update cmd dispatcher

This commit is contained in:
yyc12345 2023-08-27 12:30:12 +08:00
parent 8a1f71e855
commit 3252e61c0d
8 changed files with 921 additions and 518 deletions

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@ -4,7 +4,7 @@ The Library for CMO File Read/Write. Also the Minimalist Virtools Environment.
## Status
This is a long time project and I am stucked at the analyze of CKBeObject. I don't know its class layout, And I don't know its complex `CKBeObject::Save()`.
This is a long time project.
This project welcome everyone's contribution, except the employee of Dassault, which created Virtools.
## Introduction
@ -35,9 +35,8 @@ There are 3 lists which indicate our accept guideline.
These features will be accepted as soon as possible.
* The save steps of Virtools file.
* The bug fix of Virtools file reader.
* Class layout, `Save()` and `Load()` functions of following `CKObject` based classes.
* Class layout, `Load()` functions of following `CKObject` based classes.
- `CKBeObject`
- `CKGroup`
- `CKMaterial`
@ -46,7 +45,7 @@ These features will be accepted as soon as possible.
- `CKRenderObject`
- `CK3dEntity`
- `CK3dObject`
* Class layout, `SaveData()` and `LoadData()` functions of following `CKBaseManager` based classes.
* Class layout, and `LoadData()` functions of following `CKBaseManager` based classes.
- `CKAttributeManager`
- `CKBehaviorManager`
@ -55,6 +54,8 @@ These features will be accepted as soon as possible.
These features are in plan, but not urge to merge.
* The `CK_ID` remap system of Reader & Writer.
* Any Save functions.
* The save steps of Virtools file.
* Other CK classes implementations.
* Non-Virtools 2.1 implementations.
@ -75,3 +76,4 @@ This project require:
* iconv (non-Windows system required)
It can be compiled on Windows via sln file, or on Linux platform via CMake file.
However CMake may not be updated in time because I develop this project on Windows frequently.

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@ -1,32 +1,10 @@
#include "CmdHelper.hpp"
#include "TerminalHelper.hpp"
#include "StructFormatter.hpp"
#include "AccessibleValue.hpp"
#include <CKMinContext.hpp>
#include <CKFile.hpp>
#include <iostream>
#include <cstdio>
#include <cstdarg>
#include <functional>
namespace Unvirt::CmdHelper {
static FILE* fout = stdout;
#pragma region CmdSplitter
CmdSplitter::CmdSplitter() :
mCmdChar(0), mBuffer(nullptr), mResult(nullptr),
mState(StateType::NORMAL), mPreState(StateType::NORMAL) {
;
}
CmdSplitter::~CmdSplitter() {
;
}
const std::deque<std::string> CmdSplitter::Convert(const std::string& u8cmd) {
std::deque<std::string> CmdSplitter::Convert(const std::string& u8cmd) {
// set up variables
std::deque<std::string> result;
std::string buffer;
@ -35,8 +13,8 @@ namespace Unvirt::CmdHelper {
mState = mPreState = StateType::SPACE;
// split
for (auto it = u8cmd.begin(); it != u8cmd.end(); ++it) {
mCmdChar = (*it);
for (auto& c : u8cmd) {
mCmdChar = c;
// skip all invalid characters, \0 and etc.
// mCmdChar >= 0 to ensure all non-ASCII UTF8 char can be accepted directly.
@ -82,367 +60,292 @@ namespace Unvirt::CmdHelper {
return result;
}
void CmdSplitter::ProcSpace(void) {
switch (mCmdChar) {
case '\'':
mState = StateType::SINGLE;
break;
case '"':
mState = StateType::DOUBLE;
break;
case '\\':
mState = StateType::ESCAPE;
mPreState = StateType::NORMAL;
break;
case ' ':
break; // skip blank
default:
mBuffer->push_back(mCmdChar);
mState = StateType::NORMAL;
break;
}
}
void CmdSplitter::ProcSingle(void) {
switch (mCmdChar) {
case '\'':
mState = StateType::NORMAL;
break;
case '"':
mBuffer->push_back('"');
break;
case '\\':
mState = StateType::ESCAPE;
mPreState = StateType::SINGLE;
break;
case ' ':
mBuffer->push_back(' ');
break;
default:
mBuffer->push_back(mCmdChar);
break;
}
}
void CmdSplitter::ProcDouble(void) {
switch (mCmdChar) {
case '\'':
mBuffer->push_back('\'');
break;
case '"':
mState = StateType::NORMAL;
break;
case '\\':
mState = StateType::ESCAPE;
mPreState = StateType::DOUBLE;
break;
case ' ':
mBuffer->push_back(' ');
break;
default:
mBuffer->push_back(mCmdChar);
break;
}
}
void CmdSplitter::ProcEscape(void) {
// add itself
mBuffer->push_back(mCmdChar);
// restore state
mState = mPreState;
}
void CmdSplitter::ProcNormal(void) {
switch (mCmdChar) {
case '\'':
mBuffer->push_back('\'');
break;
case '"':
mBuffer->push_back('"');
break;
case '\\':
mState = StateType::ESCAPE;
mPreState = StateType::NORMAL;
break;
case ' ':
mResult->push_back(*mBuffer);
mBuffer->clear();
mState = StateType::SPACE;
break;
default:
mBuffer->push_back(mCmdChar);
break;
}
}
#pragma endregion
#pragma region ArgParser
#pragma region Abstract Node
bool ArgParser::ParseInt(const std::deque<std::string>& cmd, const size_t expected_index, int32_t& result) {
if (expected_index >= cmd.size()) {
result = 0;
AbstractNode* AbstractNode::Then(AbstractNode* node) {
// check literal duplication
for (auto& pnode : m_Nodes) {
if (pnode->IsConflictWith(node))
throw std::invalid_argument("conflict node.");
}
// add into list
m_Nodes.emplace_back(node);
return this;
}
AbstractNode* AbstractNode::Executes(ExecutionFct fct, const char* cmt) {
if (m_Execution != nullptr)
throw std::invalid_argument("duplicated executions.");
m_Execution = fct;
m_Comment = cmt;
return this;
}
void AbstractNode::Help(HelpDocument& doc) {
// add self
BeginHelp(doc);
// check terminal
if (m_Execution != nullptr) {
doc.Terminate(m_Comment);
}
// iterate children
for (auto& pnode : m_Nodes) {
pnode->Help(doc);
}
// pop self
EndHelp(doc);
}
bool AbstractNode::Consume(std::deque<std::string>& arglist, ArgumentsMap& argmap) {
// if no data can consume, return
if (arglist.empty()) return false;
// backup current value
std::string cur = arglist.front();
// consume self
if (!BeginAccept(cur, argmap)) {
// fail to consume self. not matched. return
return false;
}
// pop front for following code
arglist.pop_front();
#define CONSUME_DEFER \
arglist.push_front(cur); \
EndAccept(argmap);
if (arglist.empty()) {
// this is must be a terminal.
// check whether we have execution.
if (m_Execution == nullptr) {
CONSUME_DEFER;
return false;
} else {
m_Execution(argmap);
CONSUME_DEFER;
return true;
}
} else {
// have following command, try match them
// iterate literal and argument to check terminal
for (auto& pnode : m_Nodes) {
if (pnode->Consume(arglist, argmap)) {
CONSUME_DEFER;
return true;
}
}
// if still nothing to match, return false
CONSUME_DEFER;
return false;
}
#undef CONSUME_DEFER
}
#pragma endregion
#pragma region Argument Impl
bool IntArgument::BeginParse(const std::string& val) {
char* pend = nullptr;
errno = 0;
int64_t v = std::strtoll(cmd[expected_index].c_str(), &pend, 10);
int64_t v = std::strtoll(val.c_str(), &pend, 10);
if (pend == cmd[expected_index].c_str() || errno == ERANGE) {
result = 0;
if (pend == val.c_str() || errno == ERANGE) return false;
// check limit
int32_t value = static_cast<int32_t>(v);
if (m_IntLimit != nullptr && !m_IntLimit(value)) {
return false;
}
result = static_cast<int>(v);
m_ParsedData = new int32_t(value);
return true;
}
bool ArgParser::ParseString(const std::deque<std::string>& cmd, const size_t expected_index, std::string& result) {
if (expected_index >= cmd.size()) {
result.clear();
return false;
} else {
result = cmd[expected_index];
return true;
}
void IntArgument::EndParse() {
delete reinterpret_cast<int32_t*>(m_ParsedData);
m_ParsedData = nullptr;
}
bool ArgParser::ParseSwitch(const std::deque<std::string>& cmd, const size_t expected_index, const std::vector<std::string>& switches, std::string& gotten) {
if (expected_index >= cmd.size()) {
gotten.clear();
return false;
}
bool StringArgument::BeginParse(const std::string& strl) {
// string always accept every text
m_ParsedData = new std::string(strl);
return true;
}
for (const auto& sw : switches) {
if (cmd[expected_index] == sw) {
gotten = cmd[expected_index];
void StringArgument::EndParse() {
delete reinterpret_cast<std::string*>(m_ParsedData);
m_ParsedData = nullptr;
}
#pragma endregion
#pragma region Command Root
bool CommandRoot::RootConsume(std::deque<std::string>& arglist) {
// if no data can consume, return
if (arglist.empty()) return false;
// create a argument map
ArgumentsMap amap;
// and we only just need iterate all children
for (auto& pnode : m_Nodes) {
if (pnode->Consume(arglist, amap)) {
return true;
}
}
gotten.clear();
// no matched
return false;
}
#pragma endregion
HelpDocument* CommandRoot::RootHelp() {
HelpDocument* doc = new HelpDocument();
#pragma region InteractiveCmd Misc
// we only just need iterate all children
for (auto& pnode : m_Nodes) {
pnode->Help(*doc);
}
InteractiveCmd::InteractiveCmd() :
m_CmdSplitter(), m_PageLen(10),
m_Ctx(nullptr), m_File(nullptr), m_Doc(nullptr) {
// create context and file
m_Ctx = new LibCmo::CK2::CKMinContext();
m_File = new LibCmo::CK2::CKFile(m_Ctx);
// bind callback
m_Ctx->SetPrintCallback(std::bind(&InteractiveCmd::PrintMinContextMsg, this, std::placeholders::_1));
}
InteractiveCmd::~InteractiveCmd() {
// delete doc if necessary
if (m_Doc != nullptr) delete m_Doc;
// delete file and ctx
delete m_File;
delete m_Ctx;
}
bool InteractiveCmd::HasOpenedFile(void) {
return m_Doc != nullptr;
}
void InteractiveCmd::ClearDocument(void) {
if (m_Doc == nullptr) return;
// clear doc
delete m_Doc;
m_Doc = nullptr;
// clear all loaded objects
m_Ctx->ClearCKObject();
}
void InteractiveCmd::PrintMinContextMsg(const std::string& msg) {
fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("[CKMinContext] ")), fout);
fputs(msg.c_str(), fout);
fputc('\n', fout);
return doc;
}
#pragma endregion
#pragma region InteractiveCmd Dispatch
#pragma region Help Document
void InteractiveCmd::Run(void) {
std::string u8cmd;
void HelpDocument::Terminate(std::string& command_desc) {
// create new result and copy stack
ResultItem result(command_desc);
result.m_ArgDesc.insert(result.m_ArgDesc.end(), m_Stack.begin(), m_Stack.end());
// add into result
m_Results.emplace_back(std::move(result));
}
while (true) {
// get command
GetCmdLine(u8cmd);
void HelpDocument::Print() {
fputs("Command Help:\n", stdout);
// split cmd and parse it
auto cmds = m_CmdSplitter.Convert(u8cmd);
// get sub command
if (cmds.size() < 1u) {
this->PrintCommonError("No command specified!");
this->PrintHelp();
continue;
for (auto& item : m_Results) {
for (auto& cmd : item.m_ArgDesc) {
fputs(cmd.m_Name.c_str(), stdout);
fputc(' ', stdout);
}
std::string subcmd(cmds.front());
cmds.pop_front();
fputc('\n', stdout);
// dispatch command
if (subcmd == "load") this->ProcLoad(cmds);
else if (subcmd == "unload") this->ProcUnLoad(cmds);
else if (subcmd == "info") this->ProcInfo(cmds);
else if (subcmd == "ls") this->ProcLs(cmds);
else if (subcmd == "items") this->ProcItems(cmds);
else if (subcmd == "encoding") this->ProcEncoding(cmds);
else if (subcmd == "temp") this->ProcTemp(cmds);
else if (subcmd == "help") this->PrintHelp();
else if (subcmd == "exit") break;
else {
this->PrintCommonError("No such command \"%s\".", subcmd.c_str());
this->PrintHelp();
if (!item.m_CmdDesc.empty()) {
fputs(item.m_CmdDesc.c_str(), stdout);
fputc('\n', stdout);
}
for (auto& cmd : item.m_ArgDesc) {
if (!cmd.m_Desc.empty()) {
fprintf(stdout, "\t%s: %s\n", cmd.m_Name.c_str(), cmd.m_Desc.c_str());
}
}
fputc('\n', stdout);
}
}
void InteractiveCmd::GetCmdLine(std::string& u8cmd) {
fputs("Unvirt> ", fout);
#if defined(LIBCMO_OS_WIN32)
std::wstring wcmd;
std::getline(std::wcin, wcmd);
LibCmo::EncodingHelper::WcharToChar(wcmd, u8cmd, CP_UTF8);
#else
std::getline(std::cin, u8cmd);
#endif
}
void InteractiveCmd::PrintHelp(void) {
fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("Allowed Subcommands: \n")), fout);
fputs("load\n", fout);
fputs("\tDescription: Load a Virtools composition.\n", fout);
fputs("\tSyntax: load <file path>\n", fout);
fputs("unload\n", fout);
fputs("\tDescription: Release loaded Virtools composition.\n", fout);
fputs("\tSyntax: unload\n", fout);
fputs("info\n", fout);
fputs("\tDescription: Show the header info of loaded Virtools composition.\n", fout);
fputs("\tSyntax: info\n", fout);
fputs("ls\n", fout);
fputs("\tDescription: List something about loaded Virtools composition.\n", fout);
fputs("\tSyntax: ls <obj | mgr> [page]\n", fout);
fputs("items\n", fout);
fputs("\tDescription: Set up how many items should be listed in one page when using \"ls\" command.\n", fout);
fputs("\tSyntax: items <num>\n", fout);
fputs("encoding\n", fout);
fputs("\tDescription: Set the encoding series for CKMinContext.\n", fout);
fputs("\tSyntax: encoding [encoding name1] [encoding name2] [encoding name3] ...\n", fout);
fputs("temp\n", fout);
fputs("\tDescription: Set the Temp path for CKMinContext.\n", fout);
fputs("\tSyntax: temp <temp path>\n", fout);
fputs("exit\n", fout);
fputs("\tDescription: Exit program\n", fout);
fputs("\tSyntax: exit\n", fout);
}
void InteractiveCmd::PrintArgParseError(const std::deque<std::string>& cmd, size_t pos) {
if (pos >= cmd.size()) {
fprintf(fout, UNVIRT_TERMCOL_LIGHT_RED(("Lost argument at position %zu.\n")), pos);
} else {
fprintf(fout, UNVIRT_TERMCOL_LIGHT_RED(("Unexpected argument \"%s\".\n")), cmd[pos].c_str());
}
// arg error always print help
this->PrintHelp();
}
void InteractiveCmd::PrintCommonError(const char* u8_fmt, ...) {
va_list argptr;
va_start(argptr, u8_fmt);
std::fputs(UNVIRT_TERMCOLHDR_LIGHT_RED, fout);
std::vfprintf(fout, u8_fmt, argptr);
std::fputs(UNVIRT_TERMCOLTAIL, fout);
va_end(argptr);
std::fputc('\n', fout);
}
#pragma endregion
#pragma region InteractiveCmd Processors
void InteractiveCmd::ProcLoad(const std::deque<std::string>& cmd) {
// check pre-requirement
if (HasOpenedFile()) {
this->PrintCommonError("Already have a opened file. Close it before calling \"load\".");
return;
}
// check requirement
size_t pos = 0u;
std::string filepath;
if (!ArgParser::ParseString(cmd, pos, filepath)) {
this->PrintArgParseError(cmd, pos);
return;
}
// proc
m_Doc = new LibCmo::CK2::CKFileDocument();
LibCmo::CK2::CKERROR err = m_File->DeepLoad(filepath.c_str(), &m_Doc);
if (err != LibCmo::CK2::CKERROR::CKERR_OK) {
// fail to load. release all.
this->PrintCommonError("Fail to open file. Function return: %s\n%s",
Unvirt::AccessibleValue::GetCkErrorName(err).c_str(),
Unvirt::AccessibleValue::GetCkErrorDescription(err).c_str()
);
this->ClearDocument();
}
}
void InteractiveCmd::ProcUnLoad(const std::deque<std::string>& cmd) {
// check pre-requirement
if (!HasOpenedFile()) {
this->PrintCommonError("No loaded file.");
return;
}
// free all
this->ClearDocument();
}
void InteractiveCmd::ProcInfo(const std::deque<std::string>& cmd) {
// check pre-requirement
if (!HasOpenedFile()) {
this->PrintCommonError("No loaded file.");
return;
}
// print
Unvirt::StructFormatter::PrintCKFileInfo(m_Doc->m_FileInfo);
}
void InteractiveCmd::ProcLs(const std::deque<std::string>& cmd) {
// static values of switches
static const std::vector<std::string> c_AllowedSwitches{
"obj", "mgr"
};
// check pre-requirement
if (!HasOpenedFile()) {
this->PrintCommonError("No loaded file.");
return;
}
// check requirement
size_t pos = 0u;
std::string sw;
if (!ArgParser::ParseSwitch(cmd, pos, c_AllowedSwitches, sw)) {
this->PrintArgParseError(cmd, pos);
return;
}
++pos;
int32_t gotten_page;
if (!ArgParser::ParseInt(cmd, pos, gotten_page)) {
gotten_page = 1; // asssume as 1
}
if (gotten_page <= 0) {
this->PrintCommonError("Page out of range.");
return;
}
size_t page = static_cast<size_t>(gotten_page) - 1;
// show list
if (sw == c_AllowedSwitches[0]) {
// obj list
if (page * this->m_PageLen >= m_Doc->m_FileObjects.size()) {
this->PrintCommonError("Page out of range.");
return;
}
Unvirt::StructFormatter::PrintObjectList(this->m_Doc->m_FileObjects, page, this->m_PageLen);
} else {
// mgr list
if (page * this->m_PageLen >= m_Doc->m_FileManagersData.size()) {
this->PrintCommonError("Page out of range.");
return;
}
Unvirt::StructFormatter::PrintManagerList(this->m_Doc->m_FileManagersData, page, this->m_PageLen);
}
}
void InteractiveCmd::ProcItems(const std::deque<std::string>& cmd) {
// check requirement
size_t pos = 0u;
int32_t count;
if (!ArgParser::ParseInt(cmd, pos, count) || count <= 0) {
this->PrintArgParseError(cmd, pos);
return;
}
// assign
m_PageLen = static_cast<size_t>(count);
}
void InteractiveCmd::ProcEncoding(const std::deque<std::string>& cmd) {
// create list first
std::vector<std::string> encoding_list;
// get list item
size_t pos = 0u;
while (true) {
std::string pending;
if (!ArgParser::ParseString(cmd, pos, pending)) {
break; // no more encoding, break
}
// add and move to next
++pos;
encoding_list.push_back(std::move(pending));
}
// apply list
this->m_Ctx->SetEncoding(encoding_list);
}
void InteractiveCmd::ProcTemp(const std::deque<std::string>& cmd) {
// check requirement
size_t pos = 0u;
std::string temppath;
if (!ArgParser::ParseString(cmd, pos, temppath)) {
this->PrintArgParseError(cmd, pos);
return;
}
// assign
m_Ctx->SetTempPath(temppath.c_str());
}
#pragma endregion
}

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@ -1,26 +1,19 @@
#pragma once
#include <VTUtils.hpp>
#include <CKDefines.hpp>
#include <VTAll.hpp>
#include <string>
#include <vector>
#include <functional>
#include <deque>
#include <unordered_map>
#include <stdexcept>
#include <cinttypes>
#include <initializer_list>
namespace Unvirt::CmdHelper {
class CmdSplitter {
public:
CmdSplitter();
CmdSplitter(const CmdSplitter&) = delete;
CmdSplitter& operator=(const CmdSplitter&) = delete;
~CmdSplitter();
const std::deque<std::string> Convert(const std::string& u8cmd);
private:
char mCmdChar;
std::string* mBuffer;
std::deque<std::string>* mResult;
enum class StateType : int {
SPACE,
SINGLE,
@ -28,142 +21,312 @@ namespace Unvirt::CmdHelper {
ESCAPE,
NORMAL
};
public:
CmdSplitter() :
mCmdChar(0), mBuffer(nullptr), mResult(nullptr),
mState(StateType::NORMAL), mPreState(StateType::NORMAL) {}
~CmdSplitter() {}
LIBCMO_DISABLE_COPY_MOVE(CmdSplitter);
std::deque<std::string> Convert(const std::string& u8cmd);
protected:
char mCmdChar;
std::string* mBuffer;
std::deque<std::string>* mResult;
StateType mState, mPreState;
inline void ProcSpace(void) {
switch (mCmdChar) {
case '\'':
mState = StateType::SINGLE;
break;
case '"':
mState = StateType::DOUBLE;
break;
case '\\':
mState = StateType::ESCAPE;
mPreState = StateType::NORMAL;
break;
case ' ':
break; // skip blank
default:
mBuffer->push_back(mCmdChar);
mState = StateType::NORMAL;
break;
}
}
inline void ProcSingle(void) {
switch (mCmdChar) {
case '\'':
mState = StateType::NORMAL;
break;
case '"':
mBuffer->push_back('"');
break;
case '\\':
mState = StateType::ESCAPE;
mPreState = StateType::SINGLE;
break;
case ' ':
mBuffer->push_back(' ');
break;
default:
mBuffer->push_back(mCmdChar);
break;
}
}
inline void ProcDouble(void) {
switch (mCmdChar) {
case '\'':
mBuffer->push_back('\'');
break;
case '"':
mState = StateType::NORMAL;
break;
case '\\':
mState = StateType::ESCAPE;
mPreState = StateType::DOUBLE;
break;
case ' ':
mBuffer->push_back(' ');
break;
default:
mBuffer->push_back(mCmdChar);
break;
}
}
inline void ProcEscape(void) {
// add itself
mBuffer->push_back(mCmdChar);
// restore state
mState = mPreState;
}
inline void ProcNormal(void) {
switch (mCmdChar) {
case '\'':
mBuffer->push_back('\'');
break;
case '"':
mBuffer->push_back('"');
break;
case '\\':
mState = StateType::ESCAPE;
mPreState = StateType::NORMAL;
break;
case ' ':
mResult->push_back(*mBuffer);
mBuffer->clear();
mState = StateType::SPACE;
break;
default:
mBuffer->push_back(mCmdChar);
break;
}
}
void ProcSpace(void);
void ProcSingle(void);
void ProcDouble(void);
void ProcEscape(void);
void ProcNormal(void);
};
class ArgParser {
class HelpDocument {
public:
ArgParser() {}
ArgParser(const ArgParser&) = delete;
ArgParser& operator=(const ArgParser&) = delete;
~ArgParser() {}
HelpDocument() : m_Stack(), m_Results() {}
~HelpDocument() {}
LIBCMO_DISABLE_COPY_MOVE(HelpDocument);
static bool ParseInt(const std::deque<std::string>& cmd, const size_t expected_index, int32_t& result);
static bool ParseString(const std::deque<std::string>& cmd, const size_t expected_index, std::string& result);
static bool ParseSwitch(const std::deque<std::string>& cmd, const size_t expected_index, const std::vector<std::string>& switches, std::string& gotten);
void PushLiteral(const std::string& literal_name) {
m_Stack.emplace_back(StackItem(literal_name, ""));
}
void PushArgument(const std::string& arg_name, const std::string& arg_desc) {
m_Stack.emplace_back(StackItem(arg_name, arg_desc));
}
void Pop() {
m_Stack.pop_back();
}
void Terminate(std::string& command_desc);
void Print();
protected:
struct StackItem {
StackItem() : m_Name(), m_Desc() {}
StackItem(const std::string& name, const std::string& desc) : m_Name(name), m_Desc(desc) {}
LIBCMO_DEFAULT_COPY_MOVE(StackItem);
std::string m_Name;
std::string m_Desc;
};
std::deque<StackItem> m_Stack;
struct ResultItem {
ResultItem() : m_CmdDesc(), m_ArgDesc() {}
ResultItem(const std::string& desc) : m_CmdDesc(desc), m_ArgDesc() {}
LIBCMO_DEFAULT_COPY_MOVE(ResultItem);
std::string m_CmdDesc;
std::vector<StackItem> m_ArgDesc;
};
std::vector<ResultItem> m_Results;
};
class InteractiveCmd {
class AbstractArgument;
class ArgumentsMap {
public:
InteractiveCmd();
InteractiveCmd(const InteractiveCmd&) = delete;
InteractiveCmd& operator=(const InteractiveCmd&) = delete;
~InteractiveCmd();
ArgumentsMap() : m_Data() {}
~ArgumentsMap() {}
LIBCMO_DISABLE_COPY_MOVE(ArgumentsMap);
void Run(void);
void Add(const std::string& k, AbstractArgument* v) {
m_Data.emplace(std::make_pair(k, v));
}
void Remove(const std::string& k) {
m_Data.erase(k);
}
AbstractArgument* Get(const char* k) const {
auto finder = m_Data.find(k);
if (finder == m_Data.end()) throw std::invalid_argument("No such argument name.");
return finder->second;
}
private:
void GetCmdLine(std::string& u8cmd);
void PrintHelp(void);
void PrintArgParseError(const std::deque<std::string>& cmd, size_t pos);
void PrintCommonError(const char* u8_fmt, ...);
void ProcLoad(const std::deque<std::string>& cmd);
void ProcUnLoad(const std::deque<std::string>& cmd);
void ProcInfo(const std::deque<std::string>& cmd);
void ProcLs(const std::deque<std::string>& cmd);
void ProcItems(const std::deque<std::string>& cmd);
void ProcEncoding(const std::deque<std::string>& cmd);
void ProcTemp(const std::deque<std::string>& cmd);
bool HasOpenedFile(void);
void ClearDocument(void);
void PrintMinContextMsg(const std::string& msg);
CmdSplitter m_CmdSplitter;
size_t m_PageLen;
LibCmo::CK2::CKMinContext* m_Ctx;
LibCmo::CK2::CKFile* m_File;
LibCmo::CK2::CKFileDocument* m_Doc;
protected:
std::unordered_map<std::string, AbstractArgument*> m_Data;
};
class CommandRoot;
using ExecutionFct = std::function<void(const ArgumentsMap&)>;
class AbstractNode {
friend class CommandRoot;
public:
AbstractNode() : m_Execution(nullptr), m_Nodes(), m_Comment() {}
virtual ~AbstractNode() {
for (auto& ptr : m_Nodes) {
delete ptr;
}
}
LIBCMO_DISABLE_COPY_MOVE(AbstractNode);
AbstractNode* Then(AbstractNode*);
AbstractNode* Executes(ExecutionFct, const char*);
protected:
void Help(HelpDocument&);
bool Consume(std::deque<std::string>&, ArgumentsMap&);
virtual bool IsLiteral() = 0;
virtual bool IsConflictWith(AbstractNode*) = 0;
virtual void BeginHelp(HelpDocument&) = 0;
virtual void EndHelp(HelpDocument&) = 0;
virtual bool BeginAccept(const std::string&, ArgumentsMap&) = 0;
virtual void EndAccept(ArgumentsMap&) = 0;
std::vector<AbstractNode*> m_Nodes;
ExecutionFct m_Execution;
std::string m_Comment;
};
class CommandRoot : public AbstractNode {
public:
CommandRoot() : AbstractNode() {}
virtual ~CommandRoot() {}
LIBCMO_DISABLE_COPY_MOVE(CommandRoot);
// Root use special consume and help functions.
bool RootConsume(std::deque<std::string>&);
HelpDocument* RootHelp();
protected:
virtual bool IsLiteral() override { throw std::logic_error("Root can not be called."); }
virtual bool IsConflictWith(AbstractNode*) override { throw std::logic_error("Root can not be called."); }
virtual void BeginHelp(HelpDocument&) override { throw std::logic_error("Root can not be called."); }
virtual void EndHelp(HelpDocument&) override { throw std::logic_error("Root can not be called."); }
virtual bool BeginAccept(const std::string&, ArgumentsMap&) override { throw std::logic_error("Root can not be called."); }
virtual void EndAccept(ArgumentsMap&) override { throw std::logic_error("Root can not be called."); }
};
class Literal : public AbstractNode {
friend class Choice;
public:
Literal(const char* words) : AbstractNode(), m_Literal(words) {
if (m_Literal.empty() || words == nullptr) throw std::invalid_argument("Invalid literal.");
}
virtual ~Literal() {}
LIBCMO_DISABLE_COPY_MOVE(Literal);
protected:
virtual bool IsLiteral() override { return true; }
virtual bool IsConflictWith(AbstractNode* node) override {
Literal* pliteral = dynamic_cast<Literal*>(node);
if (pliteral == nullptr) return false;
return pliteral->m_Literal == this->m_Literal;
}
virtual void BeginHelp(HelpDocument& doc) override {
doc.PushLiteral(m_Literal);
}
virtual void EndHelp(HelpDocument& doc) override {
doc.Pop();
}
virtual bool BeginAccept(const std::string& strl, ArgumentsMap&) override { return strl == m_Literal; }
virtual void EndAccept(ArgumentsMap&) override {}
std::string m_Literal;
};
class Choice : public AbstractNode {
public:
Choice(const char* argname, const std::initializer_list<std::string>& vocabulary) :
AbstractNode(), m_ChoiceName(argname == nullptr ? "" : argname), m_Vocabulary(vocabulary) {
if (m_ChoiceName.empty() || argname == nullptr) throw std::invalid_argument("Invalid choice name.");
if (m_Vocabulary.size() < 2) throw std::invalid_argument("Too less vocabulary. At least 2 items.");
}
virtual ~Choice() {}
LIBCMO_DISABLE_COPY_MOVE(Choice)
protected:
virtual bool IsLiteral() override { return true; }
virtual bool IsConflictWith(AbstractNode* node) override {
Literal* pliteral = dynamic_cast<Literal*>(node);
if (pliteral != nullptr) {
for (const auto& word : m_Vocabulary) {
if (word == pliteral->m_Literal)
return true;
}
return false;
}
Choice* pchoice = dynamic_cast<Choice*>(node);
if (pchoice != nullptr) {
for (const auto& thisword : m_Vocabulary) {
for (const auto& thatword : pchoice->m_Vocabulary) {
if (thisword == thatword)
return true;
}
}
return false;
}
return false;
}
virtual void BeginHelp(HelpDocument& doc) override {
std::string switches;
for (const auto& item : m_Vocabulary) {
if (!switches.empty()) switches += " | ";
switches += item;
}
doc.PushLiteral("[" + switches + "]");
}
virtual void EndHelp(HelpDocument& doc) override {
doc.Pop();
}
virtual bool BeginAccept(const std::string& strl, ArgumentsMap& amap) override {
for (const auto& item : m_Vocabulary) {
if (strl == item) {
}
}
}
virtual void EndAccept(ArgumentsMap&) override {}
std::string m_ChoiceName;
std::vector<std::string> m_Vocabulary;
};
class AbstractArgument : public AbstractNode {
public:
AbstractArgument(const char* argname, const char* argdesc) : AbstractNode(),
m_ArgName(argname == nullptr ? "" : argname), m_ArgDesc(argdesc), m_Accepted(false), m_ParsedData(nullptr) {
if (m_ArgName.empty() || argname == nullptr) throw std::invalid_argument("Invalid argument name.");
}
virtual ~AbstractArgument() {}
LIBCMO_DISABLE_COPY_MOVE(AbstractArgument);
template<class T>
T* GetData() { return reinterpret_cast<T*>(m_ParsedData); }
protected:
virtual bool BeginParse(const std::string&) = 0;
virtual void EndParse() = 0;
virtual bool IsLiteral() override { return false; }
virtual bool IsConflictWith(AbstractNode* node) override {
return false;
}
virtual void BeginHelp(HelpDocument& doc) override {
std::string newargname = "<";
newargname.append(m_ArgName);
newargname.append(">");
doc.PushArgument(newargname, m_ArgDesc);
}
virtual void EndHelp(HelpDocument& doc) override {
doc.Pop();
}
virtual bool BeginAccept(const std::string& strl, ArgumentsMap& amap) override {
m_Accepted = BeginParse(strl);
if (m_Accepted) amap.Add(m_ArgName, this);
return m_Accepted;
}
virtual void EndAccept(ArgumentsMap& amap) override {
if (m_Accepted) {
amap.Remove(m_ArgName);
EndParse();
m_Accepted = false;
}
}
std::string m_ArgName;
std::string m_ArgDesc;
bool m_Accepted;
void* m_ParsedData;
};
/**
* @brief Return true mean this value can accept.
*/
using IntLimit = std::function<bool(int32_t)>;
class IntArgument : public AbstractArgument {
public:
IntArgument(const char* argname, const char* argdesc = nullptr, IntLimit limit = nullptr) :
AbstractArgument(argname, argdesc), m_IntLimit(limit) {}
virtual ~IntArgument() {}
LIBCMO_DISABLE_COPY_MOVE(IntArgument);
protected:
virtual bool BeginParse(const std::string&) override;
virtual void EndParse() override;
IntLimit m_IntLimit;
};
class StringArgument : public AbstractArgument {
public:
StringArgument(const char* argname, const char* argdesc = nullptr) : AbstractArgument(argname, argdesc) {}
virtual ~StringArgument() {}
LIBCMO_DISABLE_COPY_MOVE(StringArgument);
protected:
virtual bool BeginParse(const std::string&) override;
virtual void EndParse() override;
};
class EncodingArgument : public AbstractArgument {
public:
EncodingArgument(const char* argname, const char* argdesc = nullptr) : AbstractArgument(argname, argdesc) {}
virtual ~EncodingArgument() {}
LIBCMO_DISABLE_COPY_MOVE(EncodingArgument);
protected:
virtual bool BeginParse(const std::string&) override;
virtual void EndParse() override;
};
}

View File

@ -1,32 +1,4 @@
#include "AccessibleValue.hpp"
#include "TerminalHelper.hpp"
#include "StructFormatter.hpp"
#include "CmdHelper.hpp"
#include <VTAll.hpp>
#include <CK2/CKContext.hpp>
#include <CK2/CKFile.hpp>
#include <cstdio>
#include <iostream>
namespace Unvirt {
class UnvirtContext {
public:
UnvirtContext() {}
~UnvirtContext() {}
void Run() {
Unvirt::TerminalHelper::EnsureTerminalColor();
Unvirt::TerminalHelper::EnsureTerminalEncoding();
}
private:
};
}
#include "UnvirtContext.hpp"
int main(int argc, char* argv[]) {

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@ -181,6 +181,7 @@
<ClCompile Include="TerminalHelper.cpp" />
<ClCompile Include="StringHelper.cpp" />
<ClCompile Include="Unvirt.cpp" />
<ClCompile Include="UnvirtContext.cpp" />
</ItemGroup>
<ItemGroup>
<ClInclude Include="AccessibleValue.hpp" />
@ -188,6 +189,7 @@
<ClInclude Include="StructFormatter.hpp" />
<ClInclude Include="TerminalHelper.hpp" />
<ClInclude Include="StringHelper.hpp" />
<ClInclude Include="UnvirtContext.hpp" />
</ItemGroup>
<Import Project="$(VCTargetsPath)\Microsoft.Cpp.targets" />
<ImportGroup Label="ExtensionTargets">

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@ -33,6 +33,9 @@
<ClCompile Include="StructFormatter.cpp">
<Filter>Sources</Filter>
</ClCompile>
<ClCompile Include="UnvirtContext.cpp">
<Filter>Sources</Filter>
</ClCompile>
</ItemGroup>
<ItemGroup>
<ClInclude Include="AccessibleValue.hpp">
@ -50,5 +53,8 @@
<ClInclude Include="StructFormatter.hpp">
<Filter>Headers</Filter>
</ClInclude>
<ClInclude Include="UnvirtContext.hpp">
<Filter>Headers</Filter>
</ClInclude>
</ItemGroup>
</Project>

298
Unvirt/UnvirtContext.cpp Normal file
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@ -0,0 +1,298 @@
#include "UnvirtContext.hpp"
namespace Unvirt::Context {
static FILE* fout = stdout;
#pragma region Encoding Arg
// Copy from Gamepiaynmo/BallanceModLoader
std::vector<std::string> SplitString(const std::string& str, const std::string& de) {
size_t lpos, pos = 0;
std::vector<std::string> res;
lpos = str.find_first_not_of(de, pos);
while (lpos != std::string::npos) {
pos = str.find_first_of(de, lpos);
res.push_back(str.substr(lpos, pos - lpos));
if (pos == std::string::npos) break;
lpos = str.find_first_not_of(de, pos);
}
if (pos != std::string::npos)
res.push_back("");
return res;
}
bool EncodingArgument::BeginParse(const std::string& strl) {
// encoding always accept every text
m_ParsedData = new std::vector<std::string>(SplitString(strl, ","));
return true;
}
void EncodingArgument::EndParse() {
delete reinterpret_cast<std::vector<std::string>*>(m_ParsedData);
m_ParsedData = nullptr;
}
#pragma endregion
#pragma region UnvirtContext Misc
UnvirtContext::UnvirtContext() :
m_Root(), m_Splitter(), m_Help(nullptr),
m_PageLen(10u), m_Ctx(nullptr), m_FileReader(nullptr) {
// create command root
CmdHelper::CommandRoot* root = &m_Root;
root->Then(
(new CmdHelper::Literal("deepload"))->Then(
(new CmdHelper::StringArgument("filepath", "The path to loading file."))->Executes(
std::bind(&UnvirtContext::ProcLoad, this, true, std::placeholders::_1),
"Load a Virtools composition deeply. Load file to CKObject stage."
)
)
);
root->Then(
(new CmdHelper::Literal("shallowload"))->Then(
(new CmdHelper::StringArgument("filepath", "The path to loading file."))->Executes(
std::bind(&UnvirtContext::ProcLoad, this, false, std::placeholders::_1),
"Load a Virtools composition shallowly. Load file to CKStateChunk stage."
)
)
);
root->Then(
(new CmdHelper::Literal("unload"))->Executes(
std::bind(&UnvirtContext::ProcUnLoad, this, std::placeholders::_1),
"Release loaded Virtools composition."
)
);
root->Then(
(new CmdHelper::Literal("info"))->Executes(
std::bind(&UnvirtContext::ProcInfo, this, std::placeholders::_1),
"Show the header info of loaded Virtools composition."
)
);
root->Then(
(new CmdHelper::Literal("foo"))->Then(
(new CmdHelper::Literal("bar"))->Executes([](const CmdHelper::ArgumentsMap& amap) -> void {
fprintf(stdout, "foobar!\n");
}, "simple foobar")
)->Then(
(new CmdHelper::IntArgument("bar", "the calling target 1"))->Executes([](const CmdHelper::ArgumentsMap& amap) -> void {
fprintf(stdout, "foo%" PRIi32 "!\n", *(amap.Get("bar")->GetData<int32_t>()));
}, "specialized foo bar")
)
)->Then(
(new CmdHelper::Literal("call"))->Then(
(new CmdHelper::IntArgument("bar", "the calling taget 2"))->Executes([](const CmdHelper::ArgumentsMap& amap) -> void {
fprintf(stdout, "call%" PRIi32 "!\n", *(amap.Get("bar")->GetData<int32_t>()));
}, "calling someone")
)
);
// create help
m_Help = root->RootHelp();
// create context
m_Ctx = new LibCmo::CK2::CKContext();
m_Ctx->SetOutputCallback(std::bind(&UnvirtContext::PrintContextMsg, this, std::placeholders::_1));
}
UnvirtContext::~UnvirtContext() {
if (m_Help != nullptr)
delete m_Help;
}
bool UnvirtContext::HasOpenedFile() {
return m_FileReader != nullptr;
}
void UnvirtContext::ClearDocument() {
if (m_FileReader == nullptr) return;
delete m_FileReader;
m_FileReader = nullptr;
}
void UnvirtContext::PrintContextMsg(LibCmo::CK2::CKSTRING msg) {
if (msg != nullptr) {
fprintf(fout, UNVIRT_TERMCOL_LIGHT_YELLOW(("[CKContext] ")) "%s\n", msg);
}
}
void UnvirtContext::PrintCommonError(const char* u8_fmt, ...) {
va_list argptr;
va_start(argptr, u8_fmt);
std::fputs(UNVIRT_TERMCOLHDR_LIGHT_RED, fout);
std::vfprintf(fout, u8_fmt, argptr);
std::fputs(UNVIRT_TERMCOLTAIL, fout);
va_end(argptr);
std::fputc('\n', fout);
}
#pragma endregion
#pragma region Main Run
void UnvirtContext::Run() {
Unvirt::TerminalHelper::EnsureTerminalColor();
Unvirt::TerminalHelper::EnsureTerminalEncoding();
std::string u8cmd;
while (true) {
// get command
TerminalHelper::GetCmdLine(u8cmd);
// split cmd and parse it
auto cmds = m_Splitter.Convert(u8cmd);
// get sub command
if (!m_Root.RootConsume(cmds)) {
this->PrintCommonError("Command syntax error \"%s\".", u8cmd.c_str());
m_Help->Print();
}
if (m_OrderExit) {
break;
}
}
}
#pragma endregion
#pragma region Proc Detail
void UnvirtContext::ProcLoad(bool is_deep, const CmdHelper::ArgumentsMap& amap) {
// check pre-requirement
if (HasOpenedFile()) {
PrintCommonError("Already have a opened file. Close it before calling \"load\".");
return;
}
std::string filepath = *amap.Get("filepath")->GetData<std::string>();
// proc
m_FileReader = new LibCmo::CK2::CKFileReader(m_Ctx);
LibCmo::CK2::CKERROR err;
if (is_deep) {
err = m_FileReader->DeepLoad(filepath.c_str());
} else {
err = m_FileReader->ShallowLoad(filepath.c_str());
}
if (err != LibCmo::CK2::CKERROR::CKERR_OK) {
// fail to load. release all.
PrintCommonError("Fail to open file. Function return: %s\n\t%s",
Unvirt::AccessibleValue::GetCkErrorName(err).c_str(),
Unvirt::AccessibleValue::GetCkErrorDescription(err).c_str()
);
ClearDocument();
}
}
void UnvirtContext::ProcUnLoad(const CmdHelper::ArgumentsMap& amap) {
// check pre-requirement
if (!HasOpenedFile()) {
this->PrintCommonError("No loaded file.");
return;
}
// free all
ClearDocument();
}
void UnvirtContext::ProcInfo(const CmdHelper::ArgumentsMap& amap) {
// check pre-requirement
if (!HasOpenedFile()) {
PrintCommonError("No loaded file.");
return;
}
// print
Unvirt::StructFormatter::PrintCKFileInfo(m_FileReader->GetFileInfo());
}
void UnvirtContext::ProcLs(ViewPart parts, const CmdHelper::ArgumentsMap& amap) {
// check pre-requirement
if (!HasOpenedFile()) {
this->PrintCommonError("No loaded file.");
return;
}
// check requirement
int32_t gotten_page = *amap.Get("page")->GetData<int32_t>();
if (gotten_page <= 0) {
PrintCommonError("Page out of range.");
return;
}
size_t page = static_cast<size_t>(gotten_page) - 1;
// show list
switch (parts) {
case ViewPart::Objects:
{
// obj list
if (page * m_PageLen >= m_FileReader->GetFileObjects().size()) {
PrintCommonError("Page out of range.");
return;
}
Unvirt::StructFormatter::PrintObjectList(m_FileReader->GetFileObjects(), page, this->m_PageLen);
break;
}
case ViewPart::Managers:
{
// mgr list
if (page * m_PageLen >= m_FileReader->GetManagersData().size()) {
PrintCommonError("Page out of range.");
return;
}
Unvirt::StructFormatter::PrintManagerList(m_FileReader->GetManagersData(), page, this->m_PageLen);
break;
}
}
}
void UnvirtContext::ProcData(ViewPart parts, const CmdHelper::ArgumentsMap& amap) {
}
void UnvirtContext::ProcChunk(ViewPart parts, const CmdHelper::ArgumentsMap& amap) {
}
void UnvirtContext::ProcItems(const CmdHelper::ArgumentsMap& amap) {
// check requirement
int32_t count = *amap.Get("count")->GetData<int32_t>();
if (count <= 0) {
PrintCommonError("Value out of range.");
return;
}
// assign
m_PageLen = static_cast<size_t>(count);
}
void UnvirtContext::ProcEncoding(const CmdHelper::ArgumentsMap& amap) {
}
void UnvirtContext::ProcTemp(const CmdHelper::ArgumentsMap& amap) {
// check requirement
std::string temppath = *amap.Get("temppath")->GetData<std::string>();
// assign
m_Ctx->SetTempPath(temppath.c_str());
}
void UnvirtContext::ProcExit(const CmdHelper::ArgumentsMap& amap) {
m_OrderExit = true;
}
#pragma endregion
}

57
Unvirt/UnvirtContext.hpp Normal file
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@ -0,0 +1,57 @@
#pragma once
#include "AccessibleValue.hpp"
#include "TerminalHelper.hpp"
#include "StructFormatter.hpp"
#include "CmdHelper.hpp"
#include <VTAll.hpp>
#include <CK2/CKContext.hpp>
#include <CK2/CKFile.hpp>
#include <cstdio>
#include <iostream>
namespace Unvirt::Context {
class UnvirtContext {
public:
UnvirtContext();
~UnvirtContext();
LIBCMO_DISABLE_COPY_MOVE(UnvirtContext);
void Run();
protected:
enum class ViewPart {
Objects, Managers
};
void PrintCommonError(const char* u8_fmt, ...);
void ProcLoad(bool is_deep, const CmdHelper::ArgumentsMap& amap);
void ProcUnLoad(const CmdHelper::ArgumentsMap& amap);
void ProcInfo(const CmdHelper::ArgumentsMap& amap);
void ProcLs(ViewPart parts, const CmdHelper::ArgumentsMap& amap);
void ProcData(ViewPart parts, const CmdHelper::ArgumentsMap& amap);
void ProcChunk(ViewPart parts, const CmdHelper::ArgumentsMap& amap);
void ProcItems(const CmdHelper::ArgumentsMap& amap);
void ProcEncoding(const CmdHelper::ArgumentsMap& amap);
void ProcTemp(const CmdHelper::ArgumentsMap& amap);
void ProcExit(const CmdHelper::ArgumentsMap& amap);
protected:
bool HasOpenedFile();
void ClearDocument();
void PrintContextMsg(LibCmo::CK2::CKSTRING msg);
CmdHelper::CommandRoot m_Root;
CmdHelper::HelpDocument* m_Help;
CmdHelper::CmdSplitter m_Splitter;
size_t m_PageLen;
bool m_OrderExit;
LibCmo::CK2::CKContext* m_Ctx;
LibCmo::CK2::CKFileReader* m_FileReader;
};
}