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Diffstat (limited to 'indra/newview/llautoreplace.cpp')
-rw-r--r-- | indra/newview/llautoreplace.cpp | 802 |
1 files changed, 802 insertions, 0 deletions
diff --git a/indra/newview/llautoreplace.cpp b/indra/newview/llautoreplace.cpp new file mode 100644 index 0000000000..1d72397cbc --- /dev/null +++ b/indra/newview/llautoreplace.cpp @@ -0,0 +1,802 @@ +/** + * @file llautoreplace.cpp + * @brief Auto Replace Manager + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; either + * version 2.1 of the License, or (at your option) any later version. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * $/LicenseInfo$ + */ + +#include "llviewerprecompiledheaders.h" +#include "llautoreplace.h" +#include "llsdserialize.h" +#include "llboost.h" +#include "llcontrol.h" +#include "llviewercontrol.h" +#include "llnotificationsutil.h" + +const char* LLAutoReplace::SETTINGS_FILE_NAME = "autoreplace.xml"; + +void LLAutoReplace::autoreplaceCallback(S32& replacement_start, S32& replacement_length, LLWString& replacement_string, S32& cursor_pos, const LLWString& input_text) +{ + // make sure these returned values are cleared in case there is no replacement + replacement_start = 0; + replacement_length = 0; + replacement_string.clear(); + + static LLCachedControl<bool> perform_autoreplace(gSavedSettings, "AutoReplace"); + if (perform_autoreplace) + { + S32 word_end = cursor_pos - 1; + + bool at_space = (input_text[word_end] == ' '); + bool have_word = (LLWStringUtil::isPartOfWord(input_text[word_end])); + + if (at_space || have_word) + { + if (at_space && word_end > 0) + { + // find out if this space immediately follows a word + word_end--; + have_word = (LLWStringUtil::isPartOfWord(input_text[word_end])); + } + if (have_word) + { + // word_end points to the end of a word, now find the start of the word + std::string word; + S32 word_start = word_end; + for (S32 back_one = word_start - 1; + back_one >= 0 && LLWStringUtil::isPartOfWord(input_text[back_one]); + back_one-- + ) + { + word_start--; // walk word_start back to the beginning of the word + } + LL_DEBUGS("AutoReplace") << "word_start: " << word_start << " word_end: " << word_end << LL_ENDL; + std::string str_text = std::string(input_text.begin(), input_text.end()); + std::string last_word = str_text.substr(word_start, word_end - word_start + 1); + std::string replacement_word(mSettings.replaceWord(last_word)); + + if (replacement_word != last_word) + { + // The last word is one for which we have a replacement + if (at_space) + { + // return the replacement string + replacement_start = word_start; + replacement_length = last_word.length(); + replacement_string = utf8str_to_wstring(replacement_word); + LLWString old_string = utf8str_to_wstring(last_word); + S32 size_change = replacement_string.size() - old_string.size(); + cursor_pos += size_change; + } + } + } + } + } +} + +std::string LLAutoReplace::getUserSettingsFileName() +{ + std::string path=gDirUtilp->getExpandedFilename(LL_PATH_USER_SETTINGS, ""); + + if (!path.empty()) + { + path = gDirUtilp->getExpandedFilename(LL_PATH_USER_SETTINGS, SETTINGS_FILE_NAME); + } + return path; +} + +std::string LLAutoReplace::getAppSettingsFileName() +{ + std::string path=gDirUtilp->getExpandedFilename(LL_PATH_APP_SETTINGS, ""); + + if (!path.empty()) + { + path = gDirUtilp->getExpandedFilename(LL_PATH_APP_SETTINGS, SETTINGS_FILE_NAME); + } + else + { + LL_ERRS("AutoReplace") << "Failed to get app settings directory name" << LL_ENDL; + } + return path; +} + +LLAutoReplaceSettings LLAutoReplace::getSettings() +{ + return mSettings; +} + +void LLAutoReplace::setSettings(const LLAutoReplaceSettings& newSettings) +{ + mSettings.set(newSettings); + /// Make the newSettings active and write them to user storage + saveToUserSettings(); +} + +LLAutoReplace::LLAutoReplace() +{ +} + +void LLAutoReplace::initSingleton() +{ + loadFromSettings(); +} + +void LLAutoReplace::loadFromSettings() +{ + std::string filename=getUserSettingsFileName(); + if (filename.empty()) + { + LL_INFOS("AutoReplace") << "no valid user settings directory." << LL_ENDL; + } + if(gDirUtilp->fileExists(filename)) + { + LLSD userSettings; + llifstream file; + file.open(filename.c_str()); + if (file.is_open()) + { + LLSDSerialize::fromXML(userSettings, file); + } + file.close(); + if ( mSettings.setFromLLSD(userSettings) ) + { + LL_INFOS("AutoReplace") << "settings loaded from '" << filename << "'" << LL_ENDL; + } + else + { + LL_WARNS("AutoReplace") << "invalid settings found in '" << filename << "'" << LL_ENDL; + } + } + else // no user settings found, try application settings + { + std::string defaultName = getAppSettingsFileName(); + LL_INFOS("AutoReplace") << " user settings file '" << filename << "' not found"<< LL_ENDL; + + bool gotSettings = false; + if(gDirUtilp->fileExists(defaultName)) + { + LLSD appDefault; + llifstream file; + file.open(defaultName.c_str()); + if (file.is_open()) + { + LLSDSerialize::fromXMLDocument(appDefault, file); + } + file.close(); + + if ( mSettings.setFromLLSD(appDefault) ) + { + LL_INFOS("AutoReplace") << "settings loaded from '" << defaultName.c_str() << "'" << LL_ENDL; + gotSettings = true; + } + else + { + LL_WARNS("AutoReplace") << "invalid settings found in '" << defaultName.c_str() << "'" << LL_ENDL; + } + } + + if ( ! gotSettings ) + { + if (mSettings.setFromLLSD(mSettings.getExampleLLSD())) + { + LL_WARNS("AutoReplace") << "no settings found; loaded example." << LL_ENDL; + } + else + { + LL_WARNS("AutoReplace") << "no settings found and example invalid!" << LL_ENDL; + } + } + } +} + +void LLAutoReplace::saveToUserSettings() +{ + std::string filename=getUserSettingsFileName(); + llofstream file; + file.open(filename.c_str()); + LLSDSerialize::toPrettyXML(mSettings.asLLSD(), file); + file.close(); + LL_INFOS("AutoReplace") << "settings saved to '" << filename << "'" << LL_ENDL; +} + +// ================================================================ +// LLAutoReplaceSettings +// ================================================================ + +const std::string LLAutoReplaceSettings::AUTOREPLACE_LIST_NAME = "name"; ///< key for looking up list names +const std::string LLAutoReplaceSettings::AUTOREPLACE_LIST_REPLACEMENTS = "replacements"; ///< key for looking up replacement map + +LLAutoReplaceSettings::LLAutoReplaceSettings() +{ +} + +LLAutoReplaceSettings::LLAutoReplaceSettings(const LLAutoReplaceSettings& settings) +{ + // copy all values through fundamental type intermediates for thread safety + mLists = LLSD::emptyArray(); + + for ( LLSD::array_const_iterator list = settings.mLists.beginArray(), listEnd = settings.mLists.endArray(); + list != listEnd; + list++ + ) + { + if ( (*list).isMap() ) // can fail due to LLSD-30: ignore it + { + LLSD listMap = LLSD::emptyMap(); + std::string listName = (*list)[AUTOREPLACE_LIST_NAME]; + listMap[AUTOREPLACE_LIST_NAME] = listName; + listMap[AUTOREPLACE_LIST_REPLACEMENTS] = LLSD::emptyMap(); + + for ( LLSD::map_const_iterator + entry = (*list)[AUTOREPLACE_LIST_REPLACEMENTS].beginMap(), + entriesEnd = (*list)[AUTOREPLACE_LIST_REPLACEMENTS].endMap(); + entry != entriesEnd; + entry++ + ) + { + std::string keyword = entry->first; + std::string replacement = entry->second.asString(); + listMap[AUTOREPLACE_LIST_REPLACEMENTS].insert(keyword, LLSD(replacement)); + } + + mLists.append(listMap); + } + } +} + +void LLAutoReplaceSettings::set(const LLAutoReplaceSettings& newSettings) +{ + mLists = newSettings.mLists; +} + +bool LLAutoReplaceSettings::setFromLLSD(const LLSD& settingsFromLLSD) +{ + bool settingsValid = true; + + if ( settingsFromLLSD.isArray() ) + { + for ( LLSD::array_const_iterator + list = settingsFromLLSD.beginArray(), + listEnd = settingsFromLLSD.endArray(); + settingsValid && list != listEnd; + list++ + ) + { + if ( (*list).isDefined() ) // can be undef due to LLSD-30: ignore it + { + settingsValid = listIsValid(*list); + } + } + } + else + { + settingsValid = false; + LL_WARNS("AutoReplace") << "settings are not an array" << LL_ENDL; + } + + if ( settingsValid ) + { + mLists = settingsFromLLSD; + } + else + { + LL_WARNS("AutoReplace") << "invalid settings discarded; using hard coded example" << LL_ENDL; + } + + return settingsValid; +} + +bool LLAutoReplaceSettings::listNameMatches( const LLSD& list, const std::string name ) +{ + return list.isMap() + && list.has(AUTOREPLACE_LIST_NAME) + && list[AUTOREPLACE_LIST_NAME].asString() == name; +} + +const LLSD* LLAutoReplaceSettings::getListEntries(std::string listName) +{ + const LLSD* returnedEntries = NULL; + for( LLSD::array_const_iterator list = mLists.beginArray(), endList = mLists.endArray(); + returnedEntries == NULL && list != endList; + list++ + ) + { + const LLSD& thisList = *list; + if ( listNameMatches(thisList, listName) ) + { + returnedEntries = &thisList[AUTOREPLACE_LIST_REPLACEMENTS]; + } + } + return returnedEntries; +} + +std::string LLAutoReplaceSettings::replacementFor(std::string keyword, std::string listName) +{ + std::string replacement; + bool foundList = false; + for( LLSD::array_const_iterator list = mLists.beginArray(), endList = mLists.endArray(); + ! foundList && list != endList; + list++ + ) + { + const LLSD& thisList = *list; + if ( listNameMatches(thisList, listName) ) + { + foundList = true; // whether there is a replacement or not, we're done + if ( thisList.isMap() + && thisList.has(AUTOREPLACE_LIST_REPLACEMENTS) + && thisList[AUTOREPLACE_LIST_REPLACEMENTS].has(keyword) + ) + { + replacement = thisList[AUTOREPLACE_LIST_REPLACEMENTS][keyword].asString(); + LL_DEBUGS("AutoReplace")<<"'"<<keyword<<"' -> '"<<replacement<<"'"<<LL_ENDL; + } + } + if (!foundList) + { + LL_WARNS("AutoReplace")<<"failed to find list '"<<listName<<"'"<<LL_ENDL; + } + } + if (replacement.empty()) + { + LL_WARNS("AutoReplace")<<"failed to find '"<<keyword<<"'"<<LL_ENDL; + } + return replacement; +} + +LLSD LLAutoReplaceSettings::getListNames() +{ + LL_DEBUGS("AutoReplace")<<"====="<<LL_ENDL; + LLSD toReturn = LLSD::emptyArray(); + S32 counter=0; + for( LLSD::array_const_iterator list = mLists.beginArray(), endList = mLists.endArray(); + list != endList; + list++ + ) + { + const LLSD& thisList = *list; + if ( thisList.isMap() ) + { + if ( thisList.has(AUTOREPLACE_LIST_NAME) ) + { + std::string name = thisList[AUTOREPLACE_LIST_NAME].asString(); + LL_DEBUGS("AutoReplace")<<counter<<" '"<<name<<"'"<<LL_ENDL; + toReturn.append(LLSD(name)); + } + else + { + LL_ERRS("AutoReplace") <<counter<<" ! MISSING "<<AUTOREPLACE_LIST_NAME<< LL_ENDL; + } + } + else + { + LL_WARNS("AutoReplace")<<counter<<" ! not a map: "<<LLSD::typeString(thisList.type())<< LL_ENDL; + } + counter++; + } + LL_DEBUGS("AutoReplace")<<"^^^^^^"<<LL_ENDL; + return toReturn; +} + +bool LLAutoReplaceSettings::listIsValid(const LLSD& list) +{ + bool listValid = true; + if ( ! list.isMap() ) + { + listValid = false; + LL_WARNS("AutoReplace") << "list is not a map" << LL_ENDL; + } + else if ( ! list.has(AUTOREPLACE_LIST_NAME) + || ! list[AUTOREPLACE_LIST_NAME].isString() + || list[AUTOREPLACE_LIST_NAME].asString().empty() + ) + { + listValid = false; + LL_WARNS("AutoReplace") + << "list found without " << AUTOREPLACE_LIST_NAME + << " (or it is empty)" + << LL_ENDL; + } + else if ( ! list.has(AUTOREPLACE_LIST_REPLACEMENTS) || ! list[AUTOREPLACE_LIST_REPLACEMENTS].isMap() ) + { + listValid = false; + LL_WARNS("AutoReplace") << "list '" << list[AUTOREPLACE_LIST_NAME].asString() << "' without " << AUTOREPLACE_LIST_REPLACEMENTS << LL_ENDL; + } + else + { + for ( LLSD::map_const_iterator + entry = list[AUTOREPLACE_LIST_REPLACEMENTS].beginMap(), + entriesEnd = list[AUTOREPLACE_LIST_REPLACEMENTS].endMap(); + listValid && entry != entriesEnd; + entry++ + ) + { + if ( ! entry->second.isString() ) + { + listValid = false; + LL_WARNS("AutoReplace") + << "non-string replacement value found in list '" + << list[AUTOREPLACE_LIST_NAME].asString() << "'" + << LL_ENDL; + } + } + } + + return listValid; +} + +const LLSD* LLAutoReplaceSettings::exportList(std::string listName) +{ + const LLSD* exportedList = NULL; + for ( LLSD::array_const_iterator list = mLists.beginArray(), listEnd = mLists.endArray(); + exportedList == NULL && list != listEnd; + list++ + ) + { + if ( listNameMatches(*list, listName) ) + { + const LLSD& namedList = (*list); + exportedList = &namedList; + } + } + return exportedList; +} + +bool LLAutoReplaceSettings::listNameIsUnique(const LLSD& newList) +{ + bool nameIsUnique = true; + // this must always be called with a valid list, so it is safe to assume it has a name + std::string newListName = newList[AUTOREPLACE_LIST_NAME].asString(); + for ( LLSD::array_const_iterator list = mLists.beginArray(), listEnd = mLists.endArray(); + nameIsUnique && list != listEnd; + list++ + ) + { + if ( listNameMatches(*list, newListName) ) + { + LL_WARNS("AutoReplace")<<"duplicate list name '"<<newListName<<"'"<<LL_ENDL; + nameIsUnique = false; + } + } + return nameIsUnique; +} + +/* static */ +void LLAutoReplaceSettings::createEmptyList(LLSD& emptyList) +{ + emptyList = LLSD::emptyMap(); + emptyList[AUTOREPLACE_LIST_NAME] = "Empty"; + emptyList[AUTOREPLACE_LIST_REPLACEMENTS] = LLSD::emptyMap(); +} + +/* static */ +void LLAutoReplaceSettings::setListName(LLSD& list, const std::string& newName) +{ + list[AUTOREPLACE_LIST_NAME] = newName; +} + +/* static */ +std::string LLAutoReplaceSettings::getListName(LLSD& list) +{ + std::string name; + if ( list.isMap() && list.has(AUTOREPLACE_LIST_NAME) && list[AUTOREPLACE_LIST_NAME].isString() ) + { + name = list[AUTOREPLACE_LIST_NAME].asString(); + } + return name; +} + +LLAutoReplaceSettings::AddListResult LLAutoReplaceSettings::addList(const LLSD& newList) +{ + AddListResult result; + if ( listIsValid( newList ) ) + { + if ( listNameIsUnique( newList ) ) + { + mLists.append(newList); + result = AddListOk; + } + else + { + LL_WARNS("AutoReplace") << "attempt to add duplicate name" << LL_ENDL; + result = AddListDuplicateName; + } + } + else + { + LL_WARNS("AutoReplace") << "attempt to add invalid list" << LL_ENDL; + result = AddListInvalidList; + } + return result; +} + +LLAutoReplaceSettings::AddListResult LLAutoReplaceSettings::replaceList(const LLSD& newList) +{ + AddListResult result = AddListInvalidList; + if ( listIsValid( newList ) ) + { + std::string listName = newList[AUTOREPLACE_LIST_NAME].asString(); + bool listFound = false; + S32 search_index; + LLSD targetList; + // The following is working around the fact that LLSD arrays containing maps also seem to have undefined entries... see LLSD-30 + for ( search_index = 0, targetList = mLists[0]; + !listFound && search_index < mLists.size(); + search_index += 1, targetList = mLists[search_index] + ) + { + if ( targetList.isMap() ) + { + if ( listNameMatches( targetList, listName) ) + { + LL_DEBUGS("AutoReplace")<<"list to replace found at "<<search_index<<LL_ENDL; + mLists.erase(search_index); + mLists.insert(search_index, newList); + listFound = true; + result = AddListOk; + } + } + } + + if ( ! listFound ) + { + LL_WARNS("AutoReplace") << "attempt to replace unconfigured list" << LL_ENDL; + } + } + else + { + LL_WARNS("AutoReplace") << "attempt to add invalid list" << LL_ENDL; + } + return result; +} + +bool LLAutoReplaceSettings::removeReplacementList(std::string listName) +{ + bool found = false; + for( S32 index = 0; !found && mLists[index].isDefined(); index++ ) + { + if( listNameMatches(mLists.get(index), listName) ) + { + LL_DEBUGS("AutoReplace")<<"list '"<<listName<<"'"<<LL_ENDL; + mLists.erase(index); + found = true; + } + } + return found; +} + +/// Move the named list up in the priority order +bool LLAutoReplaceSettings::increaseListPriority(std::string listName) +{ + LL_DEBUGS("AutoReplace")<<listName<<LL_ENDL; + bool found = false; + S32 search_index, previous_index; + LLSD targetList; + // The following is working around the fact that LLSD arrays containing maps also seem to have undefined entries... see LLSD-30 + previous_index = -1; + for ( search_index = 0, targetList = mLists[0]; + !found && search_index < mLists.size(); + search_index += 1, targetList = mLists[search_index] + ) + { + if ( targetList.isMap() ) + { + if ( listNameMatches( targetList, listName) ) + { + LL_DEBUGS("AutoReplace")<<"found at "<<search_index<<", previous is "<<previous_index<<LL_ENDL; + found = true; + if (previous_index >= 0) + { + LL_DEBUGS("AutoReplace") << "erase "<<search_index<<LL_ENDL; + mLists.erase(search_index); + LL_DEBUGS("AutoReplace") << "insert at "<<previous_index<<LL_ENDL; + mLists.insert(previous_index, targetList); + } + else + { + LL_WARNS("AutoReplace") << "attempted to move top list up" << LL_ENDL; + } + } + else + { + previous_index = search_index; + } + } + else + { + LL_DEBUGS("AutoReplace") << search_index<<" is "<<LLSD::typeString(targetList.type())<<LL_ENDL; + } + } + return found; +} + +/// Move the named list down in the priority order +bool LLAutoReplaceSettings::decreaseListPriority(std::string listName) +{ + LL_DEBUGS("AutoReplace")<<listName<<LL_ENDL; + S32 found_index = -1; + S32 search_index; + for ( search_index = 0; + found_index == -1 && search_index < mLists.size(); + search_index++ + ) + { + if ( listNameMatches( mLists[search_index], listName) ) + { + LL_DEBUGS("AutoReplace")<<"found at index "<<search_index<<LL_ENDL; + found_index = search_index; + } + } + if (found_index != -1) + { + S32 next_index; + for ( next_index = found_index+1; + next_index < mLists.size() && ! mLists[next_index].isMap(); + next_index++ + ) + { + // skipping over any undefined slots (see LLSD-30) + LL_WARNS("AutoReplace")<<next_index<<" ! not a map: "<<LLSD::typeString(mLists[next_index].type())<< LL_ENDL; + } + if ( next_index < mLists.size() ) + { + LLSD next_list = mLists[next_index]; + LL_DEBUGS("AutoReplace") << "erase "<<next_index<<LL_ENDL; + mLists.erase(next_index); + LL_DEBUGS("AutoReplace") << "insert at "<<found_index<<LL_ENDL; + mLists.insert(found_index, next_list); + } + else + { + LL_WARNS("AutoReplace") << "attempted to move bottom list down" << LL_ENDL; + } + } + else + { + LL_WARNS("AutoReplace") << "not found" << LL_ENDL; + } + return (found_index != -1); +} + + +std::string LLAutoReplaceSettings::replaceWord(const std::string currentWord) +{ + std::string returnedWord = currentWord; // in case no replacement is found + static LLCachedControl<bool> autoreplace_enabled(gSavedSettings, "AutoReplace"); + if ( autoreplace_enabled ) + { + LL_DEBUGS("AutoReplace")<<"checking '"<<currentWord<<"'"<< LL_ENDL; + //loop through lists in order + bool found = false; + for( LLSD::array_const_iterator list = mLists.beginArray(), endLists = mLists.endArray(); + ! found && list != endLists; + list++ + ) + { + const LLSD& checkList = *list; + const LLSD& replacements = checkList[AUTOREPLACE_LIST_REPLACEMENTS]; + + if ( replacements.has(currentWord) ) + { + found = true; + LL_DEBUGS("AutoReplace") + << " found in list '" << checkList[AUTOREPLACE_LIST_NAME].asString() + << " => '" << replacements[currentWord].asString() << "'" + << LL_ENDL; + returnedWord = replacements[currentWord].asString(); + } + } + } + return returnedWord; +} + +bool LLAutoReplaceSettings::addEntryToList(LLWString keyword, LLWString replacement, std::string listName) +{ + bool added = false; + + if ( ! keyword.empty() && ! replacement.empty() ) + { + bool isOneWord = true; + for (S32 character = 0; isOneWord && character < keyword.size(); character++ ) + { + if ( ! LLWStringUtil::isPartOfWord(keyword[character]) ) + { + LL_WARNS("AutoReplace") << "keyword '" << wstring_to_utf8str(keyword) << "' not a single word (len "<<keyword.size()<<" '"<<character<<"')" << LL_ENDL; + isOneWord = false; + } + } + + if ( isOneWord ) + { + bool listFound = false; + for( LLSD::array_iterator list = mLists.beginArray(), endLists = mLists.endArray(); + ! listFound && list != endLists; + list++ + ) + { + if ( listNameMatches(*list, listName) ) + { + listFound = true; + (*list)[AUTOREPLACE_LIST_REPLACEMENTS][wstring_to_utf8str(keyword)]=wstring_to_utf8str(replacement); + } + } + if (listFound) + { + added = true; + } + else + { + LL_WARNS("AutoReplace") << "list '" << listName << "' not found" << LL_ENDL; + } + } + } + + return added; +} + +bool LLAutoReplaceSettings::removeEntryFromList(std::string keyword, std::string listName) +{ + bool found = false; + for( LLSD::array_iterator list = mLists.beginArray(), endLists = mLists.endArray(); + ! found && list != endLists; + list++ + ) + { + if ( listNameMatches(*list, listName) ) + { + found = true; + (*list)[AUTOREPLACE_LIST_REPLACEMENTS].erase(keyword); + } + } + if (!found) + { + LL_WARNS("AutoReplace") << "list '" << listName << "' not found" << LL_ENDL; + } + return found; +} + +LLSD LLAutoReplaceSettings::getExampleLLSD() +{ + LL_DEBUGS("AutoReplace")<<LL_ENDL; + LLSD example = LLSD::emptyArray(); + + example[0] = LLSD::emptyMap(); + example[0][AUTOREPLACE_LIST_NAME] = "Example List 1"; + example[0][AUTOREPLACE_LIST_REPLACEMENTS] = LLSD::emptyMap(); + example[0][AUTOREPLACE_LIST_REPLACEMENTS]["keyword1"] = "replacement string 1"; + example[0][AUTOREPLACE_LIST_REPLACEMENTS]["keyword2"] = "replacement string 2"; + + example[1] = LLSD::emptyMap(); + example[1][AUTOREPLACE_LIST_NAME] = "Example List 2"; + example[1][AUTOREPLACE_LIST_REPLACEMENTS] = LLSD::emptyMap(); + example[1][AUTOREPLACE_LIST_REPLACEMENTS]["mistake1"] = "correction 1"; + example[1][AUTOREPLACE_LIST_REPLACEMENTS]["mistake2"] = "correction 2"; + + return example; +} + +const LLSD& LLAutoReplaceSettings::asLLSD() +{ + return mLists; +} + +LLAutoReplaceSettings::~LLAutoReplaceSettings() +{ +} |