kakoune/src/ranked_match.cc

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#include "ranked_match.hh"
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#include "flags.hh"
#include "unit_tests.hh"
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#include "utf8_iterator.hh"
#include <algorithm>
namespace Kakoune
{
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template<> struct WithBitOps<RankedMatch::Flags> : std::true_type {};
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UsedLetters used_letters(StringView str)
{
UsedLetters res = 0;
for (auto c : str)
{
if (c >= 'a' and c <= 'z')
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res |= 1uLL << (c - 'a');
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else if (c >= 'A' and c <= 'Z')
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res |= 1uLL << (c - 'A' + 26);
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else if (c == '_')
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res |= 1uLL << 53;
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else if (c == '-')
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res |= 1uLL << 54;
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else
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res |= 1uLL << 63;
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}
return res;
}
bool matches(UsedLetters query, UsedLetters letters)
{
return (query & letters) == query;
}
using Utf8It = utf8::iterator<const char*>;
static int count_word_boundaries_match(StringView candidate, StringView query)
{
int count = 0;
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Utf8It query_it{query.begin(), query};
Codepoint prev = 0;
for (Utf8It it{candidate.begin(), candidate}; it != candidate.end(); ++it)
{
const Codepoint c = *it;
const bool is_word_boundary = prev == 0 or
(!iswalnum((wchar_t)prev) and iswalnum((wchar_t)c)) or
(iswlower((wchar_t)prev) and iswupper((wchar_t)c));
prev = c;
if (not is_word_boundary)
continue;
const Codepoint lc = to_lower(c);
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for (auto qit = query_it; qit != query.end(); ++qit)
{
const Codepoint qc = *qit;
if (qc == (islower(qc) ? lc : c))
{
++count;
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query_it = qit+1;
break;
}
}
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if (query_it == query.end())
break;
}
return count;
}
static bool smartcase_eq(Codepoint query, Codepoint candidate)
{
return query == (islower(query) ? to_lower(candidate) : candidate);
}
struct SubseqRes
{
bool matches;
int max_index;
bool single_word;
};
static SubseqRes subsequence_match_smart_case(StringView str, StringView subseq)
{
bool single_word = true;
int max_index = -1;
auto it = str.begin();
int index = 0;
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for (auto subseq_it = subseq.begin(); subseq_it != subseq.end();)
{
if (it == str.end())
return { false };
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const Codepoint c = utf8::read_codepoint(subseq_it, subseq.end());
while (true)
{
auto str_c = utf8::read_codepoint(it, str.end());
if (smartcase_eq(c, str_c))
break;
if (max_index != -1 and single_word and not is_word(str_c))
single_word = false;
++index;
if (it == str.end())
return { false };
}
max_index = index++;
}
return { true, max_index, single_word };
}
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template<typename TestFunc>
RankedMatch::RankedMatch(StringView candidate, StringView query, TestFunc func)
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{
if (candidate.empty() or query.length() > candidate.length())
return;
if (query.empty())
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{
m_candidate = candidate;
return;
}
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if (not func())
return;
auto res = subsequence_match_smart_case(candidate, query);
if (not res.matches)
return;
m_candidate = candidate;
m_max_index = res.max_index;
if (res.single_word)
m_flags |= Flags::SingleWord;
if (smartcase_eq(query[0], candidate[0]))
m_flags |= Flags::FirstCharMatch;
auto it = std::search(candidate.begin(), candidate.end(),
query.begin(), query.end());
if (it != candidate.end())
{
m_flags |= Flags::Contiguous;
if (it == candidate.begin())
{
m_flags |= Flags::Prefix;
if (query.length() == candidate.length())
m_flags |= Flags::FullMatch;
}
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}
m_word_boundary_match_count = count_word_boundaries_match(candidate, query);
if (m_word_boundary_match_count == query.length())
m_flags |= Flags::OnlyWordBoundary;
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}
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RankedMatch::RankedMatch(StringView candidate, UsedLetters candidate_letters,
StringView query, UsedLetters query_letters)
: RankedMatch{candidate, query, [&] {
return matches(to_lower(query_letters), to_lower(candidate_letters)) and
matches(query_letters & upper_mask, candidate_letters & upper_mask);
}} {}
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RankedMatch::RankedMatch(StringView candidate, StringView query)
: RankedMatch{candidate, query, [] { return true; }}
{
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}
bool RankedMatch::operator<(const RankedMatch& other) const
{
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kak_assert((bool)*this and (bool)other);
const auto diff = m_flags ^ other.m_flags;
// flags are different, use their ordering to return the first match
if (diff != Flags::None)
return (int)(m_flags & diff) > (int)(other.m_flags & diff);
if (m_word_boundary_match_count != other.m_word_boundary_match_count)
return m_word_boundary_match_count > other.m_word_boundary_match_count;
if (m_max_index != other.m_max_index)
return m_max_index < other.m_max_index;
auto it1 = m_candidate.begin(), it2 = other.m_candidate.begin();
const auto end1 = m_candidate.end(), end2 = other.m_candidate.end();
while (true)
{
// find next mismatch
while (it1 != end1 and it2 != end2 and *it1 == *it2)
++it1, ++it2;
if (it1 == end1 or it2 == end2)
return it1 == end1 and it2 != end2;
// compare codepoints
it1 = utf8::character_start(it1, m_candidate.begin());
it2 = utf8::character_start(it2, other.m_candidate.begin());
const auto cp1 = utf8::read_codepoint(it1, end1);
const auto cp2 = utf8::read_codepoint(it2, end2);;
if (cp1 != cp2)
{
const bool low1 = islower(cp1), low2 = islower(cp2);
return low1 == low2 ? cp1 < cp2 : low1;
}
}
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}
UnitTest test_ranked_match{[] {
kak_assert(count_word_boundaries_match("run_all_tests", "rat") == 3);
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kak_assert(count_word_boundaries_match("run_all_tests", "at") == 2);
kak_assert(count_word_boundaries_match("countWordBoundariesMatch", "wm") == 2);
kak_assert(count_word_boundaries_match("countWordBoundariesMatch", "cobm") == 3);
kak_assert(count_word_boundaries_match("countWordBoundariesMatch", "cWBM") == 4);
kak_assert(RankedMatch{"source", "so"} < RankedMatch{"source_data", "so"});
kak_assert(not (RankedMatch{"source_data", "so"} < RankedMatch{"source", "so"}));
kak_assert(not (RankedMatch{"source", "so"} < RankedMatch{"source", "so"}));
kak_assert(RankedMatch{"single/word", "wo"} < RankedMatch{"multiw/ord", "wo"});
kak_assert(RankedMatch{"foo/bar/foobar", "foobar"} < RankedMatch{"foo/bar/baz", "foobar"});
kak_assert(RankedMatch{"delete-buffer", "db"} < RankedMatch{"debug", "db"});
kak_assert(RankedMatch{"create_task", "ct"} < RankedMatch{"constructor", "ct"});
}};
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UnitTest test_used_letters{[]()
{
kak_assert(used_letters("abcd") == to_lower(used_letters("abcdABCD")));
}};
}