metaforce/hecl/lib/CVarManager.cpp

341 lines
11 KiB
C++

#include "hecl/CVarManager.hpp"
#include <algorithm>
#include <memory>
#include <regex>
#include "hecl/Console.hpp"
#include "hecl/hecl.hpp"
#include "hecl/Runtime.hpp"
#include <athena/FileWriter.hpp>
#include <athena/Utility.hpp>
namespace hecl {
CVar* com_developer = nullptr;
CVar* com_configfile = nullptr;
CVar* com_enableCheats = nullptr;
CVar* com_cubemaps = nullptr;
static const std::regex cmdLineRegex("\\+([\\w\\.]+)=([\\w\\.\\-]+)");
CVarManager* CVarManager::m_instance = nullptr;
static logvisor::Module CVarLog("CVarManager");
CVarManager::CVarManager(hecl::Runtime::FileStoreManager& store, bool useBinary)
: m_store(store), m_useBinary(useBinary) {
m_instance = this;
com_configfile =
newCVar("config", "File to store configuration", std::string("config"),
CVar::EFlags::System | CVar::EFlags::ReadOnly | CVar::EFlags::NoDeveloper | CVar::EFlags::Hidden);
com_developer = newCVar("developer", "Enables developer mode", false,
(CVar::EFlags::System | CVar::EFlags::ReadOnly | CVar::EFlags::InternalArchivable));
com_enableCheats = newCVar(
"cheats", "Enable cheats", false,
(CVar::EFlags::System | CVar::EFlags::ReadOnly | CVar::EFlags::Hidden | CVar::EFlags::InternalArchivable));
com_cubemaps = newCVar("cubemaps", "Enable cubemaps", false,
(CVar::EFlags::Game | CVar::EFlags::ReadOnly | CVar::EFlags::InternalArchivable));
}
CVarManager::~CVarManager() {}
CVar* CVarManager::registerCVar(std::unique_ptr<CVar>&& cvar) {
std::string tmp(cvar->name());
athena::utility::tolower(tmp);
if (m_cvars.find(tmp) != m_cvars.end()) {
return nullptr;
}
CVar* ret = cvar.get();
m_cvars.insert_or_assign(std::move(tmp), std::move(cvar));
return ret;
}
CVar* CVarManager::findCVar(std::string_view name) {
std::string lower(name);
athena::utility::tolower(lower);
auto search = m_cvars.find(lower);
if (search == m_cvars.end())
return nullptr;
return search->second.get();
}
std::vector<CVar*> CVarManager::archivedCVars() const {
std::vector<CVar*> ret;
for (const auto& pair : m_cvars)
if (pair.second->isArchive())
ret.push_back(pair.second.get());
return ret;
}
std::vector<CVar*> CVarManager::cvars(CVar::EFlags filter) const {
std::vector<CVar*> ret;
for (const auto& pair : m_cvars)
if (filter == CVar::EFlags::Any || True(pair.second->flags() & filter))
ret.push_back(pair.second.get());
return ret;
}
void CVarManager::deserialize(CVar* cvar) {
/* Make sure we're not trying to deserialize a CVar that is invalid or not exposed */
if (!cvar || (!cvar->isArchive() && !cvar->isInternalArchivable()))
return;
/* First let's check for a deferred value */
std::string lowName = cvar->name().data();
athena::utility::tolower(lowName);
if (const auto iter = m_deferedCVars.find(lowName); iter != m_deferedCVars.end()) {
std::string val = std::move(iter->second);
m_deferedCVars.erase(lowName);
if (cvar->fromLiteralToType(val))
return;
}
/* We were either unable to find a deferred value or got an invalid value */
#if _WIN32
hecl::SystemString filename =
hecl::SystemString(m_store.getStoreRoot()) + _SYS_STR('/') + com_configfile->toWideLiteral();
#else
hecl::SystemString filename =
hecl::SystemString(m_store.getStoreRoot()) + _SYS_STR('/') + com_configfile->toLiteral();
#endif
hecl::Sstat st;
if (m_useBinary) {
CVarContainer container;
filename += _SYS_STR(".bin");
if (hecl::Stat(filename.c_str(), &st) || !S_ISREG(st.st_mode))
return;
athena::io::FileReader reader(filename);
if (reader.isOpen())
container.read(reader);
if (container.cvars.size() > 0) {
auto serialized = std::find_if(container.cvars.begin(), container.cvars.end(),
[&cvar](const DNACVAR::CVar& c) { return c.m_name == cvar->name(); });
if (serialized != container.cvars.end()) {
DNACVAR::CVar& tmp = *serialized;
if (cvar->m_value != tmp.m_value) {
CVarUnlocker lc(cvar);
cvar->fromLiteralToType(tmp.m_value);
cvar->m_wasDeserialized = true;
}
}
}
} else {
filename += _SYS_STR(".yaml");
if (hecl::Stat(filename.c_str(), &st) || !S_ISREG(st.st_mode))
return;
athena::io::FileReader reader(filename);
if (reader.isOpen()) {
athena::io::YAMLDocReader docReader;
if (docReader.parse(&reader)) {
std::unique_ptr<athena::io::YAMLNode> root = docReader.releaseRootNode();
auto serialized = std::find_if(root->m_mapChildren.begin(), root->m_mapChildren.end(),
[&cvar](const auto& c) { return c.first == cvar->name(); });
if (serialized != root->m_mapChildren.end()) {
const std::unique_ptr<athena::io::YAMLNode>& tmp = serialized->second;
if (cvar->m_value != tmp->m_scalarString) {
CVarUnlocker lc(cvar);
cvar->fromLiteralToType(tmp->m_scalarString);
cvar->m_wasDeserialized = true;
}
}
}
}
}
}
void CVarManager::serialize() {
#if _WIN32
hecl::SystemString filename =
hecl::SystemString(m_store.getStoreRoot()) + _SYS_STR('/') + com_configfile->toWideLiteral();
#else
hecl::SystemString filename =
hecl::SystemString(m_store.getStoreRoot()) + _SYS_STR('/') + com_configfile->toLiteral();
#endif
if (m_useBinary) {
CVarContainer container;
for (const auto& pair : m_cvars) {
const auto& cvar = pair.second;
if (cvar->isArchive() || (cvar->isInternalArchivable() && cvar->wasDeserialized() && !cvar->hasDefaultValue())) {
container.cvars.push_back(*cvar);
}
}
container.cvarCount = atUint32(container.cvars.size());
filename += _SYS_STR(".bin");
athena::io::FileWriter writer(filename);
if (writer.isOpen())
container.write(writer);
} else {
filename += _SYS_STR(".yaml");
athena::io::FileReader r(filename);
athena::io::YAMLDocWriter docWriter(r.isOpen() ? &r : nullptr);
r.close();
docWriter.setStyle(athena::io::YAMLNodeStyle::Block);
for (const auto& pair : m_cvars) {
const auto& cvar = pair.second;
if (cvar->isArchive() || (cvar->isInternalArchivable() && cvar->wasDeserialized() && !cvar->hasDefaultValue())) {
docWriter.writeString(cvar->name().data(), cvar->toLiteral());
}
}
athena::io::FileWriter w(filename);
if (w.isOpen())
docWriter.finish(&w);
}
}
CVarManager* CVarManager::instance() { return m_instance; }
void CVarManager::list(Console* con, const std::vector<std::string>& /*args*/) {
for (const auto& cvar : m_cvars) {
if (!cvar.second->isHidden())
con->report(Console::Level::Info, FMT_STRING("{}: {}"), cvar.second->name(), cvar.second->help());
}
}
void CVarManager::setCVar(Console* con, const std::vector<std::string>& args) {
if (args.size() < 2) {
con->report(Console::Level::Info, FMT_STRING("Usage setCvar <cvar> <value>"));
return;
}
std::string cvName = args[0];
athena::utility::tolower(cvName);
const auto iter = m_cvars.find(cvName);
if (iter == m_cvars.end()) {
con->report(Console::Level::Error, FMT_STRING("CVar '{}' does not exist"), args[0]);
return;
}
const auto& cv = iter->second;
std::string oldVal = cv->value();
std::string value = args[1];
auto it = args.begin() + 2;
for (; it != args.end(); ++it)
value += " " + *it;
/* Check to make sure we're not redundantly assigning the value */
if (cv->value() == value)
return;
if (!cv->fromLiteralToType(value))
con->report(Console::Level::Warning, FMT_STRING("Unable to set cvar '{}' to value '{}'"), cv->name(), value);
else
con->report(Console::Level::Info, FMT_STRING("Set '{}' from '{}' to '{}'"), cv->name(), oldVal, value);
}
void CVarManager::getCVar(Console* con, const std::vector<std::string>& args) {
if (args.empty()) {
con->report(Console::Level::Info, FMT_STRING("Usage getCVar <cvar>"));
return;
}
std::string cvName = args[0];
athena::utility::tolower(cvName);
const auto iter = m_cvars.find(cvName);
if (iter == m_cvars.end()) {
con->report(Console::Level::Error, FMT_STRING("CVar '{}' does not exist"), args[0]);
return;
}
const auto& cv = iter->second;
con->report(Console::Level::Info, FMT_STRING("'{}' = '{}'"), cv->name(), cv->value());
}
void CVarManager::setDeveloperMode(bool v, bool setDeserialized) {
com_developer->unlock();
com_developer->fromBoolean(v);
if (setDeserialized)
com_developer->m_wasDeserialized = true;
com_developer->lock();
com_developer->setModified();
}
void CVarManager::setCheatsEnabled(bool v, bool setDeserialized) {
com_enableCheats->unlock();
com_enableCheats->fromBoolean(v);
if (setDeserialized)
com_enableCheats->m_wasDeserialized = true;
com_enableCheats->lock();
com_enableCheats->setModified();
}
bool CVarManager::restartRequired() const {
return std::any_of(m_cvars.cbegin(), m_cvars.cend(), [](const auto& entry) {
return entry.second->isModified() && entry.second->modificationRequiresRestart();
});
}
void CVarManager::parseCommandLine(const std::vector<SystemString>& args) {
bool oldDeveloper = suppressDeveloper();
std::string developerName(com_developer->name());
athena::utility::tolower(developerName);
for (const SystemString& arg : args) {
if (arg[0] != _SYS_STR('+')) {
continue;
}
const std::string tmp(SystemUTF8Conv(arg).str());
std::smatch matches;
if (!std::regex_match(tmp, matches, cmdLineRegex)) {
continue;
}
std::string cvarName = matches[1].str();
std::string cvarValue = matches[2].str();
if (CVar* cv = findCVar(cvarName)) {
cv->fromLiteralToType(cvarValue);
athena::utility::tolower(cvarName);
if (developerName == cvarName)
/* Make sure we're not overriding developer mode when we restore */
oldDeveloper = com_developer->toBoolean();
} else {
/* Unable to find an existing CVar, let's defer for the time being 8 */
athena::utility::tolower(cvarName);
m_deferedCVars.insert_or_assign(std::move(cvarName), std::move(cvarValue));
}
}
restoreDeveloper(oldDeveloper);
}
bool CVarManager::suppressDeveloper() {
bool oldDeveloper = com_developer->toBoolean();
CVarUnlocker unlock(com_developer);
com_developer->fromBoolean(true);
return oldDeveloper;
}
void CVarManager::restoreDeveloper(bool oldDeveloper) {
CVarUnlocker unlock(com_developer);
com_developer->fromBoolean(oldDeveloper);
}
void CVarManager::proc() {
for (const auto& [name, cvar] : m_cvars) {
if (cvar->isModified() && !cvar->modificationRequiresRestart()) {
cvar->dispatch();
// Clear the modified flag now that we've informed everyone we've changed
cvar->clearModified();
}
}
}
} // namespace hecl