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/*
* Copyright (c) 2020, Emanuel Sprung <emanuel.sprung@gmail.com>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#pragma once
#include "RegexMatch.h"
#include "RegexOptions.h"
#include <AK/Format.h>
#include <AK/Forward.h>
#include <AK/HashMap.h>
#include <AK/NonnullOwnPtr.h>
#include <AK/OwnPtr.h>
#include <AK/Traits.h>
#include <AK/Types.h>
#include <AK/Vector.h>
namespace regex {
using ByteCodeValueType = u64;
#define ENUMERATE_OPCODES \
__ENUMERATE_OPCODE(Compare) \
__ENUMERATE_OPCODE(Jump) \
__ENUMERATE_OPCODE(ForkJump) \
__ENUMERATE_OPCODE(ForkStay) \
__ENUMERATE_OPCODE(FailForks) \
__ENUMERATE_OPCODE(SaveLeftCaptureGroup) \
__ENUMERATE_OPCODE(SaveRightCaptureGroup) \
__ENUMERATE_OPCODE(SaveLeftNamedCaptureGroup) \
__ENUMERATE_OPCODE(SaveRightNamedCaptureGroup) \
__ENUMERATE_OPCODE(CheckBegin) \
__ENUMERATE_OPCODE(CheckEnd) \
__ENUMERATE_OPCODE(CheckBoundary) \
__ENUMERATE_OPCODE(Save) \
__ENUMERATE_OPCODE(Restore) \
__ENUMERATE_OPCODE(GoBack) \
__ENUMERATE_OPCODE(Exit)
// clang-format off
enum class OpCodeId : ByteCodeValueType {
#define __ENUMERATE_OPCODE(x) x,
ENUMERATE_OPCODES
#undef __ENUMERATE_OPCODE
First = Compare,
Last = Exit,
};
// clang-format on
#define ENUMERATE_CHARACTER_COMPARE_TYPES \
__ENUMERATE_CHARACTER_COMPARE_TYPE(Undefined) \
__ENUMERATE_CHARACTER_COMPARE_TYPE(Inverse) \
__ENUMERATE_CHARACTER_COMPARE_TYPE(TemporaryInverse) \
__ENUMERATE_CHARACTER_COMPARE_TYPE(AnyChar) \
__ENUMERATE_CHARACTER_COMPARE_TYPE(Char) \
__ENUMERATE_CHARACTER_COMPARE_TYPE(String) \
__ENUMERATE_CHARACTER_COMPARE_TYPE(CharClass) \
__ENUMERATE_CHARACTER_COMPARE_TYPE(CharRange) \
__ENUMERATE_CHARACTER_COMPARE_TYPE(Reference) \
__ENUMERATE_CHARACTER_COMPARE_TYPE(NamedReference) \
__ENUMERATE_CHARACTER_COMPARE_TYPE(RangeExpressionDummy)
enum class CharacterCompareType : ByteCodeValueType {
#define __ENUMERATE_CHARACTER_COMPARE_TYPE(x) x,
ENUMERATE_CHARACTER_COMPARE_TYPES
#undef __ENUMERATE_CHARACTER_COMPARE_TYPE
};
#define ENUMERATE_CHARACTER_CLASSES \
__ENUMERATE_CHARACTER_CLASS(Alnum) \
__ENUMERATE_CHARACTER_CLASS(Cntrl) \
__ENUMERATE_CHARACTER_CLASS(Lower) \
__ENUMERATE_CHARACTER_CLASS(Space) \
__ENUMERATE_CHARACTER_CLASS(Alpha) \
__ENUMERATE_CHARACTER_CLASS(Digit) \
__ENUMERATE_CHARACTER_CLASS(Print) \
__ENUMERATE_CHARACTER_CLASS(Upper) \
__ENUMERATE_CHARACTER_CLASS(Blank) \
__ENUMERATE_CHARACTER_CLASS(Graph) \
__ENUMERATE_CHARACTER_CLASS(Punct) \
__ENUMERATE_CHARACTER_CLASS(Word) \
__ENUMERATE_CHARACTER_CLASS(Xdigit)
enum class CharClass : ByteCodeValueType {
#define __ENUMERATE_CHARACTER_CLASS(x) x,
ENUMERATE_CHARACTER_CLASSES
#undef __ENUMERATE_CHARACTER_CLASS
};
#define ENUMERATE_BOUNDARY_CHECK_TYPES \
__ENUMERATE_BOUNDARY_CHECK_TYPE(Word) \
__ENUMERATE_BOUNDARY_CHECK_TYPE(NonWord)
enum class BoundaryCheckType : ByteCodeValueType {
#define __ENUMERATE_BOUNDARY_CHECK_TYPE(x) x,
ENUMERATE_BOUNDARY_CHECK_TYPES
#undef __ENUMERATE_BOUNDARY_CHECK_TYPE
};
struct CharRange {
const u32 from;
const u32 to;
CharRange(u64 value)
: from(value >> 32)
, to(value & 0xffffffff)
{
}
CharRange(u32 from, u32 to)
: from(from)
, to(to)
{
}
operator ByteCodeValueType() const { return ((u64)from << 32) | to; }
};
struct CompareTypeAndValuePair {
CharacterCompareType type;
ByteCodeValueType value;
};
class OpCode;
class ByteCode : public Vector<ByteCodeValueType> {
public:
ByteCode() = default;
virtual ~ByteCode() = default;
void insert_bytecode_compare_values(Vector<CompareTypeAndValuePair>&& pairs)
{
ByteCode bytecode;
bytecode.empend(static_cast<ByteCodeValueType>(OpCodeId::Compare));
bytecode.empend(pairs.size()); // number of arguments
ByteCode arguments;
for (auto& value : pairs) {
ASSERT(value.type != CharacterCompareType::RangeExpressionDummy);
ASSERT(value.type != CharacterCompareType::Undefined);
ASSERT(value.type != CharacterCompareType::String);
ASSERT(value.type != CharacterCompareType::NamedReference);
arguments.append((ByteCodeValueType)value.type);
if (value.type != CharacterCompareType::Inverse && value.type != CharacterCompareType::AnyChar && value.type != CharacterCompareType::TemporaryInverse)
arguments.append(move(value.value));
}
bytecode.empend(arguments.size()); // size of arguments
bytecode.append(move(arguments));
append(move(bytecode));
}
void insert_bytecode_check_boundary(BoundaryCheckType type)
{
ByteCode bytecode;
bytecode.empend((ByteCodeValueType)OpCodeId::CheckBoundary);
bytecode.empend((ByteCodeValueType)type);
append(move(bytecode));
}
void insert_bytecode_compare_string(StringView view)
{
ByteCode bytecode;
bytecode.empend(static_cast<ByteCodeValueType>(OpCodeId::Compare));
bytecode.empend(static_cast<u64>(1)); // number of arguments
ByteCode arguments;
arguments.empend(static_cast<ByteCodeValueType>(CharacterCompareType::String));
arguments.insert_string(view);
bytecode.empend(arguments.size()); // size of arguments
bytecode.append(move(arguments));
append(move(bytecode));
}
void insert_bytecode_compare_named_reference(StringView name)
{
ByteCode bytecode;
bytecode.empend(static_cast<ByteCodeValueType>(OpCodeId::Compare));
bytecode.empend(static_cast<u64>(1)); // number of arguments
ByteCode arguments;
arguments.empend(static_cast<ByteCodeValueType>(CharacterCompareType::NamedReference));
arguments.empend(reinterpret_cast<ByteCodeValueType>(name.characters_without_null_termination()));
arguments.empend(name.length());
bytecode.empend(arguments.size()); // size of arguments
bytecode.append(move(arguments));
append(move(bytecode));
}
void insert_bytecode_group_capture_left(size_t capture_groups_count)
{
empend(static_cast<ByteCodeValueType>(OpCodeId::SaveLeftCaptureGroup));
empend(capture_groups_count);
}
void insert_bytecode_group_capture_left(const StringView& name)
{
empend(static_cast<ByteCodeValueType>(OpCodeId::SaveLeftNamedCaptureGroup));
empend(reinterpret_cast<ByteCodeValueType>(name.characters_without_null_termination()));
empend(name.length());
}
void insert_bytecode_group_capture_right(size_t capture_groups_count)
{
empend(static_cast<ByteCodeValueType>(OpCodeId::SaveRightCaptureGroup));
empend(capture_groups_count);
}
void insert_bytecode_group_capture_right(const StringView& name)
{
empend(static_cast<ByteCodeValueType>(OpCodeId::SaveRightNamedCaptureGroup));
empend(reinterpret_cast<ByteCodeValueType>(name.characters_without_null_termination()));
empend(name.length());
}
enum class LookAroundType {
LookAhead,
LookBehind,
NegatedLookAhead,
NegatedLookBehind,
};
void insert_bytecode_lookaround(ByteCode&& lookaround_body, LookAroundType type, size_t match_length = 0)
{
// FIXME: The save stack will grow infinitely with repeated failures
// as we do not discard that on failure (we don't necessarily know how many to pop with the current architecture).
switch (type) {
case LookAroundType::LookAhead: {
// SAVE
// REGEXP BODY
// RESTORE
empend((ByteCodeValueType)OpCodeId::Save);
append(move(lookaround_body));
empend((ByteCodeValueType)OpCodeId::Restore);
return;
}
case LookAroundType::NegatedLookAhead: {
// JUMP _A
// LABEL _L
// REGEXP BODY
// FAIL 2
// LABEL _A
// SAVE
// FORKJUMP _L
// RESTORE
auto body_length = lookaround_body.size();
empend((ByteCodeValueType)OpCodeId::Jump);
empend((ByteCodeValueType)body_length + 2); // JUMP to label _A
append(move(lookaround_body));
empend((ByteCodeValueType)OpCodeId::FailForks);
empend((ByteCodeValueType)2); // Fail two forks
empend((ByteCodeValueType)OpCodeId::Save);
empend((ByteCodeValueType)OpCodeId::ForkJump);
empend((ByteCodeValueType) - (body_length + 5)); // JUMP to lavel _L
empend((ByteCodeValueType)OpCodeId::Restore);
return;
}
case LookAroundType::LookBehind:
// SAVE
// GOBACK match_length(BODY)
// REGEXP BODY
// RESTORE
empend((ByteCodeValueType)OpCodeId::Save);
empend((ByteCodeValueType)OpCodeId::GoBack);
empend((ByteCodeValueType)match_length);
append(move(lookaround_body));
empend((ByteCodeValueType)OpCodeId::Restore);
return;
case LookAroundType::NegatedLookBehind: {
// JUMP _A
// LABEL _L
// GOBACK match_length(BODY)
// REGEXP BODY
// FAIL 2
// LABEL _A
// SAVE
// FORKJUMP _L
// RESTORE
auto body_length = lookaround_body.size();
empend((ByteCodeValueType)OpCodeId::Jump);
empend((ByteCodeValueType)body_length + 4); // JUMP to label _A
empend((ByteCodeValueType)OpCodeId::GoBack);
empend((ByteCodeValueType)match_length);
append(move(lookaround_body));
empend((ByteCodeValueType)OpCodeId::FailForks);
empend((ByteCodeValueType)2); // Fail two forks
empend((ByteCodeValueType)OpCodeId::Save);
empend((ByteCodeValueType)OpCodeId::ForkJump);
empend((ByteCodeValueType) - (body_length + 7)); // JUMP to lavel _L
empend((ByteCodeValueType)OpCodeId::Restore);
return;
}
}
ASSERT_NOT_REACHED();
}
void insert_bytecode_alternation(ByteCode&& left, ByteCode&& right)
{
// FORKJUMP _ALT
// REGEXP ALT1
// JUMP _END
// LABEL _ALT
// REGEXP ALT2
// LABEL _END
ByteCode byte_code;
empend(static_cast<ByteCodeValueType>(OpCodeId::ForkJump));
empend(left.size() + 2); // Jump to the _ALT label
for (auto& op : left)
append(move(op));
empend(static_cast<ByteCodeValueType>(OpCodeId::Jump));
empend(right.size()); // Jump to the _END label
// LABEL _ALT = bytecode.size() + 2
for (auto& op : right)
append(move(op));
// LABEL _END = alterantive_bytecode.size
}
void insert_bytecode_repetition_min_max(ByteCode& bytecode_to_repeat, size_t minimum, Optional<size_t> maximum)
{
ByteCode new_bytecode;
new_bytecode.insert_bytecode_repetition_n(bytecode_to_repeat, minimum);
if (maximum.has_value()) {
if (maximum.value() > minimum) {
auto diff = maximum.value() - minimum;
new_bytecode.empend(static_cast<ByteCodeValueType>(OpCodeId::ForkStay));
new_bytecode.empend(diff * (bytecode_to_repeat.size() + 2)); // Jump to the _END label
for (size_t i = 0; i < diff; ++i) {
new_bytecode.append(bytecode_to_repeat);
new_bytecode.empend(static_cast<ByteCodeValueType>(OpCodeId::ForkStay));
new_bytecode.empend((diff - i - 1) * (bytecode_to_repeat.size() + 2)); // Jump to the _END label
}
}
} else {
// no maximum value set, repeat finding if possible
new_bytecode.empend(static_cast<ByteCodeValueType>(OpCodeId::ForkJump));
new_bytecode.empend(-bytecode_to_repeat.size() - 2); // Jump to the last iteration
}
bytecode_to_repeat = move(new_bytecode);
}
void insert_bytecode_repetition_n(ByteCode& bytecode_to_repeat, size_t n)
{
for (size_t i = 0; i < n; ++i)
append(bytecode_to_repeat);
}
void insert_bytecode_repetition_min_one(ByteCode& bytecode_to_repeat, bool greedy)
{
// LABEL _START = -bytecode_to_repeat.size()
// REGEXP
// FORKSTAY _START (FORKJUMP -> Greedy)
if (greedy)
bytecode_to_repeat.empend(static_cast<ByteCodeValueType>(OpCodeId::ForkJump));
else
bytecode_to_repeat.empend(static_cast<ByteCodeValueType>(OpCodeId::ForkStay));
bytecode_to_repeat.empend(-(bytecode_to_repeat.size() + 1)); // Jump to the _START label
}
void insert_bytecode_repetition_any(ByteCode& bytecode_to_repeat, bool greedy)
{
// LABEL _START
// FORKJUMP _END (FORKSTAY -> Greedy)
// REGEXP
// JUMP _START
// LABEL _END
// LABEL _START = m_bytes.size();
ByteCode bytecode;
if (greedy)
bytecode.empend(static_cast<ByteCodeValueType>(OpCodeId::ForkStay));
else
bytecode.empend(static_cast<ByteCodeValueType>(OpCodeId::ForkJump));
bytecode.empend(bytecode_to_repeat.size() + 2); // Jump to the _END label
for (auto& op : bytecode_to_repeat)
bytecode.append(move(op));
bytecode.empend(static_cast<ByteCodeValueType>(OpCodeId::Jump));
bytecode.empend(-bytecode.size() - 1); // Jump to the _START label
// LABEL _END = bytecode.size()
bytecode_to_repeat = move(bytecode);
}
void insert_bytecode_repetition_zero_or_one(ByteCode& bytecode_to_repeat, bool greedy)
{
// FORKJUMP _END (FORKSTAY -> Greedy)
// REGEXP
// LABEL _END
ByteCode bytecode;
if (greedy)
bytecode.empend(static_cast<ByteCodeValueType>(OpCodeId::ForkStay));
else
bytecode.empend(static_cast<ByteCodeValueType>(OpCodeId::ForkJump));
bytecode.empend(bytecode_to_repeat.size()); // Jump to the _END label
for (auto& op : bytecode_to_repeat)
bytecode.append(move(op));
// LABEL _END = bytecode.size()
bytecode_to_repeat = move(bytecode);
}
OpCode* get_opcode(MatchState& state) const;
private:
void insert_string(const StringView& view)
{
empend((ByteCodeValueType)view.length());
for (size_t i = 0; i < view.length(); ++i)
empend((ByteCodeValueType)view[i]);
}
ALWAYS_INLINE OpCode* get_opcode_by_id(OpCodeId id) const;
static HashMap<u32, OwnPtr<OpCode>> s_opcodes;
};
#define ENUMERATE_EXECUTION_RESULTS \
__ENUMERATE_EXECUTION_RESULT(Continue) \
__ENUMERATE_EXECUTION_RESULT(Fork_PrioHigh) \
__ENUMERATE_EXECUTION_RESULT(Fork_PrioLow) \
__ENUMERATE_EXECUTION_RESULT(Failed) \
__ENUMERATE_EXECUTION_RESULT(Failed_ExecuteLowPrioForks) \
__ENUMERATE_EXECUTION_RESULT(Succeeded)
enum class ExecutionResult : u8 {
#define __ENUMERATE_EXECUTION_RESULT(x) x,
ENUMERATE_EXECUTION_RESULTS
#undef __ENUMERATE_EXECUTION_RESULT
};
const char* execution_result_name(ExecutionResult result);
const char* opcode_id_name(OpCodeId opcode_id);
const char* boundary_check_type_name(BoundaryCheckType);
const char* character_compare_type_name(CharacterCompareType result);
const char* execution_result_name(ExecutionResult result);
class OpCode {
public:
OpCode(ByteCode& bytecode)
: m_bytecode(&bytecode)
{
}
virtual ~OpCode() = default;
virtual OpCodeId opcode_id() const = 0;
virtual size_t size() const = 0;
virtual ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const = 0;
ALWAYS_INLINE ByteCodeValueType argument(size_t offset) const
{
ASSERT(state().instruction_position + offset <= m_bytecode->size());
return m_bytecode->at(state().instruction_position + 1 + offset);
}
ALWAYS_INLINE const char* name() const;
static const char* name(const OpCodeId);
ALWAYS_INLINE OpCode* set_state(MatchState& state)
{
m_state = &state;
return this;
}
ALWAYS_INLINE OpCode* set_bytecode(ByteCode& bytecode)
{
m_bytecode = &bytecode;
return this;
}
ALWAYS_INLINE void reset_state() { m_state.clear(); }
ALWAYS_INLINE const MatchState& state() const
{
ASSERT(m_state.has_value());
return *m_state.value();
}
const String to_string() const
{
return String::format("[0x%02X] %s", (int)opcode_id(), name(opcode_id()));
}
virtual const String arguments_string() const = 0;
ALWAYS_INLINE const ByteCode& bytecode() const { return *m_bytecode; }
protected:
ByteCode* m_bytecode;
Optional<MatchState*> m_state;
};
class OpCode_Exit final : public OpCode {
public:
OpCode_Exit(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::Exit; }
ALWAYS_INLINE size_t size() const override { return 1; }
const String arguments_string() const override { return ""; }
};
class OpCode_FailForks final : public OpCode {
public:
OpCode_FailForks(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::FailForks; }
ALWAYS_INLINE size_t size() const override { return 2; }
ALWAYS_INLINE size_t count() const { return argument(0); }
const String arguments_string() const override { return String::formatted("count={}", count()); }
};
class OpCode_Save final : public OpCode {
public:
OpCode_Save(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::Save; }
ALWAYS_INLINE size_t size() const override { return 1; }
const String arguments_string() const override { return ""; }
};
class OpCode_Restore final : public OpCode {
public:
OpCode_Restore(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::Restore; }
ALWAYS_INLINE size_t size() const override { return 1; }
const String arguments_string() const override { return ""; }
};
class OpCode_GoBack final : public OpCode {
public:
OpCode_GoBack(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::GoBack; }
ALWAYS_INLINE size_t size() const override { return 2; }
ALWAYS_INLINE size_t count() const { return argument(0); }
const String arguments_string() const override { return String::formatted("count={}", count()); }
};
class OpCode_Jump final : public OpCode {
public:
OpCode_Jump(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::Jump; }
ALWAYS_INLINE size_t size() const override { return 2; }
ALWAYS_INLINE ssize_t offset() const { return argument(0); }
const String arguments_string() const override
{
return String::format("offset=%zd [&%zu]", offset(), state().instruction_position + size() + offset());
}
};
class OpCode_ForkJump final : public OpCode {
public:
OpCode_ForkJump(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::ForkJump; }
ALWAYS_INLINE size_t size() const override { return 2; }
ALWAYS_INLINE ssize_t offset() const { return argument(0); }
const String arguments_string() const override
{
return String::format("offset=%zd [&%zu], sp: %zu", offset(), state().instruction_position + size() + offset(), state().string_position);
}
};
class OpCode_ForkStay final : public OpCode {
public:
OpCode_ForkStay(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::ForkStay; }
ALWAYS_INLINE size_t size() const override { return 2; }
ALWAYS_INLINE ssize_t offset() const { return argument(0); }
const String arguments_string() const override
{
return String::format("offset=%zd [&%zu], sp: %zu", offset(), state().instruction_position + size() + offset(), state().string_position);
}
};
class OpCode_CheckBegin final : public OpCode {
public:
OpCode_CheckBegin(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::CheckBegin; }
ALWAYS_INLINE size_t size() const override { return 1; }
const String arguments_string() const override { return ""; }
};
class OpCode_CheckEnd final : public OpCode {
public:
OpCode_CheckEnd(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::CheckEnd; }
ALWAYS_INLINE size_t size() const override { return 1; }
const String arguments_string() const override { return ""; }
};
class OpCode_CheckBoundary final : public OpCode {
public:
OpCode_CheckBoundary(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::CheckBoundary; }
ALWAYS_INLINE size_t size() const override { return 2; }
ALWAYS_INLINE size_t arguments_count() const { return 1; }
ALWAYS_INLINE BoundaryCheckType type() const { return static_cast<BoundaryCheckType>(argument(0)); }
const String arguments_string() const override { return String::format("kind=%lu (%s)", (long unsigned int)argument(0), boundary_check_type_name(type())); }
};
class OpCode_SaveLeftCaptureGroup final : public OpCode {
public:
OpCode_SaveLeftCaptureGroup(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::SaveLeftCaptureGroup; }
ALWAYS_INLINE size_t size() const override { return 2; }
ALWAYS_INLINE size_t id() const { return argument(0); }
const String arguments_string() const override { return String::format("id=%lu", id()); }
};
class OpCode_SaveRightCaptureGroup final : public OpCode {
public:
OpCode_SaveRightCaptureGroup(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::SaveRightCaptureGroup; }
ALWAYS_INLINE size_t size() const override { return 2; }
ALWAYS_INLINE size_t id() const { return argument(0); }
const String arguments_string() const override { return String::format("id=%lu", id()); }
};
class OpCode_SaveLeftNamedCaptureGroup final : public OpCode {
public:
OpCode_SaveLeftNamedCaptureGroup(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::SaveLeftNamedCaptureGroup; }
ALWAYS_INLINE size_t size() const override { return 3; }
ALWAYS_INLINE StringView name() const { return { reinterpret_cast<char*>(argument(0)), length() }; }
ALWAYS_INLINE size_t length() const { return argument(1); }
const String arguments_string() const override
{
return String::format("name=%s, length=%lu", name().to_string().characters(), length());
}
};
class OpCode_SaveRightNamedCaptureGroup final : public OpCode {
public:
OpCode_SaveRightNamedCaptureGroup(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::SaveRightNamedCaptureGroup; }
ALWAYS_INLINE size_t size() const override { return 3; }
ALWAYS_INLINE StringView name() const { return { reinterpret_cast<char*>(argument(0)), length() }; }
ALWAYS_INLINE size_t length() const { return argument(1); }
const String arguments_string() const override
{
return String::format("name=%s, length=%zu", name().to_string().characters(), length());
}
};
class OpCode_Compare final : public OpCode {
public:
OpCode_Compare(ByteCode& bytecode)
: OpCode(bytecode)
{
}
ExecutionResult execute(const MatchInput& input, MatchState& state, MatchOutput& output) const override;
ALWAYS_INLINE OpCodeId opcode_id() const override { return OpCodeId::Compare; }
ALWAYS_INLINE size_t size() const override { return arguments_size() + 3; }
ALWAYS_INLINE size_t arguments_count() const { return argument(0); }
ALWAYS_INLINE size_t arguments_size() const { return argument(1); }
const String arguments_string() const override;
const Vector<String> variable_arguments_to_string(Optional<MatchInput> input = {}) const;
private:
ALWAYS_INLINE static void compare_char(const MatchInput& input, MatchState& state, u32 ch1, bool inverse, bool& inverse_matched);
ALWAYS_INLINE static bool compare_string(const MatchInput& input, MatchState& state, const char* str, size_t length);
ALWAYS_INLINE static void compare_character_class(const MatchInput& input, MatchState& state, CharClass character_class, u32 ch, bool inverse, bool& inverse_matched);
ALWAYS_INLINE static void compare_character_range(const MatchInput& input, MatchState& state, u32 from, u32 to, u32 ch, bool inverse, bool& inverse_matched);
};
template<typename T>
bool is(const OpCode&);
template<typename T>
ALWAYS_INLINE bool is(const OpCode&)
{
return false;
}
template<typename T>
ALWAYS_INLINE bool is(const OpCode* opcode)
{
return is<T>(*opcode);
}
template<>
ALWAYS_INLINE bool is<OpCode_ForkStay>(const OpCode& opcode)
{
return opcode.opcode_id() == OpCodeId::ForkStay;
}
template<>
ALWAYS_INLINE bool is<OpCode_Exit>(const OpCode& opcode)
{
return opcode.opcode_id() == OpCodeId::Exit;
}
template<>
ALWAYS_INLINE bool is<OpCode_Compare>(const OpCode& opcode)
{
return opcode.opcode_id() == OpCodeId::Compare;
}
template<typename T>
ALWAYS_INLINE const T& to(const OpCode& opcode)
{
ASSERT(is<T>(opcode));
return static_cast<const T&>(opcode);
}
template<typename T>
ALWAYS_INLINE T* to(OpCode* opcode)
{
ASSERT(is<T>(opcode));
return static_cast<T*>(opcode);
}
template<typename T>
ALWAYS_INLINE const T* to(const OpCode* opcode)
{
ASSERT(is<T>(opcode));
return static_cast<const T*>(opcode);
}
template<typename T>
ALWAYS_INLINE T& to(OpCode& opcode)
{
ASSERT(is<T>(opcode));
return static_cast<T&>(opcode);
}
}
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