/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2022 - Raw Material Software Limited JUCE is an open source library subject to commercial or open-source licensing. The code included in this file is provided under the terms of the ISC license http://www.isc.org/downloads/software-support-policy/isc-license. Permission To use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted provided that the above copyright notice and this permission notice appear in all copies. JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ namespace juce { FileSearchPath::FileSearchPath (const String& path) { init (path); } FileSearchPath::FileSearchPath (const FileSearchPath& other) : directories (other.directories) { } FileSearchPath& FileSearchPath::operator= (const FileSearchPath& other) { directories = other.directories; return *this; } FileSearchPath& FileSearchPath::operator= (const String& path) { init (path); return *this; } void FileSearchPath::init (const String& path) { directories.clear(); directories.addTokens (path, ";", "\""); directories.trim(); directories.removeEmptyStrings(); for (auto& d : directories) d = d.unquoted(); } int FileSearchPath::getNumPaths() const { return directories.size(); } File FileSearchPath::operator[] (int index) const { return File (getRawString (index)); } String FileSearchPath::getRawString (int index) const { return directories[index]; } String FileSearchPath::toString() const { return toStringWithSeparator (";"); } String FileSearchPath::toStringWithSeparator (StringRef separator) const { auto dirs = directories; for (auto& d : dirs) if (d.contains (separator)) d = d.quoted(); return dirs.joinIntoString (separator); } void FileSearchPath::add (const File& dir, int insertIndex) { directories.insert (insertIndex, dir.getFullPathName()); } bool FileSearchPath::addIfNotAlreadyThere (const File& dir) { for (auto& d : directories) if (File (d) == dir) return false; add (dir); return true; } void FileSearchPath::remove (int index) { directories.remove (index); } void FileSearchPath::addPath (const FileSearchPath& other) { for (int i = 0; i < other.getNumPaths(); ++i) addIfNotAlreadyThere (other[i]); } void FileSearchPath::removeRedundantPaths() { std::vector reduced; for (const auto& directory : directories) { const auto checkedIsChildOf = [&] (const auto& a, const auto& b) { return File::isAbsolutePath (a) && File::isAbsolutePath (b) && File (a).isAChildOf (b); }; const auto fContainsDirectory = [&] (const auto& f) { return f == directory || checkedIsChildOf (directory, f); }; if (std::find_if (reduced.begin(), reduced.end(), fContainsDirectory) != reduced.end()) continue; const auto directoryContainsF = [&] (const auto& f) { return checkedIsChildOf (f, directory); }; reduced.erase (std::remove_if (reduced.begin(), reduced.end(), directoryContainsF), reduced.end()); reduced.push_back (directory); } directories = StringArray (reduced.data(), (int) reduced.size()); } void FileSearchPath::removeNonExistentPaths() { for (int i = directories.size(); --i >= 0;) if (! File (directories[i]).isDirectory()) directories.remove (i); } Array FileSearchPath::findChildFiles (int whatToLookFor, bool recurse, const String& wildcard) const { Array results; findChildFiles (results, whatToLookFor, recurse, wildcard); return results; } int FileSearchPath::findChildFiles (Array& results, int whatToLookFor, bool recurse, const String& wildcard) const { int total = 0; for (auto& d : directories) total += File (d).findChildFiles (results, whatToLookFor, recurse, wildcard); return total; } bool FileSearchPath::isFileInPath (const File& fileToCheck, const bool checkRecursively) const { for (auto& d : directories) { if (checkRecursively) { if (fileToCheck.isAChildOf (File (d))) return true; } else { if (fileToCheck.getParentDirectory() == File (d)) return true; } } return false; } //============================================================================== //============================================================================== #if JUCE_UNIT_TESTS class FileSearchPathTests final : public UnitTest { public: FileSearchPathTests() : UnitTest ("FileSearchPath", UnitTestCategories::files) {} void runTest() override { beginTest ("removeRedundantPaths"); { #if JUCE_WINDOWS const String prefix = "C:"; #else const String prefix = ""; #endif { FileSearchPath fsp { prefix + "/a/b/c/d;" + prefix + "/a/b/c/e;" + prefix + "/a/b/c" }; fsp.removeRedundantPaths(); expectEquals (fsp.toString(), prefix + "/a/b/c"); } { FileSearchPath fsp { prefix + "/a/b/c;" + prefix + "/a/b/c/d;" + prefix + "/a/b/c/e" }; fsp.removeRedundantPaths(); expectEquals (fsp.toString(), prefix + "/a/b/c"); } { FileSearchPath fsp { prefix + "/a/b/c/d;" + prefix + "/a/b/c;" + prefix + "/a/b/c/e" }; fsp.removeRedundantPaths(); expectEquals (fsp.toString(), prefix + "/a/b/c"); } { FileSearchPath fsp { "%FOO%;" + prefix + "/a/b/c;%FOO%;" + prefix + "/a/b/c/d" }; fsp.removeRedundantPaths(); expectEquals (fsp.toString(), "%FOO%;" + prefix + "/a/b/c"); } } } }; static FileSearchPathTests fileSearchPathTests; #endif } // namespace juce