/* * Copyright (c) 2020, Emanuel Sprung * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include "AK/StringBuilder.h" #include "LibRegex/RegexMatcher.h" #include namespace regex { class RegexDebug { public: RegexDebug(FILE* file = stdout) : m_file(file) { } virtual ~RegexDebug() = default; template void print_raw_bytecode(Regex& regex) const { auto& bytecode = regex.parser_result.bytecode; size_t index { 0 }; for (auto& value : bytecode) { fprintf(m_file, "OpCode i=%3lu [0x%02X]\n", index, (u32)value); ++index; } } template void print_bytecode(const Regex& regex) const { MatchState state; auto& bytecode = regex.parser_result.bytecode; for (;;) { auto* opcode = bytecode.get_opcode(state); if (!opcode) { dbgln("Wrong opcode... failed!"); return; } print_opcode("PrintBytecode", *opcode, state); fprintf(m_file, "%s", m_debug_stripline.characters()); if (is(*opcode)) break; state.instruction_position += opcode->size(); } fflush(m_file); } void print_opcode(const String& system, OpCode& opcode, MatchState& state, size_t recursion = 0, bool newline = true) const { fprintf(m_file, "%-15s | %-5lu | %-9lu | %-35s | %-30s | %-20s%s", system.characters(), state.instruction_position, recursion, opcode.to_string().characters(), opcode.arguments_string().characters(), String::formatted("ip: {:3}, sp: {:3}", state.instruction_position, state.string_position).characters(), newline ? "\n" : ""); if (newline && is(opcode)) { for (auto& line : to(opcode).variable_arguments_to_string()) { fprintf(m_file, "%-15s | %-5s | %-9s | %-35s | %-30s | %-20s%s", "", "", "", "", line.characters(), "", "\n"); } } } void print_result(const OpCode& opcode, const ByteCode& bytecode, const MatchInput& input, MatchState& state, ExecutionResult result) const { StringBuilder builder; builder.append(execution_result_name(result)); builder.appendff(", fc: {}, ss: {}", input.fail_counter, input.saved_positions.size()); if (result == ExecutionResult::Succeeded) { builder.appendff(", ip: {}/{}, sp: {}/{}", state.instruction_position, bytecode.size() - 1, state.string_position, input.view.length() - 1); } else if (result == ExecutionResult::Fork_PrioHigh) { builder.appendff(", next ip: {}", state.fork_at_position + opcode.size()); } else if (result != ExecutionResult::Failed) { builder.appendff(", next ip: {}", state.instruction_position + opcode.size()); } fprintf(m_file, " | %-20s\n", builder.to_string().characters()); if (is(opcode)) { for (auto& line : to(opcode).variable_arguments_to_string(input)) { fprintf(m_file, "%-15s | %-5s | %-9s | %-35s | %-30s | %-20s%s", "", "", "", "", line.characters(), "", "\n"); } } fprintf(m_file, "%s", m_debug_stripline.characters()); } void print_header() { StringBuilder builder; builder.appendff("{:15} | {:5} | {:9} | {:35} | {:30} | {:20} | {:20}\n", "System", "Index", "Recursion", "OpCode", "Arguments", "State", "Result"); auto length = builder.length(); for (size_t i = 0; i < length; ++i) { builder.append('='); } auto str = builder.to_string(); VERIFY(!str.is_empty()); fprintf(m_file, "%s\n", str.characters()); fflush(m_file); builder.clear(); for (size_t i = 0; i < length; ++i) { builder.append('-'); } builder.append('\n'); m_debug_stripline = builder.to_string(); } private: String m_debug_stripline; FILE* m_file; }; } using regex::RegexDebug;