ladybird/Libraries/LibRegex/RegexMatch.h

578 lines
19 KiB
C++

/*
* Copyright (c) 2020, Emanuel Sprung <emanuel.sprung@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include "Forward.h"
#include "RegexOptions.h"
#include <AK/Error.h>
#include <AK/ByteString.h>
#include <AK/COWVector.h>
#include <AK/DeprecatedFlyString.h>
#include <AK/HashMap.h>
#include <AK/MemMem.h>
#include <AK/RedBlackTree.h>
#include <AK/StringBuilder.h>
#include <AK/StringView.h>
#include <AK/Utf16View.h>
#include <AK/Utf32View.h>
#include <AK/Utf8View.h>
#include <AK/Variant.h>
#include <AK/Vector.h>
namespace regex {
class RegexStringView {
public:
RegexStringView() = default;
RegexStringView(ByteString const& string)
: m_view(string.view())
{
}
RegexStringView(String const& string)
: m_view(string.bytes_as_string_view())
{
}
RegexStringView(StringView const view)
: m_view(view)
{
}
RegexStringView(Utf32View view)
: m_view(view)
{
}
RegexStringView(Utf16View view)
: m_view(view)
{
}
RegexStringView(Utf8View view)
: m_view(view)
{
}
explicit RegexStringView(ByteString&&) = delete;
bool is_string_view() const
{
return m_view.has<StringView>();
}
StringView string_view() const
{
return m_view.get<StringView>();
}
Utf32View const& u32_view() const
{
return m_view.get<Utf32View>();
}
Utf16View const& u16_view() const
{
return m_view.get<Utf16View>();
}
Utf8View const& u8_view() const
{
return m_view.get<Utf8View>();
}
bool unicode() const { return m_unicode; }
void set_unicode(bool unicode) { m_unicode = unicode; }
bool is_empty() const
{
return m_view.visit([](auto& view) { return view.is_empty(); });
}
bool is_null() const
{
return m_view.visit([](auto& view) { return view.is_null(); });
}
size_t length() const
{
if (unicode()) {
return m_view.visit(
[](Utf16View const& view) { return view.length_in_code_points(); },
[](auto const& view) { return view.length(); });
}
return length_in_code_units();
}
size_t length_in_code_units() const
{
return m_view.visit(
[](Utf16View const& view) { return view.length_in_code_units(); },
[](Utf8View const& view) { return view.byte_length(); },
[](auto const& view) { return view.length(); });
}
size_t length_of_code_point(u32 code_point) const
{
return m_view.visit(
[](Utf32View const&) { return 1; },
[&](Utf16View const&) {
if (code_point < 0x10000)
return 1;
return 2;
},
[&](auto const&) {
if (code_point <= 0x7f)
return 1;
if (code_point <= 0x07ff)
return 2;
if (code_point <= 0xffff)
return 3;
return 4;
});
}
RegexStringView typed_null_view()
{
auto view = m_view.visit(
[&]<typename T>(T const&) {
return RegexStringView { T {} };
});
view.set_unicode(unicode());
return view;
}
RegexStringView construct_as_same(Span<u32> data, Optional<ByteString>& optional_string_storage, Utf16Data& optional_utf16_storage) const
{
auto view = m_view.visit(
[&]<typename T>(T const&) {
StringBuilder builder;
for (auto ch : data)
builder.append(ch); // Note: The type conversion is intentional.
optional_string_storage = builder.to_byte_string();
return RegexStringView { T { *optional_string_storage } };
},
[&](Utf32View) {
return RegexStringView { Utf32View { data.data(), data.size() } };
},
[&](Utf16View) {
optional_utf16_storage = AK::utf32_to_utf16(Utf32View { data.data(), data.size() }).release_value_but_fixme_should_propagate_errors();
return RegexStringView { Utf16View { optional_utf16_storage } };
});
view.set_unicode(unicode());
return view;
}
Vector<RegexStringView> lines() const
{
return m_view.visit(
[](StringView view) {
auto views = view.lines(StringView::ConsiderCarriageReturn::No);
Vector<RegexStringView> new_views;
for (auto& view : views)
new_views.empend(view);
return new_views;
},
[](Utf32View view) {
if (view.is_empty())
return Vector<RegexStringView> { view };
Vector<RegexStringView> views;
u32 newline = '\n';
while (!view.is_empty()) {
auto position = AK::memmem_optional(view.code_points(), view.length() * sizeof(u32), &newline, sizeof(u32));
if (!position.has_value())
break;
auto offset = position.value() / sizeof(u32);
views.empend(view.substring_view(0, offset));
view = view.substring_view(offset + 1, view.length() - offset - 1);
}
if (!view.is_empty())
views.empend(view);
return views;
},
[](Utf16View view) {
if (view.is_empty())
return Vector<RegexStringView> { view };
Vector<RegexStringView> views;
u16 newline = '\n';
while (!view.is_empty()) {
auto position = AK::memmem_optional(view.data(), view.length_in_code_units() * sizeof(u16), &newline, sizeof(u16));
if (!position.has_value())
break;
auto offset = position.value() / sizeof(u16);
views.empend(view.substring_view(0, offset));
view = view.substring_view(offset + 1, view.length_in_code_units() - offset - 1);
}
if (!view.is_empty())
views.empend(view);
return views;
},
[](Utf8View const& view) {
if (view.is_empty())
return Vector<RegexStringView> { view };
Vector<RegexStringView> views;
auto it = view.begin();
auto previous_newline_position_it = it;
for (;;) {
if (*it == '\n') {
auto previous_offset = view.byte_offset_of(previous_newline_position_it);
auto new_offset = view.byte_offset_of(it);
auto slice = view.substring_view(previous_offset, new_offset - previous_offset);
views.empend(slice);
++it;
previous_newline_position_it = it;
}
if (it.done())
break;
++it;
}
if (it != previous_newline_position_it) {
auto previous_offset = view.byte_offset_of(previous_newline_position_it);
auto new_offset = view.byte_offset_of(it);
auto slice = view.substring_view(previous_offset, new_offset - previous_offset);
views.empend(slice);
}
return views;
});
}
RegexStringView substring_view(size_t offset, size_t length) const
{
if (unicode()) {
auto view = m_view.visit(
[&](auto view) { return RegexStringView { view.substring_view(offset, length) }; },
[&](Utf16View const& view) { return RegexStringView { view.unicode_substring_view(offset, length) }; },
[&](Utf8View const& view) { return RegexStringView { view.unicode_substring_view(offset, length) }; });
view.set_unicode(unicode());
return view;
}
auto view = m_view.visit([&](auto view) { return RegexStringView { view.substring_view(offset, length) }; });
view.set_unicode(unicode());
return view;
}
ByteString to_byte_string() const
{
return m_view.visit(
[](StringView view) { return view.to_byte_string(); },
[](Utf16View view) { return view.to_byte_string(Utf16View::AllowInvalidCodeUnits::Yes).release_value_but_fixme_should_propagate_errors(); },
[](auto& view) {
StringBuilder builder;
for (auto it = view.begin(); it != view.end(); ++it)
builder.append_code_point(*it);
return builder.to_byte_string();
});
}
ErrorOr<String> to_string() const
{
return m_view.visit(
[](StringView view) { return String::from_utf8(view); },
[](Utf16View view) { return view.to_utf8(Utf16View::AllowInvalidCodeUnits::Yes); },
[](auto& view) -> ErrorOr<String> {
StringBuilder builder;
for (auto it = view.begin(); it != view.end(); ++it)
TRY(builder.try_append_code_point(*it));
return builder.to_string();
});
}
// Note: index must always be the code unit offset to return.
u32 operator[](size_t index) const
{
return m_view.visit(
[&](StringView view) -> u32 {
auto ch = view[index];
if constexpr (IsSigned<char>) {
if (ch < 0)
return 256u + ch;
return ch;
}
},
[&](Utf32View const& view) -> u32 { return view[index]; },
[&](Utf16View const& view) -> u32 { return view.code_point_at(index); },
[&](Utf8View const& view) -> u32 {
auto it = view.iterator_at_byte_offset(index);
VERIFY(it != view.end());
return *it;
});
}
u32 code_unit_at(size_t code_unit_index) const
{
if (unicode())
return operator[](code_unit_index);
return m_view.visit(
[&](StringView view) -> u32 {
auto ch = view[code_unit_index];
if constexpr (IsSigned<char>) {
if (ch < 0)
return 256u + ch;
return ch;
}
},
[&](Utf32View const& view) -> u32 { return view[code_unit_index]; },
[&](Utf16View const& view) -> u32 { return view.code_unit_at(code_unit_index); },
[&](Utf8View const& view) -> u32 {
auto it = view.iterator_at_byte_offset(code_unit_index);
VERIFY(it != view.end());
return *it;
});
}
size_t code_unit_offset_of(size_t code_point_index) const
{
return m_view.visit(
[&](StringView view) -> u32 {
Utf8View utf8_view { view };
return utf8_view.byte_offset_of(code_point_index);
},
[&](Utf32View const&) -> u32 { return code_point_index; },
[&](Utf16View const& view) -> u32 {
return view.code_unit_offset_of(code_point_index);
},
[&](Utf8View const& view) -> u32 {
return view.byte_offset_of(code_point_index);
});
}
bool operator==(char const* cstring) const
{
return m_view.visit(
[&](Utf32View) { return to_byte_string() == cstring; },
[&](Utf16View) { return to_byte_string() == cstring; },
[&](Utf8View const& view) { return view.as_string() == cstring; },
[&](StringView view) { return view == cstring; });
}
bool operator==(ByteString const& string) const
{
return m_view.visit(
[&](Utf32View) { return to_byte_string() == string; },
[&](Utf16View) { return to_byte_string() == string; },
[&](Utf8View const& view) { return view.as_string() == string; },
[&](StringView view) { return view == string; });
}
bool operator==(StringView string) const
{
return m_view.visit(
[&](Utf32View) { return to_byte_string() == string; },
[&](Utf16View) { return to_byte_string() == string; },
[&](Utf8View const& view) { return view.as_string() == string; },
[&](StringView view) { return view == string; });
}
bool operator==(Utf32View const& other) const
{
return m_view.visit(
[&](Utf32View view) {
return view.length() == other.length() && __builtin_memcmp(view.code_points(), other.code_points(), view.length() * sizeof(u32)) == 0;
},
[&](Utf16View) { return to_byte_string() == RegexStringView { other }.to_byte_string(); },
[&](Utf8View const& view) { return view.as_string() == RegexStringView { other }.to_byte_string(); },
[&](StringView view) { return view == RegexStringView { other }.to_byte_string(); });
}
bool operator==(Utf16View const& other) const
{
return m_view.visit(
[&](Utf32View) { return to_byte_string() == RegexStringView { other }.to_byte_string(); },
[&](Utf16View const& view) { return view == other; },
[&](Utf8View const& view) { return view.as_string() == RegexStringView { other }.to_byte_string(); },
[&](StringView view) { return view == RegexStringView { other }.to_byte_string(); });
}
bool operator==(Utf8View const& other) const
{
return m_view.visit(
[&](Utf32View) { return to_byte_string() == other.as_string(); },
[&](Utf16View) { return to_byte_string() == other.as_string(); },
[&](Utf8View const& view) { return view.as_string() == other.as_string(); },
[&](StringView view) { return other.as_string() == view; });
}
bool equals(RegexStringView other) const
{
return other.m_view.visit([this](auto const& view) { return operator==(view); });
}
bool equals_ignoring_case(RegexStringView other) const
{
// FIXME: Implement equals_ignoring_case() for unicode.
return m_view.visit(
[&](StringView view) {
return other.m_view.visit(
[&](StringView other_view) { return view.equals_ignoring_ascii_case(other_view); },
[](auto&) -> bool { TODO(); });
},
[&](Utf16View view) {
return other.m_view.visit(
[&](Utf16View other_view) { return view.equals_ignoring_case(other_view); },
[](auto&) -> bool { TODO(); });
},
[](auto&) -> bool { TODO(); });
}
bool starts_with(StringView str) const
{
return m_view.visit(
[&](Utf32View) -> bool {
TODO();
},
[&](Utf16View) -> bool {
TODO();
},
[&](Utf8View const& view) { return view.as_string().starts_with(str); },
[&](StringView view) { return view.starts_with(str); });
}
bool starts_with(Utf32View const& str) const
{
return m_view.visit(
[&](Utf32View view) -> bool {
if (str.length() > view.length())
return false;
if (str.length() == view.length())
return operator==(str);
for (size_t i = 0; i < str.length(); ++i) {
if (str.at(i) != view.at(i))
return false;
}
return true;
},
[&](Utf16View) -> bool { TODO(); },
[&](Utf8View const& view) {
auto it = view.begin();
for (auto code_point : str) {
if (it.done())
return false;
if (code_point != *it)
return false;
++it;
}
return true;
},
[&](StringView) -> bool { TODO(); });
}
private:
Variant<StringView, Utf8View, Utf16View, Utf32View> m_view { StringView {} };
bool m_unicode { false };
};
class Match final {
private:
Optional<DeprecatedFlyString> string;
public:
Match() = default;
~Match() = default;
Match(RegexStringView view_, size_t const line_, size_t const column_, size_t const global_offset_)
: view(view_)
, line(line_)
, column(column_)
, global_offset(global_offset_)
, left_column(column_)
{
}
Match(ByteString string_, size_t const line_, size_t const column_, size_t const global_offset_)
: string(move(string_))
, view(string.value().view())
, line(line_)
, column(column_)
, global_offset(global_offset_)
{
}
Match(RegexStringView const view_, StringView capture_group_name_, size_t const line_, size_t const column_, size_t const global_offset_)
: view(view_)
, capture_group_name(capture_group_name_)
, line(line_)
, column(column_)
, global_offset(global_offset_)
, left_column(column_)
{
}
void reset()
{
view = view.typed_null_view();
capture_group_name.clear();
line = 0;
column = 0;
global_offset = 0;
left_column = 0;
}
RegexStringView view {};
Optional<DeprecatedFlyString> capture_group_name {};
size_t line { 0 };
size_t column { 0 };
size_t global_offset { 0 };
// ugly, as not usable by user, but needed to prevent to create extra vectors that are
// able to store the column when the left paren has been found
size_t left_column { 0 };
};
struct MatchInput {
RegexStringView view {};
AllOptions regex_options {};
size_t start_offset { 0 }; // For Stateful matches, saved and restored from Regex::start_offset.
size_t match_index { 0 };
size_t line { 0 };
size_t column { 0 };
size_t global_offset { 0 }; // For multiline matching, knowing the offset from start could be important
mutable size_t fail_counter { 0 };
mutable Vector<size_t> saved_positions;
mutable Vector<size_t> saved_code_unit_positions;
mutable Vector<size_t> saved_forks_since_last_save;
mutable Optional<size_t> fork_to_replace;
};
struct MatchState {
size_t string_position_before_match { 0 };
size_t string_position { 0 };
size_t string_position_in_code_units { 0 };
size_t instruction_position { 0 };
size_t fork_at_position { 0 };
size_t forks_since_last_save { 0 };
Optional<size_t> initiating_fork;
COWVector<Match> matches;
COWVector<Vector<Match>> capture_group_matches;
COWVector<u64> repetition_marks;
Vector<u64, 64> checkpoints;
};
}
using regex::RegexStringView;
template<>
struct AK::Formatter<regex::RegexStringView> : Formatter<StringView> {
ErrorOr<void> format(FormatBuilder& builder, regex::RegexStringView value)
{
auto string = value.to_byte_string();
return Formatter<StringView>::format(builder, string);
}
};