581 lines
16 KiB
C++
581 lines
16 KiB
C++
#include "CmdHelper.hpp"
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#include <algorithm>
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namespace Unvirt::CmdHelper {
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#pragma region CmdSplitter
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const std::deque<std::u8string>& CmdSplitter::GetResult() const {
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if (!m_ValidResult)
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throw std::runtime_error("try to get result from an invalid CmdSplitter.");
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return m_Result;
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}
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bool CmdSplitter::Convert(const std::u8string& u8cmd) {
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// Clear variables
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m_ValidResult = false;
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m_Result.clear();
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m_Buffer.clear();
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m_CurrentChar = u8'\0';
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m_State = m_PrevState = StateType::SPACE;
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// split
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for (char8_t c : u8cmd) {
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m_CurrentChar = c;
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// skip all invalid characters (ascii code unit lower than space char)
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// thus UTF8 code unit can directly accepted.
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if (m_CurrentChar < u8' ')
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continue;
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switch (m_State) {
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case StateType::SPACE:
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ProcSpace();
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break;
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case StateType::SINGLE:
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ProcSingle();
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break;
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case StateType::DOUBLE:
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ProcDouble();
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break;
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case StateType::ESCAPE:
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ProcEscape();
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break;
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case StateType::NORMAL:
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ProcNormal();
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break;
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}
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}
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// final proc
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bool is_success = false;
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switch (m_State) {
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case StateType::SPACE:
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is_success = true;
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break;
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case StateType::NORMAL:
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// push the last one
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m_Result.emplace_back(m_Buffer);
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is_success = true;
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break;
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case StateType::SINGLE:
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case StateType::DOUBLE:
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case StateType::ESCAPE:
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// error
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is_success = false;
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break;
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default:
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throw std::runtime_error("unreachable code.");
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}
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// check success
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if (is_success) {
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m_ValidResult = true;
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return true;
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} else {
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m_Result.clear();
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return false;
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}
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}
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void CmdSplitter::ProcSpace() {
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switch (m_CurrentChar) {
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case u8'\'':
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m_State = StateType::SINGLE;
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break;
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case u8'"':
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m_State = StateType::DOUBLE;
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break;
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case u8'\\':
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m_State = StateType::ESCAPE;
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m_PrevState = StateType::NORMAL;
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break;
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case u8' ':
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break; // skip blank
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default:
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m_Buffer.push_back(m_CurrentChar);
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m_State = StateType::NORMAL;
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break;
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}
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}
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void CmdSplitter::ProcSingle() {
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switch (m_CurrentChar) {
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case u8'\'':
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m_State = StateType::NORMAL;
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break;
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case u8'"':
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m_Buffer.push_back('"');
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break;
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case u8'\\':
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m_State = StateType::ESCAPE;
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m_PrevState = StateType::SINGLE;
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break;
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case u8' ':
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m_Buffer.push_back(u8' ');
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break;
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default:
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m_Buffer.push_back(m_CurrentChar);
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break;
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}
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}
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void CmdSplitter::ProcDouble() {
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switch (m_CurrentChar) {
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case u8'\'':
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m_Buffer.push_back(u8'\'');
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break;
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case u8'"':
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m_State = StateType::NORMAL;
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break;
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case u8'\\':
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m_State = StateType::ESCAPE;
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m_PrevState = StateType::DOUBLE;
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break;
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case u8' ':
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m_Buffer.push_back(u8' ');
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break;
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default:
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m_Buffer.push_back(m_CurrentChar);
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break;
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}
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}
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void CmdSplitter::ProcEscape() {
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// add itself
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m_Buffer.push_back(m_CurrentChar);
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// restore state
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m_State = m_PrevState;
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}
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void CmdSplitter::ProcNormal() {
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switch (m_CurrentChar) {
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case u8'\'':
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m_Buffer.push_back(u8'\'');
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break;
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case u8'"':
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m_Buffer.push_back(u8'"');
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break;
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case u8'\\':
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m_State = StateType::ESCAPE;
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m_PrevState = StateType::NORMAL;
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break;
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case u8' ':
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m_Result.emplace_back(m_Buffer);
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m_Buffer.clear();
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m_State = StateType::SPACE;
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break;
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default:
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m_Buffer.push_back(m_CurrentChar);
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break;
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}
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}
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#pragma endregion
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#pragma region Arguments Map
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ArgumentsMap::ArgumentsMap() : m_Data() {}
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ArgumentsMap::~ArgumentsMap() {}
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#pragma endregion
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#pragma region Help Document
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HelpDocument::HelpDocument() : m_Stack(), m_Results() {}
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HelpDocument::~HelpDocument() {}
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HelpDocument::StackItem::StackItem() : m_Name(), m_Desc() {}
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HelpDocument::StackItem::StackItem(const std::u8string& name, const std::u8string& desc) : m_Name(name), m_Desc(desc) {}
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HelpDocument::ResultItem::ResultItem() : m_CmdDesc(), m_ArgDesc() {}
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HelpDocument::ResultItem::ResultItem(const std::u8string& cmd_desc, const std::deque<StackItem>& arg_desc) :
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m_CmdDesc(cmd_desc), m_ArgDesc(arg_desc.begin(), arg_desc.end()) {}
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void HelpDocument::Push(const std::u8string& arg_name, const std::u8string& arg_desc) {
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m_Stack.emplace_back(StackItem { arg_name, arg_desc });
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}
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void HelpDocument::Pop() {
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if (m_Stack.empty())
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throw std::runtime_error("try pop back on an empty help document.");
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m_Stack.pop_back();
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}
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void HelpDocument::Terminate(std::u8string& command_desc) {
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// create new result
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ResultItem result(command_desc, this->m_Stack);
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// add into result
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m_Results.emplace_back(std::move(result));
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}
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void HelpDocument::Print() {
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for (auto& cmd : m_Results) {
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// syntax
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// check whether all description of argument are emtpty.
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bool empty_arg_desc = true;
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YYCC::ConsoleHelper::Write(YYCC_COLOR_LIGHT_YELLOW(u8"Syntax: "));
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for (const auto& arg : cmd.m_ArgDesc) {
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if (!arg.m_Desc.empty()) empty_arg_desc = false;
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YYCC::ConsoleHelper::Format(u8"%s ", arg.m_Name.c_str());
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}
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YYCC::ConsoleHelper::WriteLine(u8"");
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// command description
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if (!cmd.m_CmdDesc.empty()) {
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YYCC::ConsoleHelper::FormatLine(YYCC_COLOR_LIGHT_YELLOW(u8"Description: ") "%s", cmd.m_CmdDesc.c_str());
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}
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// argument description
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if (!empty_arg_desc) {
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YYCC::ConsoleHelper::WriteLine(YYCC_COLOR_LIGHT_YELLOW(u8"Arguments:"));
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for (auto& arg : cmd.m_ArgDesc) {
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if (!arg.m_Desc.empty()) {
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YYCC::ConsoleHelper::FormatLine(u8"\t" YYCC_COLOR_LIGHT_GREEN("%s") ": % s",
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arg.m_Name.c_str(), arg.m_Desc.c_str()
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);
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}
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}
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}
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// space between each commands
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YYCC::ConsoleHelper::WriteLine(u8"");
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}
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}
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#pragma endregion
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#pragma region Conflict Set
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ConflictSet::ConflictSet() : m_ConflictSet() {}
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ConflictSet::~ConflictSet() {}
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void ConflictSet::AddLiteral(const std::u8string_view& value) {
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if (value.empty())
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throw std::invalid_argument("try to insert empty item to conflict set.");
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auto result = m_ConflictSet.emplace(u8"literal:" + std::u8string(value));
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if (!result.second)
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throw std::runtime_error("try to insert duplicated item in conflict set.");
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}
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void ConflictSet::AddArgument(const std::u8string_view& value) {
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if (value.empty())
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throw std::invalid_argument("try to insert empty item to conflict set.");
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auto result = m_ConflictSet.emplace(u8"argument:" + std::u8string(value));
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if (!result.second)
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throw std::runtime_error("try to insert duplicated item in conflict set.");
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}
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bool ConflictSet::IsConflictWith(const ConflictSet& rhs) const {
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// create a cache to store computed intersection
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std::vector<std::u8string> intersection;
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// compute intersection
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std::set_intersection(
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this->m_ConflictSet.begin(), this->m_ConflictSet.end(),
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rhs.m_ConflictSet.begin(), rhs.m_ConflictSet.begin(),
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std::back_inserter(intersection)
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);
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// check whether it is empty intersection
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return !intersection.empty();
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}
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#pragma endregion
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namespace Nodes {
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#pragma region Abstract Node
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AbstractNode::AbstractNode() :
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m_Execution(nullptr), m_Comment(), m_Nodes() {}
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AbstractNode::~AbstractNode() {}
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AbstractNode& AbstractNode::Executes(FctExecution_t fct, const std::u8string_view& exec_desc) {
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if (this->IsRootNode())
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throw std::logic_error("root node should not have execution.");
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if (m_Execution != nullptr)
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throw std::invalid_argument("you should not assign execution multiuple times.");
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if (fct == nullptr)
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throw std::invalid_argument("the function passed for executing should not be nullptr.");
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m_Execution = fct;
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m_ExecutionDesc = exec_desc;
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return *this;
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}
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AbstractNode& AbstractNode::Comment(const std::u8string_view& comment) {
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if (this->IsRootNode())
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throw std::logic_error("root node should not have comment.");
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m_Comment = comment;
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return *this;
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}
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void AbstractNode::Help(HelpDocument& doc) {
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// If this node is not root node
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if (!this->IsRootNode()) {
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// Push self symbol to help document stack.
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if (!this->IsRootNode()) {
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doc.Push(GetHelpSymbol(), m_Comment);
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}
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// Check whether this node is terminal.
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// If it is, terminate it once.
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if (m_Execution != nullptr) {
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doc.Terminate(m_ExecutionDesc);
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}
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}
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// Then process its children nodes (both root node and common node).
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for (auto& node : m_Nodes) {
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node->Help(doc);
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}
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// Pop self from help document stack
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// if this node is not root node
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if (!this->IsRootNode()) {
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doc.Pop();
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}
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}
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bool AbstractNode::Consume(CmdSplitter::Result_t& al, ArgumentsMap& am) {
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// If no command to be consumed, return directly.
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if (al.empty()) return false;
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// Process for self if we are not root node
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std::u8string cur_cmd;
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if (!this->IsRootNode()) {
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// Backup the top item in command stack for personal consume.
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cur_cmd = al.front();
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// Try to consume it for self.
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if (!BeginConsume(cur_cmd, am)) {
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// Fail to consume self.
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// It means that this command is not matched with self.
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// Return directly.
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return false;
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}
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// Yes, command matched, we try consume it for child nodes.
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// Pop the top item of command stack for child nodes processing.
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al.pop_front();
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}
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// Define free function if we are not the root node.
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// Because we just pop the top item of command stack.
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#define CONSUME_DEFER \
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if (!this->IsRootNode()) { \
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al.emplace_front(cur_cmd); \
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EndConsume(am); \
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}
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if (al.empty()) {
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// Root node do not have execution, return false directly
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if (this->IsRootNode()) {
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CONSUME_DEFER;
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return false;
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}
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// If no more data for parsing, this is must be a terminal.
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// Check whether we have execution if we are not root node.
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if (m_Execution == nullptr) {
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CONSUME_DEFER;
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return false;
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} else {
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m_Execution(am);
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CONSUME_DEFER;
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return true;
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}
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} else {
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// Command stack still item to be consumed.
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// To consume them, we need iterate node list and find the real terminal.
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// However, we need iterate literal and choice first, the iterate argument.
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for (auto& node : m_Nodes) {
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if (node->IsArgument()) continue;
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if (node->Consume(al, am)) {
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CONSUME_DEFER;
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return true;
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}
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}
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for (auto& node : m_Nodes) {
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if (!node->IsArgument()) continue;
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if (node->Consume(al, am)) {
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CONSUME_DEFER;
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return true;
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}
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}
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// If all node can not consume it,
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// it means that this command can not match this node tree.
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// Return false directly.
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CONSUME_DEFER;
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return false;
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}
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#undef CONSUME_DEFER
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}
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#pragma endregion
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#pragma region Root Node
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RootNode::RootNode() : AbstractNode() {}
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RootNode::~RootNode() {}
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bool RootNode::IsRootNode() { return true; }
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bool RootNode::IsArgument() { throw std::logic_error("this function is not allowed on root function."); }
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const ConflictSet& RootNode::GetConflictSet() { throw std::logic_error("this function is not allowed on root function."); }
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std::u8string RootNode::GetHelpSymbol() { throw std::logic_error("this function is not allowed on root function."); }
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bool RootNode::BeginConsume(const std::u8string& cur_cmd, ArgumentsMap& am) { throw std::logic_error("this function is not allowed on root function."); }
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void RootNode::EndConsume(ArgumentsMap& am) { throw std::logic_error("this function is not allowed on root function."); }
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#pragma endregion
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#pragma region Literal
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Literal::Literal(const std::u8string_view& words) :
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AbstractNode(), m_Literal(words), m_ConflictSet() {
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// check argument
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if (words.empty())
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throw std::invalid_argument("The word of literal node should not be empty.");
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// set conflict set
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m_ConflictSet.AddLiteral(m_Literal);
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}
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Literal::~Literal() {}
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bool Literal::IsRootNode() { return false; }
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bool Literal::IsArgument() { return false; }
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const ConflictSet& Literal::GetConflictSet() { return m_ConflictSet; }
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std::u8string Literal::GetHelpSymbol() { return m_Literal; }
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bool Literal::BeginConsume(const std::u8string& cur_cmd, ArgumentsMap& am) { return cur_cmd == m_Literal; }
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void Literal::EndConsume(ArgumentsMap& am) {}
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#pragma endregion
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#pragma region Choice
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Choice::Choice(const std::u8string_view& argname, const std::initializer_list<std::u8string>& vocabulary) :
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AbstractNode(),
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m_ChoiceName(argname), m_Vocabulary(vocabulary),
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m_ConflictSet() {
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// check argument
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if (argname.empty())
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throw std::invalid_argument("Choice argument name should not be empty.");
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if (m_Vocabulary.size() < 2u)
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throw std::invalid_argument("Too less vocabulary for choice. At least 2 items.");
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std::set<std::u8string> vocabulary_set(m_Vocabulary.begin(), m_Vocabulary.end());
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if (vocabulary_set.size() != m_Vocabulary.size())
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throw std::invalid_argument("Vocabulary of choice should not have duplicated items.");
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// init conflict set
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m_ConflictSet.AddArgument(m_ChoiceName);
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for (const auto& word : m_Vocabulary) {
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m_ConflictSet.AddLiteral(word);
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}
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}
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Choice::~Choice() {}
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bool Choice::IsRootNode() { return false; }
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bool Choice::IsArgument() { return false; }
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const ConflictSet& Choice::GetConflictSet() { return m_ConflictSet; }
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std::u8string Choice::GetHelpSymbol() {
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return YYCC::StringHelper::Printf(u8"[%s]",
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YYCC::StringHelper::Join(m_Vocabulary.begin(), m_Vocabulary.end(), u8" | ").c_str()
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);
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}
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bool Choice::BeginConsume(const std::u8string& cur_cmd, ArgumentsMap& am) {
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for (size_t i = 0; i < m_Vocabulary.size(); ++i) {
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if (cur_cmd == m_Vocabulary[i]) {
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am.Add<ArgValue_t>(m_ChoiceName, i);
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return true;
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}
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}
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return false;
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}
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void Choice::EndConsume(ArgumentsMap& am) { am.Remove(m_ChoiceName); }
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#pragma endregion
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#pragma region Abstract Argument
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AbstractArgument::AbstractArgument(const std::u8string_view& argname) :
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AbstractNode(),
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m_ArgumentName(argname), m_ConflictSet() {
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// check argument
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if (argname.empty())
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throw std::invalid_argument("Argument name should not be empty.");
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// setup conflict set
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m_ConflictSet.AddArgument(m_ArgumentName);
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}
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AbstractArgument::~AbstractArgument() {}
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bool AbstractArgument::IsRootNode() { return false; }
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bool AbstractArgument::IsArgument() { return true; }
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const ConflictSet& AbstractArgument::GetConflictSet() { return m_ConflictSet; }
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std::u8string AbstractArgument::GetHelpSymbol() {
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return YYCC::StringHelper::Printf(u8"<%s>", m_ArgumentName.c_str());
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}
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//bool AbstractArgument::BeginConsume(const std::u8string& cur_cmd, ArgumentsMap& am) { return false; }
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void AbstractArgument::EndConsume(ArgumentsMap& am) { am.Remove(m_ArgumentName); }
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#pragma endregion
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#pragma region Arithmetic Argument
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// It's a template class
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// We are forced to implement it in header file.
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#pragma endregion
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#pragma region String Argument
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bool StringArgument::BeginConsume(const std::u8string& cur_cmd, ArgumentsMap& am) {
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// check constraint
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if (m_Constraint.IsValid() && !m_Constraint.m_CheckFct(cur_cmd))
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return false;
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// accept
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am.Add<ArgValue_t>(m_ArgumentName, cur_cmd);
|
|
return true;
|
|
}
|
|
|
|
#pragma endregion
|
|
|
|
#pragma region Encoding List Argument
|
|
|
|
bool EncodingListArgument::BeginConsume(const std::u8string& cur_cmd, ArgumentsMap& am) {
|
|
// split given argument
|
|
std::vector<std::u8string> encs = YYCC::StringHelper::Split(cur_cmd, u8",");
|
|
// add into map
|
|
am.Add<ArgValue_t>(m_ArgumentName, encs);
|
|
return true;
|
|
}
|
|
|
|
#pragma endregion
|
|
|
|
}
|
|
|
|
#pragma region Command Parser
|
|
|
|
CommandParser::CommandParser() {}
|
|
|
|
CommandParser::~CommandParser() {}
|
|
|
|
bool CommandParser::Parse(const CmdSplitter::Result_t& cmds) {
|
|
// Create a copy of given command
|
|
CmdSplitter::Result_t al(cmds);
|
|
// Create argument map
|
|
ArgumentsMap am;
|
|
|
|
// Call root node Consume function and return its result.
|
|
return m_RootNode.Consume(al, am);
|
|
}
|
|
|
|
HelpDocument CommandParser::Help() {
|
|
// Create help docuemnt
|
|
HelpDocument doc;
|
|
// use node tree to fill help document.
|
|
m_RootNode.Help(doc);
|
|
// return result.
|
|
return doc;
|
|
}
|
|
|
|
Nodes::RootNode& CommandParser::GetRoot() {
|
|
return m_RootNode;
|
|
}
|
|
|
|
#pragma endregion
|
|
|
|
}
|