#include "StdInc.h" #include "CGeneralTextHandler.h" #include #include "filesystem/Filesystem.h" #include "CConfigHandler.h" #include "CModHandler.h" #include "GameConstants.h" #include "VCMI_Lib.h" /* * CGeneralTextHandler.cpp, part of VCMI engine * * Authors: listed in file AUTHORS in main folder * * License: GNU General Public License v2.0 or later * Full text of license available in license.txt file, in main folder * */ size_t Unicode::getCharacterSize(char firstByte) { // length of utf-8 character can be determined from 1st byte by counting number of highest bits set to 1: // 0xxxxxxx -> 1 - ASCII chars // 110xxxxx -> 2 // 11110xxx -> 4 - last allowed in current standard // 1111110x -> 6 - last allowed in original standard if ((ui8)firstByte < 0x80) return 1; // ASCII size_t ret = 0; for (size_t i=0; i<8; i++) { if (((ui8)firstByte & (0x80 >> i)) != 0) ret++; else break; } return ret; } bool Unicode::isValidCharacter(const char * character, size_t maxSize) { // can't be first byte in UTF8 if ((ui8)character[0] >= 0x80 && (ui8)character[0] < 0xC0) return false; // first character must follow rules checked in getCharacterSize size_t size = getCharacterSize((ui8)character[0]); if ((ui8)character[0] > 0xF4) return false; // above maximum allowed in standard (UTF codepoints are capped at 0x0010FFFF) if (size > maxSize) return false; // remaining characters must have highest bit set to 1 for (size_t i = 1; i < size; i++) { if (((ui8)character[i] & 0x80) == 0) return false; } return true; } bool Unicode::isValidASCII(const std::string & text) { for (const char & ch : text) if (ui8(ch) >= 0x80 ) return false; return true; } bool Unicode::isValidASCII(const char * data, size_t size) { for (size_t i=0; i= 0x80 ) return false; return true; } bool Unicode::isValidString(const std::string & text) { for (size_t i=0; i(text, encoding); } std::string Unicode::fromUnicode(const std::string & text) { return fromUnicode(text, getSelectedEncoding()); } std::string Unicode::fromUnicode(const std::string &text, const std::string &encoding) { return boost::locale::conv::from_utf(text, encoding); } void Unicode::trimRight(std::string & text, const size_t amount/* =1 */) { if(text.empty()) return; //todo: more efficient algorithm for(int i = 0; i< amount; i++){ auto b = text.begin(); auto e = text.end(); size_t lastLen = 0; size_t len = 0; while (b != e) { lastLen = len; size_t n = getCharacterSize(*b); if(!isValidCharacter(&(*b),e-b)) { logGlobal->errorStream() << "Invalid UTF8 sequence"; break;//invalid sequence will be trimmed } len += n; b += n; } text.resize(lastLen); } } //Helper for string -> float conversion class LocaleWithComma: public std::numpunct { protected: char do_decimal_point() const override { return ','; } }; CLegacyConfigParser::CLegacyConfigParser(std::string URI) { init(CResourceHandler::get()->load(ResourceID(URI, EResType::TEXT))); } CLegacyConfigParser::CLegacyConfigParser(const std::unique_ptr & input) { init(input); } void CLegacyConfigParser::init(const std::unique_ptr & input) { data.reset(new char[input->getSize()]); input->read((ui8*)data.get(), input->getSize()); curr = data.get(); end = curr + input->getSize(); } std::string CLegacyConfigParser::extractQuotedPart() { assert(*curr == '\"'); curr++; // skip quote char * begin = curr; while (curr != end && *curr != '\"' && *curr != '\t') curr++; return std::string(begin, curr++); //increment curr to close quote } std::string CLegacyConfigParser::extractQuotedString() { assert(*curr == '\"'); std::string ret; while (true) { ret += extractQuotedPart(); // double quote - add it to string and continue quoted part if (curr < end && *curr == '\"') { ret += '\"'; } //extract normal part else if(curr < end && *curr != '\t' && *curr != '\r') { char * begin = curr; while (curr < end && *curr != '\t' && *curr != '\r' && *curr != '\"')//find end of string or next quoted part start curr++; ret += std::string(begin, curr); if(curr>=end || *curr != '\"') return ret; } else // end of string return ret; } } std::string CLegacyConfigParser::extractNormalString() { char * begin = curr; while (curr < end && *curr != '\t' && *curr != '\r')//find end of string curr++; return std::string(begin, curr); } std::string CLegacyConfigParser::readRawString() { if (curr >= end || *curr == '\n') return ""; std::string ret; if (*curr == '\"') ret = extractQuotedString();// quoted text - find closing quote else ret = extractNormalString();//string without quotes - copy till \t or \r curr++; return ret; } std::string CLegacyConfigParser::readString() { // do not convert strings that are already in ASCII - this will only slow down loading process std::string str = readRawString(); if (Unicode::isValidASCII(str)) return str; return Unicode::toUnicode(str); } float CLegacyConfigParser::readNumber() { std::string input = readRawString(); std::istringstream stream(input); if (input.find(',') != std::string::npos) // code to handle conversion with comma as decimal separator stream.imbue(std::locale(std::locale(), new LocaleWithComma)); float result; if ( !(stream >> result) ) return 0; return result; } bool CLegacyConfigParser::isNextEntryEmpty() const { char * nextSymbol = curr; while (nextSymbol < end && *nextSymbol == ' ') nextSymbol++; //find next meaningfull symbol return nextSymbol >= end || *nextSymbol == '\n' || *nextSymbol == '\r' || *nextSymbol == '\t'; } bool CLegacyConfigParser::endLine() { while (curr < end && *curr != '\n') readString(); curr++; return curr < end; } void CGeneralTextHandler::readToVector(std::string sourceName, std::vector & dest) { CLegacyConfigParser parser(sourceName); do { dest.push_back(parser.readString()); } while (parser.endLine()); } CGeneralTextHandler::CGeneralTextHandler() { readToVector("DATA/VCDESC.TXT", victoryConditions); readToVector("DATA/LCDESC.TXT", lossCondtions); readToVector("DATA/TCOMMAND.TXT", tcommands); readToVector("DATA/HALLINFO.TXT", hcommands); readToVector("DATA/CASTINFO.TXT", fcommands); readToVector("DATA/ADVEVENT.TXT", advobtxt); readToVector("DATA/XTRAINFO.TXT", xtrainfo); readToVector("DATA/RESTYPES.TXT", restypes); readToVector("DATA/TERRNAME.TXT", terrainNames); readToVector("DATA/RANDSIGN.TXT", randsign); readToVector("DATA/CRGEN1.TXT", creGens); readToVector("DATA/CRGEN4.TXT", creGens4); readToVector("DATA/OVERVIEW.TXT", overview); readToVector("DATA/ARRAYTXT.TXT", arraytxt); readToVector("DATA/PRISKILL.TXT", primarySkillNames); readToVector("DATA/JKTEXT.TXT", jktexts); readToVector("DATA/TVRNINFO.TXT", tavernInfo); readToVector("DATA/TURNDUR.TXT", turnDurations); readToVector("DATA/HEROSCRN.TXT", heroscrn); readToVector("DATA/TENTCOLR.TXT", tentColors); readToVector("DATA/SKILLLEV.TXT", levels); localizedTexts = JsonNode(ResourceID("config/translate.json", EResType::TEXT)); { CLegacyConfigParser parser("DATA/GENRLTXT.TXT"); parser.endLine(); do { allTexts.push_back(parser.readString()); } while (parser.endLine()); } { CLegacyConfigParser parser("DATA/HELP.TXT"); do { std::string first = parser.readString(); std::string second = parser.readString(); zelp.push_back(std::make_pair(first, second)); } while (parser.endLine()); } { CLegacyConfigParser nameParser("DATA/MINENAME.TXT"); CLegacyConfigParser eventParser("DATA/MINEEVNT.TXT"); do { std::string name = nameParser.readString(); std::string event = eventParser.readString(); mines.push_back(std::make_pair(name, event)); } while (nameParser.endLine() && eventParser.endLine()); } { CLegacyConfigParser parser("DATA/PLCOLORS.TXT"); do { std::string color = parser.readString(); colors.push_back(color); color[0] = toupper(color[0]); capColors.push_back(color); } while (parser.endLine()); } { CLegacyConfigParser parser("DATA/SSTRAITS.TXT"); //skip header parser.endLine(); parser.endLine(); do { skillName.push_back(parser.readString()); skillInfoTexts.push_back(std::vector()); for(int j = 0; j < 3; j++) skillInfoTexts.back().push_back(parser.readString()); } while (parser.endLine()); } { CLegacyConfigParser parser("DATA/SEERHUT.TXT"); //skip header parser.endLine(); for (int i = 0; i < 6; ++i) seerEmpty.push_back(parser.readString()); parser.endLine(); quests.resize(10); for (int i = 0; i < 9; ++i) //9 types of quests { quests[i].resize(5); for (int j = 0; j < 5; ++j) { parser.readString(); //front description for (int k = 0; k < 6; ++k) quests[i][j].push_back(parser.readString()); parser.endLine(); } } quests[9].resize(1); for (int k = 0; k < 6; ++k) //Time limit { quests[9][0].push_back(parser.readString()); } parser.endLine(); parser.endLine(); // empty line parser.endLine(); // header for (int i = 0; i < 48; ++i) { seerNames.push_back(parser.readString()); parser.endLine(); } } { CLegacyConfigParser parser("DATA/CAMPTEXT.TXT"); //skip header parser.endLine(); std::string text; do { text = parser.readString(); if (!text.empty()) campaignMapNames.push_back(text); } while (parser.endLine() && !text.empty()); for (size_t i=0; i()); do { text = parser.readString(); if (!text.empty()) campaignRegionNames.back().push_back(text); } while (parser.endLine() && !text.empty()); } } if (VLC->modh->modules.STACK_EXP) { CLegacyConfigParser parser("DATA/ZCREXP.TXT"); parser.endLine();//header for (size_t iter=0; iter<325; iter++) { parser.readString(); //ignore 1st column with description zcrexp.push_back(parser.readString()); parser.endLine(); } // line 325 - some weird formatting here zcrexp.push_back(parser.readString()); parser.readString(); parser.endLine(); do // rest of file can be read normally { parser.readString(); //ignore 1st column with description zcrexp.push_back(parser.readString()); } while (parser.endLine()); } }