Mercurial > jdk8-mips64-public > langtools / annotate

src/share/classes/com/sun/tools/doclets/internal/toolkit/util/Util.java@24a47c3062fe (annotated)

src/share/classes/com/sun/tools/doclets/internal/toolkit/util/Util.java

Thu, 02 Oct 2008 19:58:40 -0700

author
xdono
date
Thu, 02 Oct 2008 19:58:40 -0700
changeset 117
24a47c3062fe
parent 74
5a9172b251dd
child 184
905e151a185a
permissions
-rw-r--r--

6754988: Update copyright year
Summary: Update for files that have been modified starting July 2008
Reviewed-by: ohair, tbell

duke@1 1 /*
xdono@117 2 * Copyright 1999-2008 Sun Microsystems, Inc. All Rights Reserved.
duke@1 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
duke@1 4 *
duke@1 5 * This code is free software; you can redistribute it and/or modify it
duke@1 6 * under the terms of the GNU General Public License version 2 only, as
duke@1 7 * published by the Free Software Foundation. Sun designates this
duke@1 8 * particular file as subject to the "Classpath" exception as provided
duke@1 9 * by Sun in the LICENSE file that accompanied this code.
duke@1 10 *
duke@1 11 * This code is distributed in the hope that it will be useful, but WITHOUT
duke@1 12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
duke@1 13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
duke@1 14 * version 2 for more details (a copy is included in the LICENSE file that
duke@1 15 * accompanied this code).
duke@1 16 *
duke@1 17 * You should have received a copy of the GNU General Public License version
duke@1 18 * 2 along with this work; if not, write to the Free Software Foundation,
duke@1 19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
duke@1 20 *
duke@1 21 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
duke@1 22 * CA 95054 USA or visit www.sun.com if you need additional information or
duke@1 23 * have any questions.
duke@1 24 */
duke@1 25
duke@1 26 package com.sun.tools.doclets.internal.toolkit.util;
duke@1 27
duke@1 28 import com.sun.javadoc.*;
duke@1 29 import com.sun.tools.doclets.internal.toolkit.*;
duke@1 30 import java.util.*;
duke@1 31 import java.io.*;
duke@1 32
duke@1 33 /**
duke@1 34 * Utilities Class for Doclets.
duke@1 35 *
duke@1 36 * This code is not part of an API.
duke@1 37 * It is implementation that is subject to change.
duke@1 38 * Do not use it as an API
duke@1 39 *
duke@1 40 * @author Atul M Dambalkar
duke@1 41 * @author Jamie Ho
duke@1 42 */
duke@1 43 public class Util {
duke@1 44
duke@1 45 /**
duke@1 46 * A mapping between characters and their
duke@1 47 * corresponding HTML escape character.
duke@1 48 */
duke@1 49 public static final String[][] HTML_ESCAPE_CHARS =
duke@1 50 {{"&", "&amp;"}, {"<", "&lt;"}, {">", "&gt;"}};
duke@1 51
duke@1 52 /**
duke@1 53 * Return array of class members whose documentation is to be generated.
duke@1 54 * If the member is deprecated do not include such a member in the
duke@1 55 * returned array.
duke@1 56 *
duke@1 57 * @param members Array of members to choose from.
duke@1 58 * @return ProgramElementDoc[] Array of eligible members for whom
duke@1 59 * documentation is getting generated.
duke@1 60 */
duke@1 61 public static ProgramElementDoc[] excludeDeprecatedMembers(
duke@1 62 ProgramElementDoc[] members) {
duke@1 63 return
duke@1 64 toProgramElementDocArray(excludeDeprecatedMembersAsList(members));
duke@1 65 }
duke@1 66
duke@1 67 /**
duke@1 68 * Return array of class members whose documentation is to be generated.
duke@1 69 * If the member is deprecated do not include such a member in the
duke@1 70 * returned array.
duke@1 71 *
duke@1 72 * @param members Array of members to choose from.
duke@1 73 * @return List List of eligible members for whom
duke@1 74 * documentation is getting generated.
duke@1 75 */
jjg@74 76 public static List<ProgramElementDoc> excludeDeprecatedMembersAsList(
duke@1 77 ProgramElementDoc[] members) {
jjg@74 78 List<ProgramElementDoc> list = new ArrayList<ProgramElementDoc>();
duke@1 79 for (int i = 0; i < members.length; i++) {
duke@1 80 if (members[i].tags("deprecated").length == 0) {
duke@1 81 list.add(members[i]);
duke@1 82 }
duke@1 83 }
duke@1 84 Collections.sort(list);
duke@1 85 return list;
duke@1 86 }
duke@1 87
duke@1 88 /**
duke@1 89 * Return the list of ProgramElementDoc objects as Array.
duke@1 90 */
duke@1 91 public static ProgramElementDoc[] toProgramElementDocArray(List list) {
duke@1 92 ProgramElementDoc[] pgmarr = new ProgramElementDoc[list.size()];
duke@1 93 for (int i = 0; i < list.size(); i++) {
duke@1 94 pgmarr[i] = (ProgramElementDoc)(list.get(i));
duke@1 95 }
duke@1 96 return pgmarr;
duke@1 97 }
duke@1 98
duke@1 99 /**
duke@1 100 * Return true if a non-public member found in the given array.
duke@1 101 *
duke@1 102 * @param members Array of members to look into.
duke@1 103 * @return boolean True if non-public member found, false otherwise.
duke@1 104 */
duke@1 105 public static boolean nonPublicMemberFound(ProgramElementDoc[] members) {
duke@1 106 for (int i = 0; i < members.length; i++) {
duke@1 107 if (!members[i].isPublic()) {
duke@1 108 return true;
duke@1 109 }
duke@1 110 }
duke@1 111 return false;
duke@1 112 }
duke@1 113
duke@1 114 /**
duke@1 115 * Search for the given method in the given class.
duke@1 116 *
duke@1 117 * @param cd Class to search into.
duke@1 118 * @param method Method to be searched.
duke@1 119 * @return MethodDoc Method found, null otherwise.
duke@1 120 */
duke@1 121 public static MethodDoc findMethod(ClassDoc cd, MethodDoc method) {
duke@1 122 MethodDoc[] methods = cd.methods();
duke@1 123 for (int i = 0; i < methods.length; i++) {
duke@1 124 if (executableMembersEqual(method, methods[i])) {
duke@1 125 return methods[i];
duke@1 126
duke@1 127 }
duke@1 128 }
duke@1 129 return null;
duke@1 130 }
duke@1 131
duke@1 132 /**
duke@1 133 * @param member1 the first method to compare.
duke@1 134 * @param member2 the second method to compare.
duke@1 135 * @return true if member1 overrides/hides or is overriden/hidden by member2.
duke@1 136 */
duke@1 137 public static boolean executableMembersEqual(ExecutableMemberDoc member1,
duke@1 138 ExecutableMemberDoc member2) {
duke@1 139 if (! (member1 instanceof MethodDoc && member2 instanceof MethodDoc))
duke@1 140 return false;
duke@1 141
duke@1 142 MethodDoc method1 = (MethodDoc) member1;
duke@1 143 MethodDoc method2 = (MethodDoc) member2;
duke@1 144 if (method1.isStatic() && method2.isStatic()) {
duke@1 145 Parameter[] targetParams = method1.parameters();
duke@1 146 Parameter[] currentParams;
duke@1 147 if (method1.name().equals(method2.name()) &&
duke@1 148 (currentParams = method2.parameters()).length ==
duke@1 149 targetParams.length) {
duke@1 150 int j;
duke@1 151 for (j = 0; j < targetParams.length; j++) {
duke@1 152 if (! (targetParams[j].typeName().equals(
duke@1 153 currentParams[j].typeName()) ||
duke@1 154 currentParams[j].type() instanceof TypeVariable ||
duke@1 155 targetParams[j].type() instanceof TypeVariable)) {
duke@1 156 break;
duke@1 157 }
duke@1 158 }
duke@1 159 if (j == targetParams.length) {
duke@1 160 return true;
duke@1 161 }
duke@1 162 }
duke@1 163 return false;
duke@1 164 } else {
duke@1 165 return method1.overrides(method2) ||
duke@1 166 method2.overrides(method1) ||
duke@1 167 member1 == member2;
duke@1 168 }
duke@1 169 }
duke@1 170
duke@1 171 /**
duke@1 172 * According to the Java Language Specifications, all the outer classes
duke@1 173 * and static inner classes are core classes.
duke@1 174 */
duke@1 175 public static boolean isCoreClass(ClassDoc cd) {
duke@1 176 return cd.containingClass() == null || cd.isStatic();
duke@1 177 }
duke@1 178
duke@1 179 public static boolean matches(ProgramElementDoc doc1,
duke@1 180 ProgramElementDoc doc2) {
duke@1 181 if (doc1 instanceof ExecutableMemberDoc &&
duke@1 182 doc2 instanceof ExecutableMemberDoc) {
duke@1 183 ExecutableMemberDoc ed1 = (ExecutableMemberDoc)doc1;
duke@1 184 ExecutableMemberDoc ed2 = (ExecutableMemberDoc)doc2;
duke@1 185 return executableMembersEqual(ed1, ed2);
duke@1 186 } else {
duke@1 187 return doc1.name().equals(doc2.name());
duke@1 188 }
duke@1 189 }
duke@1 190
duke@1 191 /**
duke@1 192 * Copy source file to destination file.
duke@1 193 *
duke@1 194 * @throws SecurityException
duke@1 195 * @throws IOException
duke@1 196 */
duke@1 197 public static void copyFile(File destfile, File srcfile)
duke@1 198 throws IOException {
duke@1 199 byte[] bytearr = new byte[512];
duke@1 200 int len = 0;
duke@1 201 FileInputStream input = new FileInputStream(srcfile);
duke@1 202 File destDir = destfile.getParentFile();
duke@1 203 destDir.mkdirs();
duke@1 204 FileOutputStream output = new FileOutputStream(destfile);
duke@1 205 try {
duke@1 206 while ((len = input.read(bytearr)) != -1) {
duke@1 207 output.write(bytearr, 0, len);
duke@1 208 }
duke@1 209 } catch (FileNotFoundException exc) {
duke@1 210 } catch (SecurityException exc) {
duke@1 211 } finally {
duke@1 212 input.close();
duke@1 213 output.close();
duke@1 214 }
duke@1 215 }
duke@1 216
duke@1 217 /**
duke@1 218 * Copy the given directory contents from the source package directory
duke@1 219 * to the generated documentation directory. For example for a package
duke@1 220 * java.lang this method find out the source location of the package using
duke@1 221 * {@link SourcePath} and if given directory is found in the source
duke@1 222 * directory structure, copy the entire directory, to the generated
duke@1 223 * documentation hierarchy.
duke@1 224 *
duke@1 225 * @param configuration The configuration of the current doclet.
duke@1 226 * @param path The relative path to the directory to be copied.
duke@1 227 * @param dir The original directory name to copy from.
duke@1 228 * @param overwrite Overwrite files if true.
duke@1 229 */
duke@1 230 public static void copyDocFiles(Configuration configuration,
duke@1 231 String path, String dir, boolean overwrite) {
duke@1 232 if (checkCopyDocFilesErrors(configuration, path, dir)) {
duke@1 233 return;
duke@1 234 }
duke@1 235 String destname = configuration.docFileDestDirName;
duke@1 236 File srcdir = new File(path + dir);
duke@1 237 if (destname.length() > 0 && !destname.endsWith(
duke@1 238 DirectoryManager.URL_FILE_SEPERATOR)) {
duke@1 239 destname += DirectoryManager.URL_FILE_SEPERATOR;
duke@1 240 }
duke@1 241 String dest = destname + dir;
duke@1 242 try {
duke@1 243 File destdir = new File(dest);
duke@1 244 DirectoryManager.createDirectory(configuration, dest);
duke@1 245 String[] files = srcdir.list();
duke@1 246 for (int i = 0; i < files.length; i++) {
duke@1 247 File srcfile = new File(srcdir, files[i]);
duke@1 248 File destfile = new File(destdir, files[i]);
duke@1 249 if (srcfile.isFile()) {
duke@1 250 if(destfile.exists() && ! overwrite) {
duke@1 251 configuration.message.warning((SourcePosition) null,
duke@1 252 "doclet.Copy_Overwrite_warning",
duke@1 253 srcfile.toString(), destdir.toString());
duke@1 254 } else {
duke@1 255 configuration.message.notice(
duke@1 256 "doclet.Copying_File_0_To_Dir_1",
duke@1 257 srcfile.toString(), destdir.toString());
duke@1 258 Util.copyFile(destfile, srcfile);
duke@1 259 }
duke@1 260 } else if(srcfile.isDirectory()) {
duke@1 261 if(configuration.copydocfilesubdirs
duke@1 262 && ! configuration.shouldExcludeDocFileDir(
duke@1 263 srcfile.getName())){
duke@1 264 copyDocFiles(configuration, path, dir +
duke@1 265 DirectoryManager.URL_FILE_SEPERATOR + srcfile.getName(),
duke@1 266 overwrite);
duke@1 267 }
duke@1 268 }
duke@1 269 }
duke@1 270 } catch (SecurityException exc) {
duke@1 271 throw new DocletAbortException();
duke@1 272 } catch (IOException exc) {
duke@1 273 throw new DocletAbortException();
duke@1 274 }
duke@1 275 }
duke@1 276
duke@1 277 /**
duke@1 278 * Given the parameters for copying doc-files, check for errors.
duke@1 279 *
duke@1 280 * @param configuration The configuration of the current doclet.
duke@1 281 * @param path The relative path to the directory to be copied.
duke@1 282 * @param dirName The original directory name to copy from.
duke@1 283 */
duke@1 284 private static boolean checkCopyDocFilesErrors (Configuration configuration,
duke@1 285 String path, String dirName) {
duke@1 286 if ((configuration.sourcepath == null || configuration.sourcepath.length() == 0) &&
duke@1 287 (configuration.destDirName == null || configuration.destDirName.length() == 0)) {
duke@1 288 //The destination path and source path are definitely equal.
duke@1 289 return true;
duke@1 290 }
duke@1 291 File sourcePath, destPath = new File(configuration.destDirName);
duke@1 292 StringTokenizer pathTokens = new StringTokenizer(
duke@1 293 configuration.sourcepath == null ? "" : configuration.sourcepath,
duke@1 294 File.pathSeparator);
duke@1 295 //Check if the destination path is equal to the source path. If yes,
duke@1 296 //do not copy doc-file directories.
duke@1 297 while(pathTokens.hasMoreTokens()){
duke@1 298 sourcePath = new File(pathTokens.nextToken());
duke@1 299 if(destPath.equals(sourcePath)){
duke@1 300 return true;
duke@1 301 }
duke@1 302 }
duke@1 303 //Make sure the doc-file being copied exists.
duke@1 304 File srcdir = new File(path + dirName);
duke@1 305 if (! srcdir.exists()) {
duke@1 306 return true;
duke@1 307 }
duke@1 308 return false;
duke@1 309 }
duke@1 310
duke@1 311 /**
duke@1 312 * Copy a file in the resources directory to the destination
duke@1 313 * directory (if it is not there already). If
duke@1 314 * <code>overwrite</code> is true and the destination file
duke@1 315 * already exists, overwrite it.
duke@1 316 *
duke@1 317 * @param configuration Holds the destination directory and error message
duke@1 318 * @param resourcefile The name of the resource file to copy
duke@1 319 * @param overwrite A flag to indicate whether the file in the
duke@1 320 * destination directory will be overwritten if
duke@1 321 * it already exists.
duke@1 322 */
duke@1 323 public static void copyResourceFile(Configuration configuration,
duke@1 324 String resourcefile,
duke@1 325 boolean overwrite) {
duke@1 326 String destdir = configuration.destDirName;
duke@1 327 String destresourcesdir = destdir + "resources";
duke@1 328 DirectoryManager.createDirectory(configuration, destresourcesdir);
duke@1 329 File destfile = new File(destresourcesdir, resourcefile);
duke@1 330 if(destfile.exists() && (! overwrite)) return;
duke@1 331 try {
duke@1 332
duke@1 333 InputStream in = Configuration.class.getResourceAsStream(
duke@1 334 "resources/" + resourcefile);
duke@1 335
duke@1 336 if(in==null) return;
duke@1 337
duke@1 338 OutputStream out = new FileOutputStream(destfile);
duke@1 339 byte[] buf = new byte[2048];
duke@1 340 int n;
duke@1 341 while((n = in.read(buf))>0) out.write(buf,0,n);
duke@1 342
duke@1 343 in.close();
duke@1 344 out.close();
duke@1 345 } catch(Throwable t) {}
duke@1 346 }
duke@1 347
duke@1 348 /**
duke@1 349 * Given a PackageDoc, return the source path for that package.
duke@1 350 * @param configuration The Configuration for the current Doclet.
duke@1 351 * @param pkgDoc The package to seach the path for.
duke@1 352 * @return A string representing the path to the given package.
duke@1 353 */
duke@1 354 public static String getPackageSourcePath(Configuration configuration,
duke@1 355 PackageDoc pkgDoc){
duke@1 356 try{
duke@1 357 String pkgPath = DirectoryManager.getDirectoryPath(pkgDoc);
duke@1 358 String completePath = new SourcePath(configuration.sourcepath).
duke@1 359 getDirectory(pkgPath) + DirectoryManager.URL_FILE_SEPERATOR;
duke@1 360 //Make sure that both paths are using the same seperators.
duke@1 361 completePath = Util.replaceText(completePath, File.separator,
duke@1 362 DirectoryManager.URL_FILE_SEPERATOR);
duke@1 363 pkgPath = Util.replaceText(pkgPath, File.separator,
duke@1 364 DirectoryManager.URL_FILE_SEPERATOR);
duke@1 365 return completePath.substring(0, completePath.indexOf(pkgPath));
duke@1 366 } catch (Exception e){
duke@1 367 return "";
duke@1 368 }
duke@1 369 }
duke@1 370
duke@1 371 /**
duke@1 372 * We want the list of types in alphabetical order. However, types are not
duke@1 373 * comparable. We need a comparator for now.
duke@1 374 */
jjg@74 375 private static class TypeComparator implements Comparator<Type> {
jjg@74 376 public int compare(Type type1, Type type2) {
jjg@74 377 return type1.qualifiedTypeName().toLowerCase().compareTo(
jjg@74 378 type2.qualifiedTypeName().toLowerCase());
duke@1 379 }
duke@1 380 }
duke@1 381
duke@1 382 /**
duke@1 383 * For the class return all implemented interfaces including the
duke@1 384 * superinterfaces of the implementing interfaces, also iterate over for
duke@1 385 * all the superclasses. For interface return all the extended interfaces
duke@1 386 * as well as superinterfaces for those extended interfaces.
duke@1 387 *
duke@1 388 * @param type type whose implemented or
duke@1 389 * super interfaces are sought.
duke@1 390 * @param configuration the current configuration of the doclet.
duke@1 391 * @param sort if true, return list of interfaces sorted alphabetically.
duke@1 392 * @return List of all the required interfaces.
duke@1 393 */
jjg@74 394 public static List<Type> getAllInterfaces(Type type,
duke@1 395 Configuration configuration, boolean sort) {
jjg@74 396 Map<ClassDoc,Type> results = sort ? new TreeMap<ClassDoc,Type>() : new LinkedHashMap<ClassDoc,Type>();
duke@1 397 Type[] interfaceTypes = null;
duke@1 398 Type superType = null;
duke@1 399 if (type instanceof ParameterizedType) {
duke@1 400 interfaceTypes = ((ParameterizedType) type).interfaceTypes();
duke@1 401 superType = ((ParameterizedType) type).superclassType();
duke@1 402 } else if (type instanceof ClassDoc) {
duke@1 403 interfaceTypes = ((ClassDoc) type).interfaceTypes();
duke@1 404 superType = ((ClassDoc) type).superclassType();
duke@1 405 } else {
duke@1 406 interfaceTypes = type.asClassDoc().interfaceTypes();
duke@1 407 superType = type.asClassDoc().superclassType();
duke@1 408 }
duke@1 409
duke@1 410 for (int i = 0; i < interfaceTypes.length; i++) {
duke@1 411 Type interfaceType = interfaceTypes[i];
duke@1 412 ClassDoc interfaceClassDoc = interfaceType.asClassDoc();
duke@1 413 if (! (interfaceClassDoc.isPublic() ||
duke@1 414 (configuration == null ||
duke@1 415 isLinkable(interfaceClassDoc, configuration)))) {
duke@1 416 continue;
duke@1 417 }
duke@1 418 results.put(interfaceClassDoc, interfaceType);
duke@1 419 List superInterfaces = getAllInterfaces(interfaceType, configuration, sort);
duke@1 420 for (Iterator iter = superInterfaces.iterator(); iter.hasNext(); ) {
duke@1 421 Type t = (Type) iter.next();
duke@1 422 results.put(t.asClassDoc(), t);
duke@1 423 }
duke@1 424 }
duke@1 425 if (superType == null)
jjg@74 426 return new ArrayList<Type>(results.values());
duke@1 427 //Try walking the tree.
duke@1 428 addAllInterfaceTypes(results,
duke@1 429 superType,
duke@1 430 superType instanceof ClassDoc ?
duke@1 431 ((ClassDoc) superType).interfaceTypes() :
duke@1 432 ((ParameterizedType) superType).interfaceTypes(),
duke@1 433 false, configuration);
jjg@74 434 List<Type> resultsList = new ArrayList<Type>(results.values());
duke@1 435 if (sort) {
duke@1 436 Collections.sort(resultsList, new TypeComparator());
duke@1 437 }
duke@1 438 return resultsList;
duke@1 439 }
duke@1 440
duke@1 441 public static List getAllInterfaces(Type type, Configuration configuration) {
duke@1 442 return getAllInterfaces(type, configuration, true);
duke@1 443 }
duke@1 444
jjg@74 445 private static void findAllInterfaceTypes(Map<ClassDoc,Type> results, ClassDoc c, boolean raw,
duke@1 446 Configuration configuration) {
duke@1 447 Type superType = c.superclassType();
duke@1 448 if (superType == null)
duke@1 449 return;
duke@1 450 addAllInterfaceTypes(results, superType,
duke@1 451 superType instanceof ClassDoc ?
duke@1 452 ((ClassDoc) superType).interfaceTypes() :
duke@1 453 ((ParameterizedType) superType).interfaceTypes(),
duke@1 454 raw, configuration);
duke@1 455 }
duke@1 456
jjg@74 457 private static void findAllInterfaceTypes(Map<ClassDoc,Type> results, ParameterizedType p,
duke@1 458 Configuration configuration) {
duke@1 459 Type superType = p.superclassType();
duke@1 460 if (superType == null)
duke@1 461 return;
duke@1 462 addAllInterfaceTypes(results, superType,
duke@1 463 superType instanceof ClassDoc ?
duke@1 464 ((ClassDoc) superType).interfaceTypes() :
duke@1 465 ((ParameterizedType) superType).interfaceTypes(),
duke@1 466 false, configuration);
duke@1 467 }
duke@1 468
jjg@74 469 private static void addAllInterfaceTypes(Map<ClassDoc,Type> results, Type type,
duke@1 470 Type[] interfaceTypes, boolean raw,
duke@1 471 Configuration configuration) {
duke@1 472 for (int i = 0; i < interfaceTypes.length; i++) {
duke@1 473 Type interfaceType = interfaceTypes[i];
duke@1 474 ClassDoc interfaceClassDoc = interfaceType.asClassDoc();
duke@1 475 if (! (interfaceClassDoc.isPublic() ||
duke@1 476 (configuration != null &&
duke@1 477 isLinkable(interfaceClassDoc, configuration)))) {
duke@1 478 continue;
duke@1 479 }
duke@1 480 if (raw)
duke@1 481 interfaceType = interfaceType.asClassDoc();
duke@1 482 results.put(interfaceClassDoc, interfaceType);
duke@1 483 List superInterfaces = getAllInterfaces(interfaceType, configuration);
duke@1 484 for (Iterator iter = superInterfaces.iterator(); iter.hasNext(); ) {
duke@1 485 Type superInterface = (Type) iter.next();
duke@1 486 results.put(superInterface.asClassDoc(), superInterface);
duke@1 487 }
duke@1 488 }
duke@1 489 if (type instanceof ParameterizedType)
duke@1 490 findAllInterfaceTypes(results, (ParameterizedType) type, configuration);
duke@1 491 else if (((ClassDoc) type).typeParameters().length == 0)
duke@1 492 findAllInterfaceTypes(results, (ClassDoc) type, raw, configuration);
duke@1 493 else
duke@1 494 findAllInterfaceTypes(results, (ClassDoc) type, true, configuration);
duke@1 495 }
duke@1 496
duke@1 497
jjg@74 498 public static List<ProgramElementDoc> asList(ProgramElementDoc[] members) {
jjg@74 499 List<ProgramElementDoc> list = new ArrayList<ProgramElementDoc>();
duke@1 500 for (int i = 0; i < members.length; i++) {
duke@1 501 list.add(members[i]);
duke@1 502 }
duke@1 503 return list;
duke@1 504 }
duke@1 505
duke@1 506 /**
duke@1 507 * Enclose in quotes, used for paths and filenames that contains spaces
duke@1 508 */
duke@1 509 public static String quote(String filepath) {
duke@1 510 return ("\"" + filepath + "\"");
duke@1 511 }
duke@1 512
duke@1 513 /**
duke@1 514 * Given a package, return it's name.
duke@1 515 * @param packageDoc the package to check.
duke@1 516 * @return the name of the given package.
duke@1 517 */
duke@1 518 public static String getPackageName(PackageDoc packageDoc) {
duke@1 519 return packageDoc == null || packageDoc.name().length() == 0 ?
duke@1 520 DocletConstants.DEFAULT_PACKAGE_NAME : packageDoc.name();
duke@1 521 }
duke@1 522
duke@1 523 /**
duke@1 524 * Given a package, return it's file name without the extension.
duke@1 525 * @param packageDoc the package to check.
duke@1 526 * @return the file name of the given package.
duke@1 527 */
duke@1 528 public static String getPackageFileHeadName(PackageDoc packageDoc) {
duke@1 529 return packageDoc == null || packageDoc.name().length() == 0 ?
duke@1 530 DocletConstants.DEFAULT_PACKAGE_FILE_NAME : packageDoc.name();
duke@1 531 }
duke@1 532
duke@1 533 /**
duke@1 534 * Given a string, replace all occurraces of 'newStr' with 'oldStr'.
duke@1 535 * @param originalStr the string to modify.
duke@1 536 * @param oldStr the string to replace.
duke@1 537 * @param newStr the string to insert in place of the old string.
duke@1 538 */
duke@1 539 public static String replaceText(String originalStr, String oldStr,
duke@1 540 String newStr) {
duke@1 541 if (oldStr == null || newStr == null || oldStr.equals(newStr)) {
duke@1 542 return originalStr;
duke@1 543 }
duke@1 544 StringBuffer result = new StringBuffer(originalStr);
duke@1 545 int startIndex = 0;
duke@1 546 while ((startIndex = result.indexOf(oldStr, startIndex)) != -1) {
duke@1 547 result = result.replace(startIndex, startIndex + oldStr.length(),
duke@1 548 newStr);
duke@1 549 startIndex += newStr.length();
duke@1 550 }
duke@1 551 return result.toString();
duke@1 552 }
duke@1 553
duke@1 554 /**
duke@1 555 * Given a string, escape all special html characters and
duke@1 556 * return the result.
duke@1 557 *
duke@1 558 * @param s The string to check.
duke@1 559 * @return the original string with all of the HTML characters
duke@1 560 * escaped.
duke@1 561 *
duke@1 562 * @see #HTML_ESCAPE_CHARS
duke@1 563 */
duke@1 564 public static String escapeHtmlChars(String s) {
duke@1 565 String result = s;
duke@1 566 for (int i = 0; i < HTML_ESCAPE_CHARS.length; i++) {
duke@1 567 result = Util.replaceText(result,
duke@1 568 HTML_ESCAPE_CHARS[i][0], HTML_ESCAPE_CHARS[i][1]);
duke@1 569 }
duke@1 570 return result;
duke@1 571 }
duke@1 572
duke@1 573 /**
duke@1 574 * Create the directory path for the file to be generated, construct
duke@1 575 * FileOutputStream and OutputStreamWriter depending upon docencoding.
duke@1 576 *
duke@1 577 * @param path The directory path to be created for this file.
duke@1 578 * @param filename File Name to which the PrintWriter will do the Output.
duke@1 579 * @param docencoding Encoding to be used for this file.
duke@1 580 * @exception IOException Exception raised by the FileWriter is passed on
duke@1 581 * to next level.
duke@1 582 * @exception UnSupportedEncodingException Exception raised by the
duke@1 583 * OutputStreamWriter is passed on to next level.
duke@1 584 * @return Writer Writer for the file getting generated.
duke@1 585 * @see java.io.FileOutputStream
duke@1 586 * @see java.io.OutputStreamWriter
duke@1 587 */
duke@1 588 public static Writer genWriter(Configuration configuration,
duke@1 589 String path, String filename,
duke@1 590 String docencoding)
duke@1 591 throws IOException, UnsupportedEncodingException {
duke@1 592 FileOutputStream fos;
duke@1 593 if (path != null) {
duke@1 594 DirectoryManager.createDirectory(configuration, path);
duke@1 595 fos = new FileOutputStream(((path.length() > 0)?
duke@1 596 path + File.separator: "") + filename);
duke@1 597 } else {
duke@1 598 fos = new FileOutputStream(filename);
duke@1 599 }
duke@1 600 if (docencoding == null) {
duke@1 601 OutputStreamWriter oswriter = new OutputStreamWriter(fos);
duke@1 602 docencoding = oswriter.getEncoding();
duke@1 603 return oswriter;
duke@1 604 } else {
duke@1 605 return new OutputStreamWriter(fos, docencoding);
duke@1 606 }
duke@1 607 }
duke@1 608
duke@1 609 /**
duke@1 610 * Given an annotation, return true if it should be documented and false
duke@1 611 * otherwise.
duke@1 612 *
duke@1 613 * @param annotationDoc the annotation to check.
duke@1 614 *
duke@1 615 * @return true return true if it should be documented and false otherwise.
duke@1 616 */
duke@1 617 public static boolean isDocumentedAnnotation(AnnotationTypeDoc annotationDoc) {
duke@1 618 AnnotationDesc[] annotationDescList = annotationDoc.annotations();
duke@1 619 for (int i = 0; i < annotationDescList.length; i++) {
duke@1 620 if (annotationDescList[i].annotationType().qualifiedName().equals(
duke@1 621 java.lang.annotation.Documented.class.getName())){
duke@1 622 return true;
duke@1 623 }
duke@1 624 }
duke@1 625 return false;
duke@1 626 }
duke@1 627
duke@1 628 /**
duke@1 629 * Given a string, return an array of tokens. The separator can be escaped
duke@1 630 * with the '\' character. The '\' character may also be escaped by the
duke@1 631 * '\' character.
duke@1 632 *
duke@1 633 * @param s the string to tokenize.
duke@1 634 * @param separator the separator char.
duke@1 635 * @param maxTokens the maxmimum number of tokens returned. If the
duke@1 636 * max is reached, the remaining part of s is appended
duke@1 637 * to the end of the last token.
duke@1 638 *
duke@1 639 * @return an array of tokens.
duke@1 640 */
duke@1 641 public static String[] tokenize(String s, char separator, int maxTokens) {
jjg@74 642 List<String> tokens = new ArrayList<String>();
duke@1 643 StringBuilder token = new StringBuilder ();
duke@1 644 boolean prevIsEscapeChar = false;
duke@1 645 for (int i = 0; i < s.length(); i += Character.charCount(i)) {
duke@1 646 int currentChar = s.codePointAt(i);
duke@1 647 if (prevIsEscapeChar) {
duke@1 648 // Case 1: escaped character
duke@1 649 token.appendCodePoint(currentChar);
duke@1 650 prevIsEscapeChar = false;
duke@1 651 } else if (currentChar == separator && tokens.size() < maxTokens-1) {
duke@1 652 // Case 2: separator
duke@1 653 tokens.add(token.toString());
duke@1 654 token = new StringBuilder();
duke@1 655 } else if (currentChar == '\\') {
duke@1 656 // Case 3: escape character
duke@1 657 prevIsEscapeChar = true;
duke@1 658 } else {
duke@1 659 // Case 4: regular character
duke@1 660 token.appendCodePoint(currentChar);
duke@1 661 }
duke@1 662 }
duke@1 663 if (token.length() > 0) {
duke@1 664 tokens.add(token.toString());
duke@1 665 }
jjg@74 666 return tokens.toArray(new String[] {});
duke@1 667 }
duke@1 668
duke@1 669 /**
duke@1 670 * Return true if this class is linkable and false if we can't link to the
duke@1 671 * desired class.
duke@1 672 * <br>
duke@1 673 * <b>NOTE:</b> You can only link to external classes if they are public or
duke@1 674 * protected.
duke@1 675 *
duke@1 676 * @param classDoc the class to check.
duke@1 677 * @param configuration the current configuration of the doclet.
duke@1 678 *
duke@1 679 * @return true if this class is linkable and false if we can't link to the
duke@1 680 * desired class.
duke@1 681 */
duke@1 682 public static boolean isLinkable(ClassDoc classDoc,
duke@1 683 Configuration configuration) {
duke@1 684 return
duke@1 685 ((classDoc.isIncluded() && configuration.isGeneratedDoc(classDoc))) ||
duke@1 686 (configuration.extern.isExternal(classDoc) &&
duke@1 687 (classDoc.isPublic() || classDoc.isProtected()));
duke@1 688 }
duke@1 689
duke@1 690 /**
duke@1 691 * Given a class, return the closest visible super class.
duke@1 692 *
duke@1 693 * @param classDoc the class we are searching the parent for.
duke@1 694 * @param configuration the current configuration of the doclet.
duke@1 695 * @return the closest visible super class. Return null if it cannot
duke@1 696 * be found (i.e. classDoc is java.lang.Object).
duke@1 697 */
duke@1 698 public static Type getFirstVisibleSuperClass(ClassDoc classDoc,
duke@1 699 Configuration configuration) {
duke@1 700 if (classDoc == null) {
duke@1 701 return null;
duke@1 702 }
duke@1 703 Type sup = classDoc.superclassType();
duke@1 704 ClassDoc supClassDoc = classDoc.superclass();
duke@1 705 while (sup != null &&
duke@1 706 (! (supClassDoc.isPublic() ||
duke@1 707 isLinkable(supClassDoc, configuration))) ) {
duke@1 708 if (supClassDoc.superclass().qualifiedName().equals(supClassDoc.qualifiedName()))
duke@1 709 break;
duke@1 710 sup = supClassDoc.superclassType();
duke@1 711 supClassDoc = supClassDoc.superclass();
duke@1 712 }
duke@1 713 if (classDoc.equals(supClassDoc)) {
duke@1 714 return null;
duke@1 715 }
duke@1 716 return sup;
duke@1 717 }
duke@1 718
duke@1 719 /**
duke@1 720 * Given a class, return the closest visible super class.
duke@1 721 *
duke@1 722 * @param classDoc the class we are searching the parent for.
duke@1 723 * @param configuration the current configuration of the doclet.
duke@1 724 * @return the closest visible super class. Return null if it cannot
duke@1 725 * be found (i.e. classDoc is java.lang.Object).
duke@1 726 */
duke@1 727 public static ClassDoc getFirstVisibleSuperClassCD(ClassDoc classDoc,
duke@1 728 Configuration configuration) {
duke@1 729 if (classDoc == null) {
duke@1 730 return null;
duke@1 731 }
duke@1 732 ClassDoc supClassDoc = classDoc.superclass();
duke@1 733 while (supClassDoc != null &&
duke@1 734 (! (supClassDoc.isPublic() ||
duke@1 735 isLinkable(supClassDoc, configuration))) ) {
duke@1 736 supClassDoc = supClassDoc.superclass();
duke@1 737 }
duke@1 738 if (classDoc.equals(supClassDoc)) {
duke@1 739 return null;
duke@1 740 }
duke@1 741 return supClassDoc;
duke@1 742 }
duke@1 743
duke@1 744 /**
duke@1 745 * Given a ClassDoc, return the name of its type (Class, Interface, etc.).
duke@1 746 *
duke@1 747 * @param cd the ClassDoc to check.
duke@1 748 * @param lowerCaseOnly true if you want the name returned in lower case.
duke@1 749 * If false, the first letter of the name is capatilized.
duke@1 750 * @return
duke@1 751 */
duke@1 752 public static String getTypeName(Configuration config,
duke@1 753 ClassDoc cd, boolean lowerCaseOnly) {
duke@1 754 String typeName = "";
duke@1 755 if (cd.isOrdinaryClass()) {
duke@1 756 typeName = "doclet.Class";
duke@1 757 } else if (cd.isInterface()) {
duke@1 758 typeName = "doclet.Interface";
duke@1 759 } else if (cd.isException()) {
duke@1 760 typeName = "doclet.Exception";
duke@1 761 } else if (cd.isError()) {
duke@1 762 typeName = "doclet.Error";
duke@1 763 } else if (cd.isAnnotationType()) {
duke@1 764 typeName = "doclet.AnnotationType";
duke@1 765 } else if (cd.isEnum()) {
duke@1 766 typeName = "doclet.Enum";
duke@1 767 }
duke@1 768 return config.getText(
duke@1 769 lowerCaseOnly ? typeName.toLowerCase() : typeName);
duke@1 770 }
duke@1 771
duke@1 772 /**
duke@1 773 * Given a string, replace all tabs with the appropriate
duke@1 774 * number of spaces.
duke@1 775 * @param tabLength the length of each tab.
duke@1 776 * @param s the String to scan.
duke@1 777 */
duke@1 778 public static void replaceTabs(int tabLength, StringBuffer s) {
duke@1 779 int index, col;
duke@1 780 StringBuffer whitespace;
duke@1 781 while ((index = s.indexOf("\t")) != -1) {
duke@1 782 whitespace = new StringBuffer();
duke@1 783 col = index;
duke@1 784 do {
duke@1 785 whitespace.append(" ");
duke@1 786 col++;
duke@1 787 } while ((col%tabLength) != 0);
duke@1 788 s.replace(index, index+1, whitespace.toString());
duke@1 789 }
duke@1 790 }
duke@1 791
duke@1 792 /**
duke@1 793 * The documentation for values() and valueOf() in Enums are set by the
duke@1 794 * doclet.
duke@1 795 */
duke@1 796 public static void setEnumDocumentation(Configuration configuration,
duke@1 797 ClassDoc classDoc) {
duke@1 798 MethodDoc[] methods = classDoc.methods();
duke@1 799 for (int j = 0; j < methods.length; j++) {
duke@1 800 MethodDoc currentMethod = methods[j];
duke@1 801 if (currentMethod.name().equals("values") &&
duke@1 802 currentMethod.parameters().length == 0) {
duke@1 803 currentMethod.setRawCommentText(
duke@1 804 configuration.getText("doclet.enum_values_doc", classDoc.name()));
duke@1 805 } else if (currentMethod.name().equals("valueOf") &&
duke@1 806 currentMethod.parameters().length == 1) {
duke@1 807 Type paramType = currentMethod.parameters()[0].type();
duke@1 808 if (paramType != null &&
duke@1 809 paramType.qualifiedTypeName().equals(String.class.getName())) {
duke@1 810 currentMethod.setRawCommentText(
duke@1 811 configuration.getText("doclet.enum_valueof_doc"));
duke@1 812 }
duke@1 813 }
duke@1 814 }
duke@1 815 }
duke@1 816
duke@1 817 /**
duke@1 818 * Return true if the given Doc is deprecated.
duke@1 819 *
duke@1 820 * @param doc the Doc to check.
duke@1 821 * @return true if the given Doc is deprecated.
duke@1 822 */
duke@1 823 public static boolean isDeprecated(ProgramElementDoc doc) {
duke@1 824 if (doc.tags("deprecated").length > 0) {
duke@1 825 return true;
duke@1 826 }
duke@1 827 AnnotationDesc[] annotationDescList = doc.annotations();
duke@1 828 for (int i = 0; i < annotationDescList.length; i++) {
duke@1 829 if (annotationDescList[i].annotationType().qualifiedName().equals(
duke@1 830 java.lang.Deprecated.class.getName())){
duke@1 831 return true;
duke@1 832 }
duke@1 833 }
duke@1 834 return false;
duke@1 835 }
duke@1 836 }

Mercurial Repository: jdk8-mips64-public/langtools

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