mirror of
https://github.com/libretro/bsnes-libretro.git
synced 2024-11-27 02:50:32 +00:00
1e626e75ef
Fixed crash when idling with the snow effect enabled. Added Android target to libretro port [rtretiakov] Various nall library improvements.
387 lines
9.5 KiB
C++
387 lines
9.5 KiB
C++
#pragma once
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#include <nall/array.hpp>
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#include <nall/counting-sort.hpp>
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#include <nall/induced-sort.hpp>
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#include <nall/range.hpp>
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#include <nall/view.hpp>
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namespace nall {
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/*
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input:
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data = "acaacatat"
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0 "acaacatat"
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1 "caacatat"
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2 "aacatat"
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3 "acatat"
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4 "catat"
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5 "atat"
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6 "tat"
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7 "at"
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8 "t"
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9 ""
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suffix_array:
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suffixes = [9,2,0,3,7,5,1,4,8,6] => input + suffixes:
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9 ""
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2 "aacatat"
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0 "acaacatat"
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3 "acatat"
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7 "at"
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5 "atat"
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1 "caacatat"
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4 "catat"
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8 "t"
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6 "tat"
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[auxiliary data structures to represent information lost from suffix trees]
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suffix_array_invert:
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inverted = [2,6,1,3,7,5,9,4,8,0] => input + suffixes[inverted]:
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2 "acaacatat"
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6 "caacatat"
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1 "aacatat"
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3 "acatat"
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7 "catat"
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5 "atat"
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9 "tat"
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4 "at"
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8 "t"
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0 ""
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suffix_array_phi:
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phi = [2,5,9,0,1,7,8,3,4,0]
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suffix_array_lcp:
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prefixes = [0,0,1,3,1,2,0,2,0,1] => lcp[n] == lcp(n, n-1)
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"" 0
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"aacatat" 0
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"acaacatat" 1 "a"
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"acatat" 3 "aca"
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"at" 1 "a"
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"atat" 2 "at"
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"caacatat" 0
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"catat" 2 "ca"
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"t" 0
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"tat" 1 "t"
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suffix_array_plcp:
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plcp = [1,0,0,3,2,2,1,1,0,0]
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suffix_array_lrcp:
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llcp = [0,0,0,3,0,2,0,2,0,0] => llcp[m] == lcp(l, m)
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rlcp = [0,1,1,1,0,0,0,0,0,0] => rlcp[m] == lcp(m, r)
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suffix_array_lpf:
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lengths = [0,0,1,3,2,1,0,2,1,0]
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offsets = [0,0,0,0,1,3,4,5,6,2]
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"acaacatat" (0,-)
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"caacatat" (0,-)
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"aacatat" (1,0) at 0, match "a"
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"acatat" (3,0) at 0, match "aca"
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"catat" (2,1) at 1, match "ca"
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"atat" (1,3) at 3, match "a"
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"tat" (0,-)
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"at" (2,5) at 5, match "at"
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"t" (1,6) at 6, match "t"
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"" (0,-)
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*/
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// suffix array via induced sorting
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// O(n)
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inline auto suffix_array(array_view<uint8_t> input) -> vector<int> {
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return induced_sort(input);
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}
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// inverse
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// O(n)
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inline auto suffix_array_invert(array_view<int> sa) -> vector<int> {
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vector<int> isa;
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isa.reallocate(sa.size());
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for(int i : range(sa.size())) isa[sa[i]] = i;
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return isa;
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}
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// auxiliary data structure for plcp and lpf computation
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// O(n)
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inline auto suffix_array_phi(array_view<int> sa) -> vector<int> {
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vector<int> phi;
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phi.reallocate(sa.size());
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phi[sa[0]] = 0;
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for(int i : range(1, sa.size())) phi[sa[i]] = sa[i - 1];
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return phi;
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}
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// longest common prefix: lcp(l, r)
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// O(n)
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inline auto suffix_array_lcp(int l, int r, array_view<int> sa, array_view<uint8_t> input) -> int {
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int i = sa[l], j = sa[r], k = 0, size = input.size();
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while(i + k < size && j + k < size && input[i + k] == input[j + k]) k++;
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return k;
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}
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// longest common prefix: lcp(i, j, k)
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// O(n)
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inline auto suffix_array_lcp(int i, int j, int k, array_view<uint8_t> input) -> int {
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int size = input.size();
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while(i + k < size && j + k < size && input[i + k] == input[j + k]) k++;
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return k;
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}
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// longest common prefix: lcp[n] == lcp(n, n-1)
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// O(n)
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inline auto suffix_array_lcp(array_view<int> sa, array_view<int> isa, array_view<uint8_t> input) -> vector<int> {
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int k = 0, size = input.size();
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vector<int> lcp;
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lcp.reallocate(size + 1);
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for(int i : range(size)) {
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if(isa[i] == size) { k = 0; continue; } //the next substring is empty; ignore it
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int j = sa[isa[i] + 1];
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while(i + k < size && j + k < size && input[i + k] == input[j + k]) k++;
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lcp[1 + isa[i]] = k;
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if(k) k--;
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}
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lcp[0] = 0;
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return lcp;
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}
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// longest common prefix (from permuted longest common prefix)
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// O(n)
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inline auto suffix_array_lcp(array_view<int> plcp, array_view<int> sa) -> vector<int> {
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vector<int> lcp;
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lcp.reallocate(plcp.size());
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for(int i : range(plcp.size())) lcp[i] = plcp[sa[i]];
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return lcp;
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}
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// permuted longest common prefix
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// O(n)
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inline auto suffix_array_plcp(array_view<int> phi, array_view<uint8_t> input) -> vector<int> {
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vector<int> plcp;
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plcp.reallocate(phi.size());
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int k = 0, size = input.size();
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for(int i : range(size)) {
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int j = phi[i];
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while(i + k < size && j + k < size && input[i + k] == input[j + k]) k++;
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plcp[i] = k;
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if(k) k--;
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}
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return plcp;
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}
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// permuted longest common prefix (from longest common prefix)
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// O(n)
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inline auto suffix_array_plcp(array_view<int> lcp, array_view<int> sa) -> vector<int> {
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vector<int> plcp;
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plcp.reallocate(lcp.size());
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for(int i : range(lcp.size())) plcp[sa[i]] = lcp[i];
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return plcp;
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}
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// longest common prefixes - left + right
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// llcp[m] == lcp(l, m)
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// rlcp[m] == lcp(m, r)
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// O(n)
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// requires: lcp -or- plcp+sa
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inline auto suffix_array_lrcp(vector<int>& llcp, vector<int>& rlcp, array_view<int> lcp, array_view<int> plcp, array_view<int> sa, array_view<uint8_t> input) -> void {
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int size = input.size();
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llcp.reset(), llcp.reallocate(size + 1);
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rlcp.reset(), rlcp.reallocate(size + 1);
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function<int (int, int)> recurse = [&](int l, int r) -> int {
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if(l >= r - 1) {
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if(l >= size) return 0;
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if(lcp) return lcp[l];
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return plcp[sa[l]];
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}
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int m = l + r >> 1;
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llcp[m - 1] = recurse(l, m);
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rlcp[m - 1] = recurse(m, r);
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return min(llcp[m - 1], rlcp[m - 1]);
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};
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recurse(1, size + 1);
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llcp[0] = 0;
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rlcp[0] = 0;
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}
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// longest previous factor
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// O(n)
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// optional: plcp
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inline auto suffix_array_lpf(vector<int>& lengths, vector<int>& offsets, array_view<int> phi, array_view<int> plcp, array_view<uint8_t> input) -> void {
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int k = 0, size = input.size();
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lengths.reset(), lengths.resize(size + 1, -1);
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offsets.reset(), offsets.resize(size + 1, -1);
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function<void (int, int, int)> recurse = [&](int i, int j, int k) -> void {
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if(lengths[i] < 0) {
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lengths[i] = k;
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offsets[i] = j;
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} else if(lengths[i] < k) {
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if(offsets[i] > j) {
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recurse(offsets[i], j, lengths[i]);
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} else {
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recurse(j, offsets[i], lengths[i]);
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}
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lengths[i] = k;
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offsets[i] = j;
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} else {
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if(offsets[i] > j) {
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recurse(offsets[i], j, k);
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} else {
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recurse(j, offsets[i], k);
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}
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}
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};
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for(int i : range(size)) {
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int j = phi[i];
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if(plcp) k = plcp[i];
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else while(i + k < size && j + k < size && input[i + k] == input[j + k]) k++;
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if(i > j) {
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recurse(i, j, k);
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} else {
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recurse(j, i, k);
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}
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if(k) k--;
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}
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lengths[0] = 0;
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offsets[0] = 0;
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}
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// O(n log m)
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inline auto suffix_array_find(int& length, int& offset, array_view<int> sa, array_view<uint8_t> input, array_view<uint8_t> match) -> bool {
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length = 0, offset = 0;
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int l = 0, r = input.size();
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while(l < r - 1) {
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int m = l + r >> 1;
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int s = sa[m];
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int k = 0;
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while(k < match.size() && s + k < input.size()) {
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if(match[k] != input[s + k]) break;
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k++;
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}
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if(k > length) {
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length = k;
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offset = s;
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if(k == match.size()) return true;
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}
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if(k == match.size() || s + k == input.size()) k--;
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if(match[k] < input[s + k]) {
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r = m;
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} else {
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l = m;
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}
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}
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return false;
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}
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// O(n + log m)
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inline auto suffix_array_find(int& length, int& offset, array_view<int> llcp, array_view<int> rlcp, array_view<int> sa, array_view<uint8_t> input, array_view<uint8_t> match) -> bool {
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length = 0, offset = 0;
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int l = 0, r = input.size(), k = 0;
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while(l < r - 1) {
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int m = l + r >> 1;
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int s = sa[m];
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while(k < match.size() && s + k < input.size()) {
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if(match[k] != input[s + k]) break;
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k++;
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}
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if(k > length) {
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length = k;
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offset = s;
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if(k == match.size()) return true;
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}
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if(k == match.size() || s + k == input.size()) k--;
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if(match[k] < input[s + k]) {
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r = m;
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k = min(k, llcp[m]);
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} else {
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l = m;
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k = min(k, rlcp[m]);
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}
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}
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return false;
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}
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//
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//there are multiple strategies for building the required auxiliary structures for suffix arrays
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struct SuffixArray {
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using type = SuffixArray;
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//O(n)
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inline SuffixArray(array_view<uint8_t> input) : input(input) {
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sa = suffix_array(input);
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}
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//O(n)
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inline auto lrcp() -> type& {
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//if(!isa) isa = suffix_array_invert(sa);
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//if(!lcp) lcp = suffix_array_lcp(sa, isa, input);
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if(!phi) phi = suffix_array_phi(sa);
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if(!plcp) plcp = suffix_array_plcp(phi, input);
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//if(!lcp) lcp = suffix_array_lcp(plcp, sa);
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if(!llcp || !rlcp) suffix_array_lrcp(llcp, rlcp, lcp, plcp, sa, input);
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return *this;
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}
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//O(n)
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inline auto lpf() -> type& {
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if(!phi) phi = suffix_array_phi(sa);
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//if(!plcp) plcp = suffix_array_plcp(phi, input);
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if(!lengths || !offsets) suffix_array_lpf(lengths, offsets, phi, plcp, input);
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return *this;
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}
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inline auto operator[](int offset) const -> int {
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return sa[offset];
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}
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//O(n log m)
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//O(n + log m) with lrcp()
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inline auto find(int& length, int& offset, array_view<uint8_t> match) -> bool {
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if(!llcp || !rlcp) return suffix_array_find(length, offset, sa, input, match); //O(n log m)
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return suffix_array_find(length, offset, llcp, rlcp, sa, input, match); //O(n + log m)
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}
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//O(n) with lpf()
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inline auto previous(int& length, int& offset, int address) -> void {
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length = lengths[address];
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offset = offsets[address];
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}
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//non-owning reference: SuffixArray is invalidated if memory is freed
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array_view<uint8_t> input;
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//suffix array and auxiliary data structures
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vector<int> sa; //suffix array
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vector<int> isa; //inverted suffix array
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vector<int> phi; //phi
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vector<int> plcp; //permuted longest common prefixes
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vector<int> lcp; //longest common prefixes
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vector<int> llcp; //longest common prefixes - left
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vector<int> rlcp; //longest common prefixes - right
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vector<int> lengths; //longest previous factors
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vector<int> offsets; //longest previous factors
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};
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}
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