You cannot select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
openmw-tes3coop/components/settings/settings.cpp

450 lines
16 KiB
C++

#include "settings.hpp"
#include <stdexcept>
#include <sstream>
#include <iostream>
#include <components/misc/stringops.hpp>
#include <boost/filesystem/fstream.hpp>
#include <boost/filesystem/path.hpp>
#include <boost/algorithm/string.hpp>
namespace
{
bool parseBool(const std::string& string)
{
return (Misc::StringUtils::ciEqual(string, "true"));
}
float parseFloat(const std::string& string)
{
std::stringstream stream;
stream << string;
float ret = 0.f;
stream >> ret;
return ret;
}
int parseInt(const std::string& string)
{
std::stringstream stream;
stream << string;
int ret = 0;
stream >> ret;
return ret;
}
template <typename T>
std::string toString(T val)
{
std::ostringstream stream;
stream << val;
return stream.str();
}
template <>
std::string toString(bool val)
{
return val ? "true" : "false";
}
}
namespace Settings
{
CategorySettingValueMap Manager::mDefaultSettings = CategorySettingValueMap();
CategorySettingValueMap Manager::mUserSettings = CategorySettingValueMap();
CategorySettingVector Manager::mChangedSettings = CategorySettingVector();
typedef std::map< CategorySetting, bool > CategorySettingStatusMap;
class SettingsFileParser
{
public:
SettingsFileParser() : mLine(0) {}
void loadSettingsFile (const std::string& file, CategorySettingValueMap& settings)
{
mFile = file;
boost::filesystem::ifstream stream;
stream.open(boost::filesystem::path(file));
std::cout << "Loading settings file: " << file << std::endl;
std::string currentCategory;
mLine = 0;
while (!stream.eof() && !stream.fail())
{
++mLine;
std::string line;
std::getline( stream, line );
size_t i = 0;
if (!skipWhiteSpace(i, line))
continue;
if (line[i] == '#') // skip comment
continue;
if (line[i] == '[')
{
size_t end = line.find(']', i);
if (end == std::string::npos)
fail("unterminated category");
currentCategory = line.substr(i+1, end - (i+1));
boost::algorithm::trim(currentCategory);
i = end+1;
}
if (!skipWhiteSpace(i, line))
continue;
if (currentCategory.empty())
fail("empty category name");
size_t settingEnd = line.find('=', i);
if (settingEnd == std::string::npos)
fail("unterminated setting name");
std::string setting = line.substr(i, (settingEnd-i));
boost::algorithm::trim(setting);
size_t valueBegin = settingEnd+1;
std::string value = line.substr(valueBegin);
boost::algorithm::trim(value);
if (settings.insert(std::make_pair(std::make_pair(currentCategory, setting), value)).second == false)
fail(std::string("duplicate setting: [" + currentCategory + "] " + setting));
}
}
void saveSettingsFile (const std::string& file, CategorySettingValueMap& settings)
{
// No options have been written to the file yet.
CategorySettingStatusMap written;
for (CategorySettingValueMap::iterator it = settings.begin(); it != settings.end(); ++it) {
written[it->first] = false;
}
// Have we substantively changed the settings file?
bool changed = false;
// Were there any lines at all in the file?
bool existing = false;
// The category/section we're currently in.
std::string currentCategory;
// Open the existing settings.cfg file to copy comments. This might not be the same file
// as the output file if we're copying the setting from the default settings.cfg for the
// first time. A minor change in API to pass the source file might be in order here.
boost::filesystem::ifstream istream;
boost::filesystem::path ipath(file);
istream.open(ipath);
// Create a new string stream to write the current settings to. It's likely that the
// input file and the output file are the same, so this stream serves as a temporary file
// of sorts. The setting files aren't very large so there's no performance issue.
std::stringstream ostream;
// For every line in the input file...
while (!istream.eof() && !istream.fail()) {
std::string line;
std::getline(istream, line);
// The current character position in the line.
size_t i = 0;
// Don't add additional newlines at the end of the file.
if (istream.eof()) continue;
// Copy entirely blank lines.
if (!skipWhiteSpace(i, line)) {
ostream << line << std::endl;
continue;
}
// There were at least some comments in the input file.
existing = true;
// Copy comments.
if (line[i] == '#') {
ostream << line << std::endl;
continue;
}
// Category heading.
if (line[i] == '[') {
size_t end = line.find(']', i);
// This should never happen unless the player edited the file while playing.
if (end == std::string::npos) {
ostream << "# unterminated category: " << line << std::endl;
changed = true;
continue;
}
// Ensure that all options in the current category have been written.
for (CategorySettingStatusMap::iterator mit = written.begin(); mit != written.end(); ++mit) {
if (mit->second == false && mit->first.first == currentCategory) {
std::cout << "Added new setting: [" << currentCategory << "] "
<< mit->first.second << " = " << settings[mit->first] << std::endl;
ostream << mit->first.second << " = " << settings[mit->first] << std::endl;
mit->second = true;
changed = true;
}
}
// Update the current category.
currentCategory = line.substr(i+1, end - (i+1));
boost::algorithm::trim(currentCategory);
// Write the (new) current category to the file.
ostream << "[" << currentCategory << "]" << std::endl;
//std::cout << "Wrote category: " << currentCategory << std::endl;
// A setting can apparently follow the category on an input line. That's rather
// inconvenient, since it makes it more likely to have duplicative sections,
// which our algorithm doesn't like. Do the best we can.
i = end+1;
}
// Truncate trailing whitespace, since we're changing the file anayway.
if (!skipWhiteSpace(i, line))
continue;
// If we've found settings before the first category, something's wrong. This
// should never happen unless the player edited the file while playing, since
// the loadSettingsFile() logic rejects it.
if (currentCategory.empty()) {
ostream << "# empty category name: " << line << std::endl;
changed = true;
continue;
}
// Which setting was at this location in the input file?
size_t settingEnd = line.find('=', i);
// This should never happen unless the player edited the file while playing.
if (settingEnd == std::string::npos) {
ostream << "# unterminated setting name: " << line << std::endl;
changed = true;
continue;
}
std::string setting = line.substr(i, (settingEnd-i));
boost::algorithm::trim(setting);
// Get the existing value so we can see if we've changed it.
size_t valueBegin = settingEnd+1;
std::string value = line.substr(valueBegin);
boost::algorithm::trim(value);
// Construct the setting map key to determine whether the setting has already been
// written to the file.
CategorySetting key = std::make_pair(currentCategory, setting);
CategorySettingStatusMap::iterator finder = written.find(key);
// Settings not in the written map are definitely invalid. Currently, this can only
// happen if the player edited the file while playing, because loadSettingsFile()
// will accept anything and pass it along in the map, but in the future, we might
// want to handle invalid settings more gracefully here.
if (finder == written.end()) {
ostream << "# invalid setting: " << line << std::endl;
changed = true;
continue;
}
// Write the current value of the setting to the file. The key must exist in the
// settings map because of how written was initialized and finder != end().
ostream << setting << " = " << settings[key] << std::endl;
// Mark that setting as written.
finder->second = true;
// Did we really change it?
if (value != settings[key]) {
std::cout << "Changed setting: [" << currentCategory << "] "
<< setting << " = " << settings[key] << std::endl;
changed = true;
}
// No need to write the current line, because we just emitted a replacement.
// Curiously, it appears that comments at the ends of lines with settings are not
// allowed, and the comment becomes part of the value. Was that intended?
}
// We're done with the input stream file.
istream.close();
// Ensure that all options in the current category have been written. We must complete
// the current category at the end of the file before moving on to any new categories.
for (CategorySettingStatusMap::iterator mit = written.begin(); mit != written.end(); ++mit) {
if (mit->second == false && mit->first.first == currentCategory) {
std::cout << "Added new setting: [" << mit->first.first << "] "
<< mit->first.second << " = " << settings[mit->first] << std::endl;
ostream << mit->first.second << " = " << settings[mit->first] << std::endl;
mit->second = true;
changed = true;
}
}
// If there was absolutely nothing in the file (or more likely the file didn't
// exist), start the newly created file with a helpful comment.
if (!existing) {
ostream << "# This is the OpenMW user 'settings.cfg' file. This file only contains" << std::endl;
ostream << "# explicitly changed settings. If you would like to revert a setting" << std::endl;
ostream << "# to its default, simply remove it from this file. For available" << std::endl;
ostream << "# settings, see the file 'settings-default.cfg' or the documentation at:" << std::endl;
ostream << "#" << std::endl;
ostream << "# https://wiki.openmw.org/index.php?title=Settings" << std::endl;
}
// We still have one more thing to do before we're completely done writing the file.
// It's possible that there are entirely new categories, or that the input file had
// disappeared completely, so we need ensure that all settings are written to the file
// regardless of those issues.
for (CategorySettingStatusMap::iterator mit = written.begin(); mit != written.end(); ++mit) {
// If the setting hasn't been written yet.
if (mit->second == false) {
// If the catgory has changed, write a new category header.
if (mit->first.first != currentCategory) {
currentCategory = mit->first.first;
std::cout << "Created new setting section: " << mit->first.first << std::endl;
ostream << std::endl;
ostream << "[" << currentCategory << "]" << std::endl;
}
std::cout << "Added new setting: [" << mit->first.first << "] "
<< mit->first.second << " = " << settings[mit->first] << std::endl;
// Then write the setting. No need to mark it as written because we're done.
ostream << mit->first.second << " = " << settings[mit->first] << std::endl;
changed = true;
}
}
// Now install the newly written file in the requested place.
if (changed) {
std::cout << "Updating settings file: " << ipath << std::endl;
boost::filesystem::ofstream ofstream;
ofstream.open(ipath);
ofstream << ostream.rdbuf();
ofstream.close();
}
}
private:
/// Increment i until it longer points to a whitespace character
/// in the string or has reached the end of the string.
/// @return false if we have reached the end of the string
bool skipWhiteSpace(size_t& i, std::string& str)
{
while (i < str.size() && std::isspace(str[i], std::locale::classic()))
{
++i;
}
return i < str.size();
}
void fail(const std::string& message)
{
std::stringstream error;
error << "Error on line " << mLine << " in " << mFile << ":\n" << message;
throw std::runtime_error(error.str());
}
std::string mFile;
int mLine;
};
void Manager::clear()
{
mDefaultSettings.clear();
mUserSettings.clear();
mChangedSettings.clear();
}
void Manager::loadDefault(const std::string &file)
{
SettingsFileParser parser;
parser.loadSettingsFile(file, mDefaultSettings);
}
void Manager::loadUser(const std::string &file)
{
SettingsFileParser parser;
parser.loadSettingsFile(file, mUserSettings);
}
void Manager::saveUser(const std::string &file)
{
SettingsFileParser parser;
parser.saveSettingsFile(file, mUserSettings);
}
std::string Manager::getString(const std::string &setting, const std::string &category)
{
CategorySettingValueMap::key_type key = std::make_pair(category, setting);
CategorySettingValueMap::iterator it = mUserSettings.find(key);
if (it != mUserSettings.end())
return it->second;
it = mDefaultSettings.find(key);
if (it != mDefaultSettings.end())
return it->second;
throw std::runtime_error(std::string("Trying to retrieve a non-existing setting: ") + setting
+ ".\nMake sure the settings-default.cfg file file was properly installed.");
}
float Manager::getFloat (const std::string& setting, const std::string& category)
{
return parseFloat( getString(setting, category) );
}
int Manager::getInt (const std::string& setting, const std::string& category)
{
return parseInt( getString(setting, category) );
}
bool Manager::getBool (const std::string& setting, const std::string& category)
{
return parseBool( getString(setting, category) );
}
void Manager::setString(const std::string &setting, const std::string &category, const std::string &value)
{
CategorySettingValueMap::key_type key = std::make_pair(category, setting);
CategorySettingValueMap::iterator found = mUserSettings.find(key);
if (found != mUserSettings.end())
{
if (found->second == value)
return;
}
mUserSettings[key] = value;
mChangedSettings.insert(key);
}
void Manager::setInt (const std::string& setting, const std::string& category, const int value)
{
setString(setting, category, toString(value));
}
void Manager::setFloat (const std::string &setting, const std::string &category, const float value)
{
setString(setting, category, toString(value));
}
void Manager::setBool(const std::string &setting, const std::string &category, const bool value)
{
setString(setting, category, toString(value));
}
const CategorySettingVector Manager::apply()
{
CategorySettingVector vec = mChangedSettings;
mChangedSettings.clear();
return vec;
}
}