Java tutorial
/** * @cond LICENSE * ###################################################################################### * # LGPL License # * # # * # This file is part of the RRD-AntLR4 # * # Copyright (c) 2016, Philipp Kraus (philipp.kraus@tu-clausthal.de) # * # This program 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 3 of the # * # License, or (at your option) any later version. # * # # * # This program 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 program. If not, see http://www.gnu.org/licenses/ # * ###################################################################################### * @endcond */ package de.flashpixx.rrd_antlr4; import com.github.javaparser.JavaParser; import com.github.javaparser.ParseException; import com.github.javaparser.ast.PackageDeclaration; import com.github.javaparser.ast.body.ClassOrInterfaceDeclaration; import com.github.javaparser.ast.body.EnumDeclaration; import com.github.javaparser.ast.expr.MethodCallExpr; import com.github.javaparser.ast.visitor.VoidVisitorAdapter; import org.apache.commons.lang3.ClassUtils; import org.apache.commons.lang3.StringUtils; import org.junit.Test; import java.io.File; import java.io.FileInputStream; import java.io.IOException; import java.net.URI; import java.nio.file.FileSystems; import java.nio.file.Files; import java.nio.file.Paths; import java.text.MessageFormat; import java.util.Arrays; import java.util.Collections; import java.util.HashMap; import java.util.HashSet; import java.util.Map; import java.util.Properties; import java.util.Set; import java.util.regex.Matcher; import java.util.regex.Pattern; import java.util.stream.Collectors; import java.util.stream.Stream; import static org.junit.Assert.assertFalse; import static org.junit.Assert.assertTrue; import static org.junit.Assume.assumeTrue; /** * test all resource strings */ public final class TestCLanguageLabels { private static final String CLASSSEPARATOR = "."; /** * search path **/ private static final URI SEARCHPATH; /** * property filenames with language data */ private static final Map<String, URI> LANGUAGEPROPERY = new HashMap<>(); static { final String l_resource = "../../src/main/resources/"; URI l_uri = null; try { l_uri = CCommon.concaturl(CCommon.resourceurl(), "../../src/main/java/").toURI(); LANGUAGEPROPERY.put("en", CCommon .concaturl(CCommon.resourceurl(), MessageFormat.format("{0}/{1}/{2}", l_resource, CCommon.PACKAGEROOT.replace(CLASSSEPARATOR, "/"), "language.properties")) .toURI()); LANGUAGEPROPERY.put("de", CCommon .concaturl(CCommon.resourceurl(), MessageFormat.format("{0}/{1}/{2}", l_resource, CCommon.PACKAGEROOT.replace(CLASSSEPARATOR, "/"), "language_de.properties")) .toURI()); } catch (final Exception l_exception) { assumeTrue(MessageFormat.format("source directory cannot be read: {0}", l_exception.getMessage()), false); } SEARCHPATH = l_uri; } /** * check package translation configuration versus property items */ @Test public void testTranslation() { assumeTrue("no languages are defined for checking", !LANGUAGEPROPERY.isEmpty()); // --- read language definitions from the configuration final Set<String> l_translation = Collections.unmodifiableSet( Arrays.stream(CCommon.configuration().getObject("translation").toString().split(",")) .map(i -> i.trim().toLowerCase()).collect(Collectors.toSet())); // --- check if a test (language resource) exists for each definied language final Set<String> l_translationtesting = new HashSet<>(l_translation); l_translationtesting.removeAll(LANGUAGEPROPERY.keySet()); assertFalse(MessageFormat.format( "configuration defines {1,choice,1#translation|1<translations} {0} that {1,choice,1#is|1<are} not tested", l_translationtesting, l_translationtesting.size()), !l_translationtesting.isEmpty()); // --- check unused language resource files final Set<String> l_translationusing = new HashSet<>(LANGUAGEPROPERY.keySet()); l_translationusing.removeAll(l_translation); assertFalse(MessageFormat.format( "{1,choice,1#translation|1<translations} {0} {1,choice,1#is|1<are} checked, which will not be used within the package configuration", l_translationusing, l_translationusing.size()), !l_translationusing.isEmpty()); } /** * test-case all resource strings * * @throws IOException throws on io errors */ @Test public void testResourceString() throws IOException { assumeTrue("no languages are defined for checking", !LANGUAGEPROPERY.isEmpty()); final Set<String> l_ignoredlabel = new HashSet<>(); // --- parse source and get label definition final Set<String> l_label = Collections.unmodifiableSet(Files.walk(Paths.get(SEARCHPATH)) .filter(Files::isRegularFile).filter(i -> i.toString().endsWith(".java")).flatMap(i -> { try { final CJavaVistor l_parser = new CJavaVistor(); l_parser.visit(JavaParser.parse(new FileInputStream(i.toFile())), null); return l_parser.labels().stream(); } catch (final IOException l_excpetion) { assertTrue(MessageFormat.format("io error on file [{0}]: {1}", i, l_excpetion.getMessage()), false); return Stream.<String>empty(); } catch (final ParseException l_exception) { // add label build by class path to the ignore list l_ignoredlabel.add(i.toAbsolutePath().toString() // remove path to class directory .replace(FileSystems.getDefault().provider().getPath(SEARCHPATH).toAbsolutePath() .toString(), "") // string starts with path separator .substring(1) // remove file extension .replace(".java", "") // replace separators with dots .replace("/", CLASSSEPARATOR) // convert to lower-case .toLowerCase() // remove package-root name .replace(CCommon.PACKAGEROOT + CLASSSEPARATOR, "")); System.err.println(MessageFormat.format("parsing error on file [{0}]:\n{1}", i, l_exception.getMessage())); return Stream.<String>empty(); } }).collect(Collectors.toSet())); // --- check of any label is found assertFalse("translation labels are empty, check naming of translation method", l_label.isEmpty()); // --- check label towards the property definition if (l_ignoredlabel.size() > 0) System.err.println(MessageFormat.format( "labels that starts with {0} are ignored, because parsing errors are occurred", l_ignoredlabel)); LANGUAGEPROPERY.entrySet().forEach(i -> { try { final Properties l_property = new Properties(); l_property.load(new FileInputStream(new File(i.getValue()))); final Set<String> l_parseditems = new HashSet<>(l_label); final Set<String> l_propertyitems = l_property.keySet().parallelStream().map(Object::toString) .collect(Collectors.toSet()); // --- check if all property items are within the parsed labels l_parseditems.removeAll(l_propertyitems); assertTrue(MessageFormat.format( "the following {1,choice,1#key|1<keys} in language [{0}] {1,choice,1#is|1<are} not existing within the language file:\n{2}", i.getKey(), l_parseditems.size(), StringUtils.join(l_parseditems, ", ")), l_parseditems.isEmpty()); // --- check if all parsed labels within the property item and remove ignored labels l_propertyitems.removeAll(l_label); final Set<String> l_ignoredpropertyitems = l_propertyitems.parallelStream() .filter(j -> l_ignoredlabel.parallelStream().map(j::startsWith).allMatch(l -> false)) .collect(Collectors.toSet()); assertTrue(MessageFormat.format( "the following {1,choice,1#key|1<keys} in language [{0}] {1,choice,1#is|1<are} not existing within the source code:\n{2}", i.getKey(), l_ignoredpropertyitems.size(), StringUtils.join(l_ignoredpropertyitems, ", ")), l_ignoredpropertyitems.isEmpty()); } catch (final IOException l_exception) { assertTrue(MessageFormat.format("io exception: {0}", l_exception.getMessage()), false); } }); } /** * main method * * @param p_args arguments * @throws IOException in file error */ public static void main(final String[] p_args) throws IOException { final TestCLanguageLabels l_test = new TestCLanguageLabels(); l_test.testTranslation(); l_test.testResourceString(); } /** * method to build a package path * * @param p_names list of package parts * @return full-qualified string */ private static String packagepath(final String... p_names) { return StringUtils.join(p_names, ClassUtils.PACKAGE_SEPARATOR); } // --------------------------------------------------------------------------------------------------------------------------------------------------------- /** * AST visitor class */ private static class CJavaVistor extends VoidVisitorAdapter<Object> { /** * method to translate strings */ private static final String TRANSLATEMETHODNAME = "CCommon.languagestring"; /** * reg expression to extract label data */ private static final Pattern LANGUAGEMETHODPATTERN = Pattern.compile(TRANSLATEMETHODNAME + ".+\\)"); /** * inner class name * */ private String m_innerclass = ""; /** * outer class name * */ private String m_outerclass = ""; /** * package name * */ private String m_package = ""; /** * label set */ private Set<String> m_label = new HashSet<>(); /** * returns the translated labels * * @return set with labels */ final Set<String> labels() { return m_label; } @Override public void visit(final PackageDeclaration p_package, final Object p_arg) { m_package = p_package.getName().toStringWithoutComments(); super.visit(p_package, p_arg); } @Override public void visit(final ClassOrInterfaceDeclaration p_class, final Object p_arg) { if (m_outerclass.isEmpty()) m_outerclass = p_class.getName(); else m_innerclass = p_class.getName(); super.visit(p_class, p_arg); m_innerclass = ""; } @Override public void visit(final EnumDeclaration p_enum, final Object p_arg) { if (m_outerclass.isEmpty()) m_outerclass = p_enum.getName(); else m_innerclass = p_enum.getName(); super.visit(p_enum, p_arg); m_innerclass = ""; } @Override public void visit(final MethodCallExpr p_methodcall, final Object p_arg) { final String l_label = this.label(p_methodcall.toStringWithoutComments()); if (!l_label.isEmpty()) m_label.add(l_label); super.visit(p_methodcall, p_arg); } /** * gets the class name and label name * * @param p_line input trimmed line * @return label or empty string */ private String label(final String p_line) { final Matcher l_matcher = LANGUAGEMETHODPATTERN.matcher(p_line); if (!l_matcher.find()) return ""; final String[] l_split = l_matcher.group(0).split(","); final String[] l_return = new String[2]; // class name l_return[0] = l_split[0].replace(TRANSLATEMETHODNAME, "").replace("(", "").trim(); // label name l_return[1] = l_split[1].replace(")", "").replace("\"", "").split(";")[0].trim().toLowerCase(); return ("this".equals(l_return[0]) ? buildlabel(m_package, m_outerclass, m_innerclass, l_return[1]) : buildlabel(m_package, l_return[0].replace(".class", "").replace(m_package + CLASSSEPARATOR, ""), "", l_return[1])).trim().toLowerCase().replace(CCommon.PACKAGEROOT + CLASSSEPARATOR, ""); } /** * returns full qualified class name * (inner & outer class) * * @param p_package package name * @param p_outerclass outer class * @param p_innerclass inner class * @param p_label label (only firat element is used) * @return full-qualified class name */ private static String buildlabel(final String p_package, final String p_outerclass, final String p_innerclass, final String p_label) { return MessageFormat.format("{0}{1}{2}{3}{4}{5}", p_package, ClassUtils.PACKAGE_SEPARATOR, p_outerclass, p_innerclass.isEmpty() ? "" : ClassUtils.PACKAGE_SEPARATOR, p_innerclass, p_label.isEmpty() ? "" : CLASSSEPARATOR + p_label); } } }