the head of the bucket
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}
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};
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auto sortS = [&] {
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getTails();
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for(uint n : reverse(range(size + 1))) {
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auto l = suffixes[n] - 1;
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if(l < 0 || types[l]) continue; //skip L-suffixes
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suffixes[tails[data[l]]--] = l; //advance from the tail of the bucket
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}
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};
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sortL();
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sortS();
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//analyze data for the summary suffix array
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vector<int> names;
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names.resize(size + 1, (int)-1);
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uint currentName = 0; //keep a count to tag each unique LMS-substring with unique IDs
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auto lastLMSOffset = suffixes[0]; //location in the original data of the last checked LMS suffix
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names[lastLMSOffset] = currentName; //the first LMS-substring is always the empty suffix entry, at position 0
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for(uint n : range(1, size + 1)) {
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auto offset = suffixes[n];
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if(!isLMS(offset)) continue; //only LMS suffixes are important
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//if this LMS suffix starts with a different LMS substring than the last suffix observed ...
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if(!isEqual(lastLMSOffset, offset)) currentName++; //then it gets a new name
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lastLMSOffset = offset; //keep track of the new most-recent LMS suffix
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names[lastLMSOffset] = currentName; //store the LMS suffix name where the suffix appears at in the original data
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}
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vector<int> summaryOffsets;
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vector<int> summaryData;
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for(uint n : range(size + 1)) {
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if(names[n] == -1) continue;
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summaryOffsets.append(n);
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summaryData.append(names[n]);
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}
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uint summaryCharacters = currentName + 1; //zero-indexed, so the total unique characters is currentName + 1
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//make the summary suffix array
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vector<int> summaries;
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if(summaryData.size() == summaryCharacters) {
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//simple bucket sort when every character in summaryData appears only once
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summaries.resize(summaryData.size() + 1, (int)-1);
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summaries[0] = summaryData.size(); //always include the empty suffix at the beginning
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for(int x : range(summaryData.size())) {
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int y = summaryData[x];
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summaries[y + 1] = x;
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}
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} else {
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//recurse until every character in summaryData is unique ...
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summaries = induced_sort<int>({summaryData.data(), summaryData.size()}, summaryCharacters);
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}
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suffixes.fill(-1); //reuse existing buffer for accurate sort
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//accurate LMS sort
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getTails();
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for(uint n : reverse(range(2, summaries.size()))) {
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auto index = summaryOffsets[summaries[n]];
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suffixes[tails[data[index]]--] = index; //advance from the tail of the bucket
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}
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suffixes[0] = size; //always include the empty suffix at the beginning
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sortL();
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sortS();
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return suffixes;
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}
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}
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