// Lexilla lexer library /** @file TestLexers.cxx ** Test lexers through Lexilla. **/ // Copyright 2019 by Neil Hodgson // The License.txt file describes the conditions under which this software may be distributed. #include #include #include #include #include #include #include #include #include #include #include #include #include "ILexer.h" #include "Lexilla.h" #include "LexillaAccess.h" #include "TestDocument.h" namespace { constexpr char MakeLowerCase(char c) noexcept { if (c >= 'A' && c <= 'Z') { return c - 'A' + 'a'; } else { return c; } } [[maybe_unused]] void LowerCaseAZ(std::string &s) { std::transform(s.begin(), s.end(), s.begin(), MakeLowerCase); } int IntFromString(std::u32string_view s) noexcept { if (s.empty()) { return 0; } const bool negate = s.front() == '-'; if (negate) { s.remove_prefix(1); } int value = 0; while (!s.empty()) { value = value * 10 + s.front() - '0'; s.remove_prefix(1); } return negate ? -value : value; } bool PatternMatch(std::u32string_view pattern, std::u32string_view text) noexcept { if (pattern == text) { return true; } else if (pattern.empty()) { return false; } else if (pattern.front() == '\\') { pattern.remove_prefix(1); if (pattern.empty()) { // Escape with nothing being escaped return false; } if (text.empty()) { return false; } if (pattern.front() == text.front()) { pattern.remove_prefix(1); text.remove_prefix(1); return PatternMatch(pattern, text); } return false; } else if (pattern.front() == '*') { pattern.remove_prefix(1); if (!pattern.empty() && pattern.front() == '*') { pattern.remove_prefix(1); // "**" matches anything including "/" while (!text.empty()) { if (PatternMatch(pattern, text)) { return true; } text.remove_prefix(1); } } else { while (!text.empty()) { if (PatternMatch(pattern, text)) { return true; } if (text.front() == '/') { // "/" not matched by single "*" return false; } text.remove_prefix(1); } } assert(text.empty()); // Consumed whole text with wildcard so match if pattern consumed return pattern.empty(); } else if (text.empty()) { return false; } else if (pattern.front() == '?') { if (text.front() == '/') { return false; } pattern.remove_prefix(1); text.remove_prefix(1); return PatternMatch(pattern, text); } else if (pattern.front() == '[') { pattern.remove_prefix(1); if (pattern.empty()) { return false; } const bool positive = pattern.front() != '!'; if (!positive) { pattern.remove_prefix(1); if (pattern.empty()) { return false; } } bool inSet = false; if (!pattern.empty() && pattern.front() == ']') { // First is allowed to be ']' if (pattern.front() == text.front()) { inSet = true; } pattern.remove_prefix(1); } char32_t start = 0; while (!pattern.empty() && pattern.front() != ']') { if (pattern.front() == '-') { pattern.remove_prefix(1); if (!pattern.empty()) { const char32_t end = pattern.front(); if ((text.front() >= start) && (text.front() <= end)) { inSet = true; } } } else if (pattern.front() == text.front()) { inSet = true; } if (!pattern.empty()) { start = pattern.front(); pattern.remove_prefix(1); } } if (!pattern.empty()) { pattern.remove_prefix(1); } if (inSet != positive) { return false; } text.remove_prefix(1); return PatternMatch(pattern, text); } else if (pattern.front() == '{') { if (pattern.length() < 2) { return false; } const size_t endParen = pattern.find('}'); if (endParen == std::u32string_view::npos) { // Malformed {x} pattern return false; } std::u32string_view parenExpression = pattern.substr(1, endParen - 1); bool inSet = false; const size_t dotdot = parenExpression.find(U".."); if (dotdot != std::u32string_view::npos) { // Numeric range: {10..20} const std::u32string_view firstRange = parenExpression.substr(0, dotdot); const std::u32string_view lastRange = parenExpression.substr(dotdot+2); if (firstRange.empty() || lastRange.empty()) { // Malformed {s..e} range pattern return false; } const size_t endInteger = text.find_last_of(U"-0123456789"); if (endInteger == std::u32string_view::npos) { // No integer in text return false; } const std::u32string_view intPart = text.substr(0, endInteger+1); const int first = IntFromString(firstRange); const int last = IntFromString(lastRange); const int value = IntFromString(intPart); if ((value >= first) && (value <= last)) { inSet = true; text.remove_prefix(intPart.length()); } } else { // Alternates: {a,b,cd} size_t comma = parenExpression.find(','); for (;;) { const bool finalAlt = comma == std::u32string_view::npos; const std::u32string_view oneAlt = finalAlt ? parenExpression : parenExpression.substr(0, comma); if (oneAlt == text.substr(0, oneAlt.length())) { // match inSet = true; text.remove_prefix(oneAlt.length()); break; } if (finalAlt) { break; } parenExpression.remove_prefix(oneAlt.length() + 1); comma = parenExpression.find(','); } } if (!inSet) { return false; } pattern.remove_prefix(endParen + 1); return PatternMatch(pattern, text); } else if (pattern.front() == text.front()) { pattern.remove_prefix(1); text.remove_prefix(1); return PatternMatch(pattern, text); } return false; } bool PathMatch(std::string pattern, std::string relPath) { #if defined(_WIN32) // Convert Windows path separators to Unix std::replace(relPath.begin(), relPath.end(), '\\', '/'); #endif #if defined(_WIN32) || defined(__APPLE__) // Case-insensitive, only does ASCII but fine for test example files LowerCaseAZ(pattern); LowerCaseAZ(relPath); #endif const std::u32string patternU32 = UTF32FromUTF8(pattern); const std::u32string relPathU32 = UTF32FromUTF8(relPath); if (PatternMatch(patternU32, relPathU32)) { return true; } const size_t lastSlash = relPathU32.rfind('/'); if (lastSlash == std::string::npos) { return false; } // Match against just filename const std::u32string fileNameU32 = relPathU32.substr(lastSlash+1); return PatternMatch(patternU32, fileNameU32); } constexpr std::string_view suffixStyled = ".styled"; constexpr std::string_view suffixFolded = ".folded"; constexpr std::string_view lexerPrefix = "lexer.*"; constexpr std::string_view prefixIf = "if "; constexpr std::string_view prefixMatch = "match "; constexpr std::string_view prefixEqual = "= "; constexpr std::string_view prefixComment = "#"; std::string ReadFile(std::filesystem::path path) { std::ifstream ifs(path, std::ios::binary); std::string content((std::istreambuf_iterator(ifs)), (std::istreambuf_iterator())); return content; } std::string MarkedDocument(const Scintilla::IDocument *pdoc) { assert(pdoc); std::ostringstream os(std::ios::binary); char prevStyle = -1; for (Sci_Position pos = 0; pos < pdoc->Length(); pos++) { const char styleNow = pdoc->StyleAt(pos); if (styleNow != prevStyle) { os << "{" << static_cast(styleNow) << "}"; prevStyle = styleNow; } char ch = '\0'; pdoc->GetCharRange(&ch, pos, 1); os << ch; } return os.str(); } void PrintLevel(std::ostringstream &os, int level) { const int levelNow = level & 0xFFF; const int levelNext = level >> 16; const int levelFlags = (level >> 12) & 0xF; char foldSymbol = ' '; if (level & 0x2000) foldSymbol = '+'; else if (levelNow > 0x400) foldSymbol = '|'; os << std::hex << " " << levelFlags << " " << std::setw(3) << levelNow << " " << std::setw(3) << levelNext << " " << foldSymbol << " "; } std::string FoldedDocument(const Scintilla::IDocument *pdoc) { assert(pdoc); std::ostringstream os(std::ios::binary); Sci_Position linePrev = -1; char ch = '\0'; for (Sci_Position pos = 0; pos < pdoc->Length(); pos++) { const Sci_Position lineNow = pdoc->LineFromPosition(pos); if (linePrev < lineNow) { PrintLevel(os, pdoc->GetLevel(lineNow)); linePrev = lineNow; } pdoc->GetCharRange(&ch, pos, 1); os << ch; } if (ch == '\n') { // Extra empty line PrintLevel(os, pdoc->GetLevel(linePrev + 1)); } return os.str(); } std::pair MarkedAndFoldedDocument(const Scintilla::IDocument *pdoc) { return { MarkedDocument(pdoc), FoldedDocument(pdoc) }; } std::vector StringSplit(const std::string_view &text, int separator) { std::vector vs(text.empty() ? 0 : 1); for (std::string_view::const_iterator it = text.begin(); it != text.end(); ++it) { if (*it == separator) { vs.push_back(std::string()); } else { vs.back() += *it; } } return vs; } static constexpr bool IsSpaceOrTab(char ch) noexcept { return (ch == ' ') || (ch == '\t'); } class PropertyMap { std::string Evaluate(std::string_view text) { if (text.find(' ') != std::string_view::npos) { if (text.starts_with(prefixEqual)) { const std::string_view sExpressions = text.substr(prefixEqual.length()); std::vector parts = StringSplit(sExpressions, ';'); if (parts.size() > 1) { for (size_t part = 1; part < parts.size(); part++) { if (parts.at(part) != parts.at(0)) { return "0"; } } return "1"; } } return {}; } else { std::optional value = GetProperty(text); if (value) { return *value; } return {}; } } std::string Expand(std::string withVars) { constexpr size_t maxVars = 100; size_t varStart = withVars.rfind("$("); for (size_t count = 0; (count < maxVars) && (varStart != std::string::npos); count++) { const size_t varEnd = withVars.find(')', varStart + 2); if (varEnd == std::string::npos) { break; } const std::string_view whole = withVars; const std::string_view var = whole.substr(varStart + 2, varEnd - (varStart + 2)); const std::string val = Evaluate(var); withVars.erase(varStart, varEnd - varStart + 1); withVars.insert(varStart, val); varStart = withVars.rfind("$("); } return withVars; } std::vector GetFilePatterns(const std::string &key) const { std::vector exts; // Malformed patterns are skipped if we require the whole prefix here; // a fuzzy search lets us collect and report them const size_t patternStart = key.find('*'); if (patternStart == std::string::npos) return exts; const std::string patterns = key.substr(patternStart); for (const std::string &pat : StringSplit(patterns, ';')) { // Only accept patterns in the form *.xyz if (pat.starts_with("*.") && pat.length() > 2) { exts.push_back(pat.substr(1)); } else { std::cout << "\n" << "Ignoring bad file pattern '" << pat << "' in list " << patterns << "\n"; } } return exts; } bool ProcessLine(std::string_view text, bool ifIsTrue) { // If clause ends with first non-indented line if (!ifIsTrue && (text.empty() || IsSpaceOrTab(text.at(0)))) { return false; } ifIsTrue = true; if (text.starts_with(prefixIf)) { const std::string value = Expand(std::string(text.substr(prefixIf.length()))); if (value == "0" || value == "") { ifIsTrue = false; } } else if (text.starts_with(prefixMatch)) { std::optional fileNameExt = GetProperty("FileNameExt"); if (fileNameExt) { std::string pattern(text.substr(prefixMatch.length())); // Remove trailing white space while (!pattern.empty() && IsSpaceOrTab(pattern.back())) { pattern.pop_back(); } ifIsTrue = PathMatch(pattern, *fileNameExt); } else { ifIsTrue = false; } } else { while (!text.empty() && IsSpaceOrTab(text.at(0))) { text.remove_prefix(1); } if (text.starts_with(prefixComment)) { return ifIsTrue; } const size_t positionEquals = text.find("="); if (positionEquals != std::string::npos) { const std::string key(text.substr(0, positionEquals)); const std::string_view value = text.substr(positionEquals + 1); properties[key] = value; } } return ifIsTrue; } public: using PropMap = std::map; PropMap properties; void ReadFromFile(std::filesystem::path path) { bool ifIsTrue = true; std::ifstream ifs(path); std::string line; std::string logicalLine; while (std::getline(ifs, line)) { if (line.ends_with("\r")) { // Accidentally have \r\n line ends on Unix system line.pop_back(); } logicalLine += line; if (logicalLine.ends_with("\\")) { logicalLine.pop_back(); } else { ifIsTrue = ProcessLine(logicalLine, ifIsTrue); logicalLine.clear(); } } } std::optional GetProperty(std::string_view key) const { const PropMap::const_iterator prop = properties.find(std::string(key)); if (prop == properties.end()) return std::nullopt; else return prop->second; } std::optional GetPropertyForFile(std::string_view keyPrefix, std::string_view fileName) const { for (auto const &[key, val] : properties) { if (key.starts_with(keyPrefix)) { const std::string keySuffix = key.substr(keyPrefix.length()); if (fileName.ends_with(keySuffix)) { return val; } else if (key.find(';') != std::string::npos) { // It may be the case that a suite of test files with various extensions are // meant to share a common configuration, so try to find a matching // extension in a delimited list, e.g., lexer.*.html;*.php;*.asp=hypertext for (const std::string &ext : GetFilePatterns(key)) { if (fileName.ends_with(ext)) { return val; } } } } } return std::nullopt; } std::optional GetPropertyValue(std::string_view key) const { std::optional value = GetProperty(key); try { if (value) return std::stoi(value->c_str()); } catch (std::invalid_argument &) { // Just return empty } return {}; } }; size_t FirstLineDifferent(std::string_view a, std::string_view b) { size_t i = 0; while (i < std::min(a.size(), b.size()) && a.at(i) == b.at(i)) { i++; } return std::count(a.begin(), a.begin() + i, '\n'); } bool CheckSame(std::string_view augmentedText, std::string_view augmentedTextNew, std::string_view item, std::string_view suffix, const std::filesystem::path &path) { if (augmentedTextNew == augmentedText) { return true; } const size_t lineNumber = FirstLineDifferent(augmentedText, augmentedTextNew) + 1; std::cout << "\n" << path.string() << ":" << lineNumber << ":"; const std::string differenceType = augmentedText.empty() ? "new" : "different"; std::cout << " has " << differenceType << " " << item << "\n\n"; std::filesystem::path pathNew = path; pathNew += suffix; pathNew += ".new"; std::ofstream ofs(pathNew, std::ios::binary); ofs << augmentedTextNew; return false; } int Substitute(std::string &s, const std::string &sFind, const std::string &sReplace) { int c = 0; const size_t lenFind = sFind.size(); const size_t lenReplace = sReplace.size(); size_t posFound = s.find(sFind); while (posFound != std::string::npos) { s.replace(posFound, lenFind, sReplace); posFound = s.find(sFind, posFound + lenReplace); c++; } return c; } int WindowsToUnix(std::string &s) { return Substitute(s, "\r\n", "\n"); } int UnixToWindows(std::string &s) { return Substitute(s, "\n", "\r\n"); } const std::string BOM = "\xEF\xBB\xBF"; void StyleLineByLine(TestDocument &doc, Scintilla::ILexer5 *plex) { assert(plex); Scintilla::IDocument *pdoc = &doc; const Sci_Position lines = doc.LineFromPosition(doc.Length()); Sci_Position startLine = 0; for (Sci_Position line = 0; line <= lines; line++) { const Sci_Position endLine = doc.LineStart(line + 1); int styleStart = 0; if (startLine > 0) styleStart = doc.StyleAt(startLine - 1); plex->Lex(startLine, endLine - startLine, styleStart, pdoc); plex->Fold(startLine, endLine - startLine, styleStart, pdoc); startLine = endLine; } } bool TestCRLF(std::filesystem::path path, const std::string s, Scintilla::ILexer5 *plex, bool disablePerLineTests) { bool success = true; // Convert all line ends to \r\n to check if styles change between \r and \n which makes // it difficult to test on different platforms when files may have line ends changed. std::string text = s; WindowsToUnix(text); const bool originalIsUnix = text == s; std::string textUnix = text; UnixToWindows(text); TestDocument doc; doc.Set(text); Scintilla::IDocument *pdoc = &doc; plex->Lex(0, pdoc->Length(), 0, pdoc); plex->Fold(0, pdoc->Length(), 0, pdoc); const auto [styledText, foldedText] = MarkedAndFoldedDocument(pdoc); int prevStyle = -1; Sci_Position line = 1; for (Sci_Position pos = 0; pos < pdoc->Length(); pos++) { const int styleNow = pdoc->StyleAt(pos); char ch = '\0'; pdoc->GetCharRange(&ch, pos, 1); if (ch == '\n') { if (styleNow != prevStyle) { std::cout << path.string() << ":" << line << ":" << " different styles between \\r and \\n at " << pos << ": " << prevStyle << ", " << styleNow << "\n"; success = false; } line++; } prevStyle = styleNow; } // Lex and fold with \n line ends then check result is same TestDocument docUnix; docUnix.Set(textUnix); Scintilla::IDocument *pdocUnix = &docUnix; plex->Lex(0, pdocUnix->Length(), 0, pdocUnix); plex->Fold(0, pdocUnix->Length(), 0, pdocUnix); auto [styledTextUnix, foldedTextUnix] = MarkedAndFoldedDocument(pdocUnix); // Convert results from \n to \r\n run UnixToWindows(styledTextUnix); UnixToWindows(foldedTextUnix); if (styledText != styledTextUnix) { std::cout << "\n" << path.string() << ":1: has different styles with \\n versus \\r\\n line ends\n\n"; success = false; } if (foldedText != foldedTextUnix) { std::cout << "\n" << path.string() << ":1: has different folds with \\n versus \\r\\n line ends\n\n"; success = false; } // Test line by line lexing/folding with Unix \n line ends if (!disablePerLineTests && !originalIsUnix) { StyleLineByLine(docUnix, plex); auto [styledTextNewPerLine, foldedTextNewPerLine] = MarkedAndFoldedDocument(pdocUnix); // Convert results from \n to \r\n run UnixToWindows(styledTextNewPerLine); UnixToWindows(foldedTextNewPerLine); if (!CheckSame(styledTextUnix, styledTextNewPerLine, "per-line styles \\n", suffixStyled, path)) { success = false; } if (!CheckSame(foldedTextUnix, foldedTextNewPerLine, "per-line folds \\n", suffixFolded, path)) { success = false; } } plex->Release(); return success; } void TestILexer(Scintilla::ILexer5 *plex) { assert(plex); // Test each method of the ILexer interface. // Mostly ensures there are no crashes when calling methods. // Some methods are tested later (Release, Lex, Fold). // PrivateCall performs arbitrary actions so is not safe to call. [[maybe_unused]] const int version = plex->Version(); assert(version == Scintilla::lvRelease5); [[maybe_unused]] const char *language = plex->GetName(); assert(language); [[maybe_unused]] const int ident = plex->GetIdentifier(); assert(ident >= 0); [[maybe_unused]] const char *propertyNames = plex->PropertyNames(); assert(propertyNames); [[maybe_unused]] const int propertyType = plex->PropertyType("unknown"); assert(propertyType >= 0 && propertyType <= 2); [[maybe_unused]] const char *propertyDescription = plex->DescribeProperty("unknown"); assert(propertyDescription); [[maybe_unused]] const Sci_Position invalidation = plex->PropertySet("unknown", "unknown"); assert(invalidation == 0 || invalidation == -1); [[maybe_unused]] const char *wordListDescription = plex->DescribeWordListSets(); assert(wordListDescription); [[maybe_unused]] const Sci_Position invalidationWordList = plex->WordListSet(9, "unknown"); assert(invalidationWordList == 0 || invalidationWordList == -1); [[maybe_unused]] const int lineEndTypes = plex->LineEndTypesSupported(); assert(lineEndTypes == 0 || lineEndTypes == 1); if (std::string_view bases = plex->GetSubStyleBases(); !bases.empty()) { // Allocate a substyle for each possible style while (!bases.empty()) { constexpr int newStyles = 3; const int base = bases.front(); const int baseStyle = plex->AllocateSubStyles(base, newStyles); [[maybe_unused]] const int styleBack = plex->StyleFromSubStyle(baseStyle); assert(styleBack == base); plex->SetIdentifiers(baseStyle, "int nullptr"); [[maybe_unused]] const int start = plex->SubStylesStart(base); assert(start == baseStyle); [[maybe_unused]] const int len = plex->SubStylesLength(base); assert(len == newStyles); bases.remove_prefix(1); } plex->FreeSubStyles(); } [[maybe_unused]] const int primary = plex->PrimaryStyleFromStyle(2); assert(primary == 2); [[maybe_unused]] const int distance = plex->DistanceToSecondaryStyles(); assert(distance >= 0); // Just see if crashes - nullptr is valid return to indicate not present. [[maybe_unused]] const char *propertyUnknownValue = plex->PropertyGet("unknown"); const int styles = plex->NamedStyles(); for (int style = 0; style < styles; style++) { [[maybe_unused]] const char *name = plex->NameOfStyle(style); assert(name); [[maybe_unused]] const char *tags = plex->TagsOfStyle(style); assert(tags); [[maybe_unused]] const char *description = plex->DescriptionOfStyle(style); assert(description); } } void SetProperties(Scintilla::ILexer5 *plex, const PropertyMap &propertyMap, std::string_view fileName) { assert(plex); // Set keywords, keywords2, ... keywords9, for this file for (int kw = 0; kw < 10; kw++) { std::string kwChoice("keywords"); if (kw > 0) { kwChoice.push_back(static_cast('1' + kw)); } kwChoice.append(".*"); std::optional keywordN = propertyMap.GetPropertyForFile(kwChoice, fileName); if (keywordN) { plex->WordListSet(kw, keywordN->c_str()); } } // Set parameters of lexer for (auto const &[key, val] : propertyMap.properties) { if (key.starts_with("lexer.*")) { // Ignore as processed earlier } else if (key.starts_with("keywords")) { // Ignore as processed earlier } else { plex->PropertySet(key.c_str(), val.c_str()); } } } bool TestFile(const std::filesystem::path &path, const PropertyMap &propertyMap) { // Find and create correct lexer std::optional language = propertyMap.GetPropertyForFile(lexerPrefix, path.filename().string()); if (!language) { std::cout << "\n" << path.string() << ":1: has no language\n\n"; return false; } Scintilla::ILexer5 *plex = Lexilla::MakeLexer(*language); if (!plex) { std::cout << "\n" << path.string() << ":1: has no lexer for " << *language << "\n\n"; return false; } SetProperties(plex, propertyMap, path.filename().string()); TestILexer(plex); std::string text = ReadFile(path); if (text.starts_with(BOM)) { text.erase(0, BOM.length()); } std::filesystem::path pathStyled = path; pathStyled += suffixStyled; const std::string styledText = ReadFile(pathStyled); std::filesystem::path pathFolded = path; pathFolded += suffixFolded; const std::string foldedText = ReadFile(pathFolded); const int repeatLex = propertyMap.GetPropertyValue("testlexers.repeat.lex").value_or(1); const int repeatFold = propertyMap.GetPropertyValue("testlexers.repeat.fold").value_or(1); TestDocument doc; doc.Set(text); Scintilla::IDocument *pdoc = &doc; for (int i = 0; i < repeatLex; i++) { plex->Lex(0, pdoc->Length(), 0, pdoc); } for (int i = 0; i < repeatFold; i++) { plex->Fold(0, pdoc->Length(), 0, pdoc); } bool success = true; const auto [styledTextNew, foldedTextNew] = MarkedAndFoldedDocument(pdoc); if (!CheckSame(styledText, styledTextNew, "styles", suffixStyled, path)) { success = false; } if (!CheckSame(foldedText, foldedTextNew, "folds", suffixFolded, path)) { success = false; } if (propertyMap.GetPropertyValue("testlexers.list.styles").value_or(0)) { std::vector used(0x80); for (Sci_Position pos = 0; pos < pdoc->Length(); pos++) { const unsigned style = pdoc->StyleAt(pos); used.at(style) = true; } std::cout << " "; for (int style = 0; style < 0x80; style++) { if (used.at(style)) { std::cout << style << " "; } } std::cout << "\n"; } const std::optional perLineDisable = propertyMap.GetPropertyValue("testlexers.per.line.disable"); const bool disablePerLineTests = perLineDisable.value_or(false); // Test line by line lexing/folding if (success && !disablePerLineTests) { doc.Set(text); StyleLineByLine(doc, plex); const auto [styledTextNewPerLine, foldedTextNewPerLine] = MarkedAndFoldedDocument(pdoc); success = success && CheckSame(styledText, styledTextNewPerLine, "per-line styles", suffixStyled, path); success = success && CheckSame(foldedText, foldedTextNewPerLine, "per-line folds", suffixFolded, path); } plex->Release(); if (success) { Scintilla::ILexer5 *plexCRLF = Lexilla::MakeLexer(*language); SetProperties(plexCRLF, propertyMap, path.filename().string()); success = TestCRLF(path, text, plexCRLF, disablePerLineTests); } return success; } bool TestDirectory(std::filesystem::path directory, std::filesystem::path basePath) { bool success = true; for (auto &p : std::filesystem::directory_iterator(directory)) { if (!p.is_directory()) { const std::string extension = p.path().extension().string(); if (extension != ".properties" && extension != suffixStyled && extension != ".new" && extension != suffixFolded) { const std::filesystem::path relativePath = p.path().lexically_relative(basePath); std::cout << "Lexing " << relativePath.string() << '\n'; PropertyMap properties; properties.properties["FileNameExt"] = p.path().filename().string(); properties.ReadFromFile(directory / "SciTE.properties"); if (!TestFile(p, properties)) { success = false; } } } } return success; } bool AccessLexilla(std::filesystem::path basePath) { if (!std::filesystem::exists(basePath)) { std::cout << "No examples at " << basePath.string() << "\n"; return false; } bool success = true; for (auto &p : std::filesystem::recursive_directory_iterator(basePath)) { if (p.is_directory()) { //std::cout << p.path().string() << '\n'; if (!TestDirectory(p, basePath)) { success = false; } } } return success; } std::filesystem::path FindLexillaDirectory(std::filesystem::path startDirectory) { // Search up from startDirectory for a directory named "lexilla" or containing a "bin" subdirectory std::filesystem::path directory = startDirectory; while (!directory.empty()) { //std::cout << "Searching " << directory.string() << "\n"; const std::filesystem::path parent = directory.parent_path(); const std::filesystem::path localLexilla = directory / "lexilla"; const std::filesystem::directory_entry entry(localLexilla); if (entry.is_directory()) { std::cout << "Found Lexilla at " << entry.path().string() << "\n"; return localLexilla; } const std::filesystem::path localBin = directory / "bin"; const std::filesystem::directory_entry entryBin(localBin); if (entryBin.is_directory()) { std::cout << "Found Lexilla at " << directory.string() << "\n"; return directory; } if (parent == directory) { std::cout << "Reached root at " << directory.string() << "\n"; return std::filesystem::path(); } directory = parent; } return std::filesystem::path(); } } int main() { bool success = false; // TODO: Allow specifying the base directory through a command line argument const std::filesystem::path baseDirectory = FindLexillaDirectory(std::filesystem::current_path()); if (!baseDirectory.empty()) { const std::filesystem::path examplesDirectory = baseDirectory / "test" / "examples"; #ifdef LEXILLA_STATIC success = AccessLexilla(examplesDirectory); #else const std::filesystem::path sharedLibrary = baseDirectory / "bin" / LEXILLA_LIB; if (Lexilla::Load(sharedLibrary.string())) { success = AccessLexilla(examplesDirectory); } else { std::cout << "Failed to load " << sharedLibrary << "\n"; } #endif } return success ? 0 : 1; }