Mercurial > hg > release > icedtea7-forest-2.4 > jdk
view src/windows/classes/sun/awt/shell/Win32ShellFolder2.java @ 7335:26994c39fd70
8035699: File choosers should be choosier
Reviewed-by: alexsch, art, skoivu
| author | malenkov |
|---|---|
| date | Thu, 13 Mar 2014 14:58:55 +0400 |
| parents | 82e89c2d7095 |
| children |
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/* * Copyright (c) 2003, 2009, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code 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 General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package sun.awt.shell; import java.awt.Image; import java.awt.Toolkit; import java.awt.image.BufferedImage; import java.io.File; import java.io.IOException; import java.util.*; import java.util.concurrent.*; import javax.swing.SwingConstants; // NOTE: This class supersedes Win32ShellFolder, which was removed from // distribution after version 1.4.2. /** * Win32 Shell Folders * <P> * <BR> * There are two fundamental types of shell folders : file system folders * and non-file system folders. File system folders are relatively easy * to deal with. Non-file system folders are items such as My Computer, * Network Neighborhood, and the desktop. Some of these non-file system * folders have special values and properties. * <P> * <BR> * Win32 keeps two basic data structures for shell folders. The first * of these is called an ITEMIDLIST. Usually a pointer, called an * LPITEMIDLIST, or more frequently just "PIDL". This structure holds * a series of identifiers and can be either relative to the desktop * (an absolute PIDL), or relative to the shell folder that contains them. * Some Win32 functions can take absolute or relative PIDL values, and * others can only accept relative values. * <BR> * The second data structure is an IShellFolder COM interface. Using * this interface, one can enumerate the relative PIDLs in a shell * folder, get attributes, etc. * <BR> * All Win32ShellFolder2 objects which are folder types (even non-file * system folders) contain an IShellFolder object. Files are named in * directories via relative PIDLs. * * @author Michael Martak * @author Leif Samuelsson * @author Kenneth Russell * @since 1.4 */ final class Win32ShellFolder2 extends ShellFolder { private static native void initIDs(); static { initIDs(); } // Win32 Shell Folder Constants public static final int DESKTOP = 0x0000; public static final int INTERNET = 0x0001; public static final int PROGRAMS = 0x0002; public static final int CONTROLS = 0x0003; public static final int PRINTERS = 0x0004; public static final int PERSONAL = 0x0005; public static final int FAVORITES = 0x0006; public static final int STARTUP = 0x0007; public static final int RECENT = 0x0008; public static final int SENDTO = 0x0009; public static final int BITBUCKET = 0x000a; public static final int STARTMENU = 0x000b; public static final int DESKTOPDIRECTORY = 0x0010; public static final int DRIVES = 0x0011; public static final int NETWORK = 0x0012; public static final int NETHOOD = 0x0013; public static final int FONTS = 0x0014; public static final int TEMPLATES = 0x0015; public static final int COMMON_STARTMENU = 0x0016; public static final int COMMON_PROGRAMS = 0X0017; public static final int COMMON_STARTUP = 0x0018; public static final int COMMON_DESKTOPDIRECTORY = 0x0019; public static final int APPDATA = 0x001a; public static final int PRINTHOOD = 0x001b; public static final int ALTSTARTUP = 0x001d; public static final int COMMON_ALTSTARTUP = 0x001e; public static final int COMMON_FAVORITES = 0x001f; public static final int INTERNET_CACHE = 0x0020; public static final int COOKIES = 0x0021; public static final int HISTORY = 0x0022; // Win32 shell folder attributes public static final int ATTRIB_CANCOPY = 0x00000001; public static final int ATTRIB_CANMOVE = 0x00000002; public static final int ATTRIB_CANLINK = 0x00000004; public static final int ATTRIB_CANRENAME = 0x00000010; public static final int ATTRIB_CANDELETE = 0x00000020; public static final int ATTRIB_HASPROPSHEET = 0x00000040; public static final int ATTRIB_DROPTARGET = 0x00000100; public static final int ATTRIB_LINK = 0x00010000; public static final int ATTRIB_SHARE = 0x00020000; public static final int ATTRIB_READONLY = 0x00040000; public static final int ATTRIB_GHOSTED = 0x00080000; public static final int ATTRIB_HIDDEN = 0x00080000; public static final int ATTRIB_FILESYSANCESTOR = 0x10000000; public static final int ATTRIB_FOLDER = 0x20000000; public static final int ATTRIB_FILESYSTEM = 0x40000000; public static final int ATTRIB_HASSUBFOLDER = 0x80000000; public static final int ATTRIB_VALIDATE = 0x01000000; public static final int ATTRIB_REMOVABLE = 0x02000000; public static final int ATTRIB_COMPRESSED = 0x04000000; public static final int ATTRIB_BROWSABLE = 0x08000000; public static final int ATTRIB_NONENUMERATED = 0x00100000; public static final int ATTRIB_NEWCONTENT = 0x00200000; // IShellFolder::GetDisplayNameOf constants public static final int SHGDN_NORMAL = 0; public static final int SHGDN_INFOLDER = 1; public static final int SHGDN_INCLUDE_NONFILESYS= 0x2000; public static final int SHGDN_FORADDRESSBAR = 0x4000; public static final int SHGDN_FORPARSING = 0x8000; // Values for system call LoadIcon() public enum SystemIcon { IDI_APPLICATION(32512), IDI_HAND(32513), IDI_ERROR(32513), IDI_QUESTION(32514), IDI_EXCLAMATION(32515), IDI_WARNING(32515), IDI_ASTERISK(32516), IDI_INFORMATION(32516), IDI_WINLOGO(32517); private final int iconID; SystemIcon(int iconID) { this.iconID = iconID; } public int getIconID() { return iconID; } } static class FolderDisposer implements sun.java2d.DisposerRecord { /* * This is cached as a concession to getFolderType(), which needs * an absolute PIDL. */ long absolutePIDL; /* * We keep track of shell folders through the IShellFolder * interface of their parents plus their relative PIDL. */ long pIShellFolder; long relativePIDL; boolean disposed; public void dispose() { if (disposed) return; invoke(new Callable<Void>() { public Void call() { if (relativePIDL != 0) { releasePIDL(relativePIDL); } if (absolutePIDL != 0) { releasePIDL(absolutePIDL); } if (pIShellFolder != 0) { releaseIShellFolder(pIShellFolder); } return null; } }); disposed = true; } } FolderDisposer disposer = new FolderDisposer(); private void setIShellFolder(long pIShellFolder) { disposer.pIShellFolder = pIShellFolder; } private void setRelativePIDL(long relativePIDL) { disposer.relativePIDL = relativePIDL; } /* * The following are for caching various shell folder properties. */ private long pIShellIcon = -1L; private String folderType = null; private String displayName = null; private Image smallIcon = null; private Image largeIcon = null; private Boolean isDir = null; /* * The following is to identify the My Documents folder as being special */ private boolean isPersonal; private static String composePathForCsidl(int csidl) throws IOException, InterruptedException { String path = getFileSystemPath(csidl); return path == null ? ("ShellFolder: 0x" + Integer.toHexString(csidl)) : path; } /** * Create a system special shell folder, such as the * desktop or Network Neighborhood. */ Win32ShellFolder2(final int csidl) throws IOException, InterruptedException { // Desktop is parent of DRIVES and NETWORK, not necessarily // other special shell folders. super(null, composePathForCsidl(csidl)); invoke(new Callable<Void>() { public Void call() throws InterruptedException { if (csidl == DESKTOP) { initDesktop(); } else { initSpecial(getDesktop().getIShellFolder(), csidl); // At this point, the native method initSpecial() has set our relativePIDL // relative to the Desktop, which may not be our immediate parent. We need // to traverse this ID list and break it into a chain of shell folders from // the top, with each one having an immediate parent and a relativePIDL // relative to that parent. long pIDL = disposer.relativePIDL; parent = getDesktop(); while (pIDL != 0) { // Get a child pidl relative to 'parent' long childPIDL = copyFirstPIDLEntry(pIDL); if (childPIDL != 0) { // Get a handle to the the rest of the ID list // i,e, parent's grandchilren and down pIDL = getNextPIDLEntry(pIDL); if (pIDL != 0) { // Now we know that parent isn't immediate to 'this' because it // has a continued ID list. Create a shell folder for this child // pidl and make it the new 'parent'. parent = new Win32ShellFolder2((Win32ShellFolder2) parent, childPIDL); } else { // No grandchildren means we have arrived at the parent of 'this', // and childPIDL is directly relative to parent. disposer.relativePIDL = childPIDL; } } else { break; } } } return null; } }, InterruptedException.class); sun.java2d.Disposer.addRecord(this, disposer); } /** * Create a system shell folder */ Win32ShellFolder2(Win32ShellFolder2 parent, long pIShellFolder, long relativePIDL, String path) { super(parent, (path != null) ? path : "ShellFolder: "); this.disposer.pIShellFolder = pIShellFolder; this.disposer.relativePIDL = relativePIDL; sun.java2d.Disposer.addRecord(this, disposer); } /** * Creates a shell folder with a parent and relative PIDL */ Win32ShellFolder2(final Win32ShellFolder2 parent, final long relativePIDL) throws InterruptedException { super(parent, invoke(new Callable<String>() { public String call() { return getFileSystemPath(parent.getIShellFolder(), relativePIDL); } }, RuntimeException.class) ); this.disposer.relativePIDL = relativePIDL; sun.java2d.Disposer.addRecord(this, disposer); } // Initializes the desktop shell folder // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private native void initDesktop(); // Initializes a special, non-file system shell folder // from one of the above constants // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private native void initSpecial(long desktopIShellFolder, int csidl); /** Marks this folder as being the My Documents (Personal) folder */ public void setIsPersonal() { isPersonal = true; } /** * This method is implemented to make sure that no instances * of <code>ShellFolder</code> are ever serialized. If <code>isFileSystem()</code> returns * <code>true</code>, then the object is representable with an instance of * <code>java.io.File</code> instead. If not, then the object depends * on native PIDL state and should not be serialized. * * @return a <code>java.io.File</code> replacement object. If the folder * is a not a normal directory, then returns the first non-removable * drive (normally "C:\"). */ protected Object writeReplace() throws java.io.ObjectStreamException { return invoke(new Callable<File>() { public File call() { if (isFileSystem()) { return new File(getPath()); } else { Win32ShellFolder2 drives = Win32ShellFolderManager2.getDrives(); if (drives != null) { File[] driveRoots = drives.listFiles(); if (driveRoots != null) { for (int i = 0; i < driveRoots.length; i++) { if (driveRoots[i] instanceof Win32ShellFolder2) { Win32ShellFolder2 sf = (Win32ShellFolder2) driveRoots[i]; if (sf.isFileSystem() && !sf.hasAttribute(ATTRIB_REMOVABLE)) { return new File(sf.getPath()); } } } } } // Ouch, we have no hard drives. Return something "valid" anyway. return new File("C:\\"); } } }); } /** * Finalizer to clean up any COM objects or PIDLs used by this object. */ protected void dispose() { disposer.dispose(); } // Given a (possibly multi-level) relative PIDL (with respect to // the desktop, at least in all of the usage cases in this code), // return a pointer to the next entry. Does not mutate the PIDL in // any way. Returns 0 if the null terminator is reached. // Needs to be accessible to Win32ShellFolderManager2 static native long getNextPIDLEntry(long pIDL); // Given a (possibly multi-level) relative PIDL (with respect to // the desktop, at least in all of the usage cases in this code), // copy the first entry into a newly-allocated PIDL. Returns 0 if // the PIDL is at the end of the list. // Needs to be accessible to Win32ShellFolderManager2 static native long copyFirstPIDLEntry(long pIDL); // Given a parent's absolute PIDL and our relative PIDL, build an absolute PIDL private static native long combinePIDLs(long ppIDL, long pIDL); // Release a PIDL object // Needs to be accessible to Win32ShellFolderManager2 static native void releasePIDL(long pIDL); // Release an IShellFolder object // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native void releaseIShellFolder(long pIShellFolder); /** * Accessor for IShellFolder */ private long getIShellFolder() { if (disposer.pIShellFolder == 0) { try { disposer.pIShellFolder = invoke(new Callable<Long>() { public Long call() { assert(isDirectory()); assert(parent != null); long parentIShellFolder = getParentIShellFolder(); if (parentIShellFolder == 0) { throw new InternalError("Parent IShellFolder was null for " + getAbsolutePath()); } // We are a directory with a parent and a relative PIDL. // We want to bind to the parent so we get an // IShellFolder instance associated with us. long pIShellFolder = bindToObject(parentIShellFolder, disposer.relativePIDL); if (pIShellFolder == 0) { throw new InternalError("Unable to bind " + getAbsolutePath() + " to parent"); } return pIShellFolder; } }, RuntimeException.class); } catch (InterruptedException e) { // Ignore error } } return disposer.pIShellFolder; } /** * Get the parent ShellFolder's IShellFolder interface */ public long getParentIShellFolder() { Win32ShellFolder2 parent = (Win32ShellFolder2)getParentFile(); if (parent == null) { // Parent should only be null if this is the desktop, whose // relativePIDL is relative to its own IShellFolder. return getIShellFolder(); } return parent.getIShellFolder(); } /** * Accessor for relative PIDL */ public long getRelativePIDL() { if (disposer.relativePIDL == 0) { throw new InternalError("Should always have a relative PIDL"); } return disposer.relativePIDL; } private long getAbsolutePIDL() { if (parent == null) { // This is the desktop return getRelativePIDL(); } else { if (disposer.absolutePIDL == 0) { disposer.absolutePIDL = combinePIDLs(((Win32ShellFolder2)parent).getAbsolutePIDL(), getRelativePIDL()); } return disposer.absolutePIDL; } } /** * Helper function to return the desktop */ public Win32ShellFolder2 getDesktop() { return Win32ShellFolderManager2.getDesktop(); } /** * Helper function to return the desktop IShellFolder interface */ public long getDesktopIShellFolder() { return getDesktop().getIShellFolder(); } private static boolean pathsEqual(String path1, String path2) { // Same effective implementation as Win32FileSystem return path1.equalsIgnoreCase(path2); } /** * Check to see if two ShellFolder objects are the same */ public boolean equals(Object o) { if (o == null || !(o instanceof Win32ShellFolder2)) { // Short-circuit circuitous delegation path if (!(o instanceof File)) { return super.equals(o); } return pathsEqual(getPath(), ((File) o).getPath()); } Win32ShellFolder2 rhs = (Win32ShellFolder2) o; if ((parent == null && rhs.parent != null) || (parent != null && rhs.parent == null)) { return false; } if (isFileSystem() && rhs.isFileSystem()) { // Only folders with identical parents can be equal return (pathsEqual(getPath(), rhs.getPath()) && (parent == rhs.parent || parent.equals(rhs.parent))); } if (parent == rhs.parent || parent.equals(rhs.parent)) { try { return pidlsEqual(getParentIShellFolder(), disposer.relativePIDL, rhs.disposer.relativePIDL); } catch (InterruptedException e) { return false; } } return false; } private static boolean pidlsEqual(final long pIShellFolder, final long pidl1, final long pidl2) throws InterruptedException { return invoke(new Callable<Boolean>() { public Boolean call() { return compareIDs(pIShellFolder, pidl1, pidl2) == 0; } }, RuntimeException.class); } // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native int compareIDs(long pParentIShellFolder, long pidl1, long pidl2); private volatile Boolean cachedIsFileSystem; /** * @return Whether this is a file system shell folder */ public boolean isFileSystem() { if (cachedIsFileSystem == null) { cachedIsFileSystem = hasAttribute(ATTRIB_FILESYSTEM); } return cachedIsFileSystem; } /** * Return whether the given attribute flag is set for this object */ public boolean hasAttribute(final int attribute) { Boolean result = invoke(new Callable<Boolean>() { public Boolean call() { // Caching at this point doesn't seem to be cost efficient return (getAttributes0(getParentIShellFolder(), getRelativePIDL(), attribute) & attribute) != 0; } }); return result != null && result; } /** * Returns the queried attributes specified in attrsMask. * * Could plausibly be used for attribute caching but have to be * very careful not to touch network drives and file system roots * with a full attrsMask * NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details */ private static native int getAttributes0(long pParentIShellFolder, long pIDL, int attrsMask); // Return the path to the underlying file system object // Should be called from the COM thread private static String getFileSystemPath(final long parentIShellFolder, final long relativePIDL) { int linkedFolder = ATTRIB_LINK | ATTRIB_FOLDER; if (parentIShellFolder == Win32ShellFolderManager2.getNetwork().getIShellFolder() && getAttributes0(parentIShellFolder, relativePIDL, linkedFolder) == linkedFolder) { String s = getFileSystemPath(Win32ShellFolderManager2.getDesktop().getIShellFolder(), getLinkLocation(parentIShellFolder, relativePIDL, false)); if (s != null && s.startsWith("\\\\")) { return s; } } return getDisplayNameOf(parentIShellFolder, relativePIDL, SHGDN_FORPARSING); } // Needs to be accessible to Win32ShellFolderManager2 static String getFileSystemPath(final int csidl) throws IOException, InterruptedException { String path = invoke(new Callable<String>() { public String call() throws IOException { return getFileSystemPath0(csidl); } }, IOException.class); if (path != null) { SecurityManager security = System.getSecurityManager(); if (security != null) { security.checkRead(path); } } return path; } // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native String getFileSystemPath0(int csidl) throws IOException; // Return whether the path is a network root. // Path is assumed to be non-null private static boolean isNetworkRoot(String path) { return (path.equals("\\\\") || path.equals("\\") || path.equals("//") || path.equals("/")); } /** * @return The parent shell folder of this shell folder, null if * there is no parent */ public File getParentFile() { return parent; } public boolean isDirectory() { if (isDir == null) { // Folders with SFGAO_BROWSABLE have "shell extension" handlers and are // not traversable in JFileChooser. if (hasAttribute(ATTRIB_FOLDER) && !hasAttribute(ATTRIB_BROWSABLE)) { isDir = Boolean.TRUE; } else if (isLink()) { ShellFolder linkLocation = getLinkLocation(false); isDir = Boolean.valueOf(linkLocation != null && linkLocation.isDirectory()); } else { isDir = Boolean.FALSE; } } return isDir.booleanValue(); } /* * Functions for enumerating an IShellFolder's children */ // Returns an IEnumIDList interface for an IShellFolder. The value // returned must be released using releaseEnumObjects(). private long getEnumObjects(final boolean includeHiddenFiles) throws InterruptedException { return invoke(new Callable<Long>() { public Long call() { boolean isDesktop = disposer.pIShellFolder == getDesktopIShellFolder(); return getEnumObjects(disposer.pIShellFolder, isDesktop, includeHiddenFiles); } }, RuntimeException.class); } // Returns an IEnumIDList interface for an IShellFolder. The value // returned must be released using releaseEnumObjects(). // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private native long getEnumObjects(long pIShellFolder, boolean isDesktop, boolean includeHiddenFiles); // Returns the next sequential child as a relative PIDL // from an IEnumIDList interface. The value returned must // be released using releasePIDL(). // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private native long getNextChild(long pEnumObjects); // Releases the IEnumIDList interface // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private native void releaseEnumObjects(long pEnumObjects); // Returns the IShellFolder of a child from a parent IShellFolder // and a relative PIDL. The value returned must be released // using releaseIShellFolder(). // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native long bindToObject(long parentIShellFolder, long pIDL); /** * @return An array of shell folders that are children of this shell folder * object. The array will be empty if the folder is empty. Returns * <code>null</code> if this shellfolder does not denote a directory. */ public File[] listFiles(final boolean includeHiddenFiles) { SecurityManager security = System.getSecurityManager(); if (security != null) { security.checkRead(getPath()); } try { return invoke(new Callable<File[]>() { public File[] call() throws InterruptedException { if (!isDirectory()) { return null; } // Links to directories are not directories and cannot be parents. // This does not apply to folders in My Network Places (NetHood) // because they are both links and real directories! if (isLink() && !hasAttribute(ATTRIB_FOLDER)) { return new File[0]; } Win32ShellFolder2 desktop = Win32ShellFolderManager2.getDesktop(); Win32ShellFolder2 personal = Win32ShellFolderManager2.getPersonal(); // If we are a directory, we have a parent and (at least) a // relative PIDL. We must first ensure we are bound to the // parent so we have an IShellFolder to query. long pIShellFolder = getIShellFolder(); // Now we can enumerate the objects in this folder. ArrayList<Win32ShellFolder2> list = new ArrayList<Win32ShellFolder2>(); long pEnumObjects = getEnumObjects(includeHiddenFiles); if (pEnumObjects != 0) { try { long childPIDL; int testedAttrs = ATTRIB_FILESYSTEM | ATTRIB_FILESYSANCESTOR; do { childPIDL = getNextChild(pEnumObjects); boolean releasePIDL = true; if (childPIDL != 0 && (getAttributes0(pIShellFolder, childPIDL, testedAttrs) & testedAttrs) != 0) { Win32ShellFolder2 childFolder; if (Win32ShellFolder2.this.equals(desktop) && personal != null && pidlsEqual(pIShellFolder, childPIDL, personal.disposer.relativePIDL)) { childFolder = personal; } else { childFolder = new Win32ShellFolder2(Win32ShellFolder2.this, childPIDL); releasePIDL = false; } list.add(childFolder); } if (releasePIDL) { releasePIDL(childPIDL); } } while (childPIDL != 0 && !Thread.currentThread().isInterrupted()); } finally { releaseEnumObjects(pEnumObjects); } } return Thread.currentThread().isInterrupted() ? new File[0] : list.toArray(new ShellFolder[list.size()]); } }, InterruptedException.class); } catch (InterruptedException e) { return new File[0]; } } /** * Look for (possibly special) child folder by it's path * * @return The child shellfolder, or null if not found. */ Win32ShellFolder2 getChildByPath(final String filePath) throws InterruptedException { return invoke(new Callable<Win32ShellFolder2>() { public Win32ShellFolder2 call() throws InterruptedException { long pIShellFolder = getIShellFolder(); long pEnumObjects = getEnumObjects(true); Win32ShellFolder2 child = null; long childPIDL; while ((childPIDL = getNextChild(pEnumObjects)) != 0) { if (getAttributes0(pIShellFolder, childPIDL, ATTRIB_FILESYSTEM) != 0) { String path = getFileSystemPath(pIShellFolder, childPIDL); if (path != null && path.equalsIgnoreCase(filePath)) { long childIShellFolder = bindToObject(pIShellFolder, childPIDL); child = new Win32ShellFolder2(Win32ShellFolder2.this, childIShellFolder, childPIDL, path); break; } } releasePIDL(childPIDL); } releaseEnumObjects(pEnumObjects); return child; } }, InterruptedException.class); } private volatile Boolean cachedIsLink; /** * @return Whether this shell folder is a link */ public boolean isLink() { if (cachedIsLink == null) { cachedIsLink = hasAttribute(ATTRIB_LINK); } return cachedIsLink; } /** * @return Whether this shell folder is marked as hidden */ public boolean isHidden() { return hasAttribute(ATTRIB_HIDDEN); } // Return the link location of a shell folder // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native long getLinkLocation(long parentIShellFolder, long relativePIDL, boolean resolve); /** * @return The shell folder linked to by this shell folder, or null * if this shell folder is not a link or is a broken or invalid link */ public ShellFolder getLinkLocation() { return getLinkLocation(true); } private ShellFolder getLinkLocation(final boolean resolve) { return invoke(new Callable<ShellFolder>() { public ShellFolder call() { if (!isLink()) { return null; } ShellFolder location = null; long linkLocationPIDL = getLinkLocation(getParentIShellFolder(), getRelativePIDL(), resolve); if (linkLocationPIDL != 0) { try { location = Win32ShellFolderManager2.createShellFolderFromRelativePIDL(getDesktop(), linkLocationPIDL); } catch (InterruptedException e) { // Return null } catch (InternalError e) { // Could be a link to a non-bindable object, such as a network connection // TODO: getIShellFolder() should throw FileNotFoundException instead } } return location; } }); } // Parse a display name into a PIDL relative to the current IShellFolder. long parseDisplayName(final String name) throws IOException, InterruptedException { return invoke(new Callable<Long>() { public Long call() throws IOException { return parseDisplayName0(getIShellFolder(), name); } }, IOException.class); } // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native long parseDisplayName0(long pIShellFolder, String name) throws IOException; // Return the display name of a shell folder // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native String getDisplayNameOf(long parentIShellFolder, long relativePIDL, int attrs); /** * @return The name used to display this shell folder */ public String getDisplayName() { if (displayName == null) { displayName = invoke(new Callable<String>() { public String call() { return getDisplayNameOf(getParentIShellFolder(), getRelativePIDL(), SHGDN_NORMAL); } }); } return displayName; } // Return the folder type of a shell folder // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native String getFolderType(long pIDL); /** * @return The type of shell folder as a string */ public String getFolderType() { if (folderType == null) { final long absolutePIDL = getAbsolutePIDL(); folderType = invoke(new Callable<String>() { public String call() { return getFolderType(absolutePIDL); } }); } return folderType; } // Return the executable type of a file system shell folder private native String getExecutableType(String path); /** * @return The executable type as a string */ public String getExecutableType() { if (!isFileSystem()) { return null; } return getExecutableType(getAbsolutePath()); } // Icons private static Map smallSystemImages = new HashMap(); private static Map largeSystemImages = new HashMap(); private static Map smallLinkedSystemImages = new HashMap(); private static Map largeLinkedSystemImages = new HashMap(); // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native long getIShellIcon(long pIShellFolder); // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native int getIconIndex(long parentIShellIcon, long relativePIDL); // Return the icon of a file system shell folder in the form of an HICON private static native long getIcon(String absolutePath, boolean getLargeIcon); // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native long extractIcon(long parentIShellFolder, long relativePIDL, boolean getLargeIcon); // Returns an icon from the Windows system icon list in the form of an HICON private static native long getSystemIcon(int iconID); private static native long getIconResource(String libName, int iconID, int cxDesired, int cyDesired, boolean useVGAColors); // Note: useVGAColors is ignored on XP and later // Return the bits from an HICON. This has a side effect of setting // the imageHash variable for efficient caching / comparing. private static native int[] getIconBits(long hIcon, int iconSize); // Dispose the HICON private static native void disposeIcon(long hIcon); static native int[] getStandardViewButton0(int iconIndex); // Should be called from the COM thread private long getIShellIcon() { if (pIShellIcon == -1L) { pIShellIcon = getIShellIcon(getIShellFolder()); } return pIShellIcon; } private static Image makeIcon(long hIcon, boolean getLargeIcon) { if (hIcon != 0L && hIcon != -1L) { // Get the bits. This has the side effect of setting the imageHash value for this object. int size = getLargeIcon ? 32 : 16; int[] iconBits = getIconBits(hIcon, size); if (iconBits != null) { BufferedImage img = new BufferedImage(size, size, BufferedImage.TYPE_INT_ARGB); img.setRGB(0, 0, size, size, iconBits, 0, size); return img; } } return null; } /** * @return The icon image used to display this shell folder */ public Image getIcon(final boolean getLargeIcon) { Image icon = getLargeIcon ? largeIcon : smallIcon; if (icon == null) { icon = invoke(new Callable<Image>() { public Image call() { Image newIcon = null; if (isFileSystem()) { long parentIShellIcon = (parent != null) ? ((Win32ShellFolder2) parent).getIShellIcon() : 0L; long relativePIDL = getRelativePIDL(); // These are cached per type (using the index in the system image list) int index = getIconIndex(parentIShellIcon, relativePIDL); if (index > 0) { Map imageCache; if (isLink()) { imageCache = getLargeIcon ? largeLinkedSystemImages : smallLinkedSystemImages; } else { imageCache = getLargeIcon ? largeSystemImages : smallSystemImages; } newIcon = (Image) imageCache.get(Integer.valueOf(index)); if (newIcon == null) { long hIcon = getIcon(getAbsolutePath(), getLargeIcon); newIcon = makeIcon(hIcon, getLargeIcon); disposeIcon(hIcon); if (newIcon != null) { imageCache.put(Integer.valueOf(index), newIcon); } } } } if (newIcon == null) { // These are only cached per object long hIcon = extractIcon(getParentIShellFolder(), getRelativePIDL(), getLargeIcon); newIcon = makeIcon(hIcon, getLargeIcon); disposeIcon(hIcon); } if (newIcon == null) { newIcon = Win32ShellFolder2.super.getIcon(getLargeIcon); } return newIcon; } }); if (getLargeIcon) { largeIcon = icon; } else { smallIcon = icon; } } return icon; } /** * Gets an icon from the Windows system icon list as an <code>Image</code> */ static Image getSystemIcon(SystemIcon iconType) { long hIcon = getSystemIcon(iconType.getIconID()); Image icon = makeIcon(hIcon, true); disposeIcon(hIcon); return icon; } /** * Gets an icon from the Windows system icon list as an <code>Image</code> */ static Image getShell32Icon(int iconID, boolean getLargeIcon) { boolean useVGAColors = true; // Will be ignored on XP and later int size = getLargeIcon ? 32 : 16; Toolkit toolkit = Toolkit.getDefaultToolkit(); String shellIconBPP = (String)toolkit.getDesktopProperty("win.icon.shellIconBPP"); if (shellIconBPP != null) { useVGAColors = shellIconBPP.equals("4"); } long hIcon = getIconResource("shell32.dll", iconID, size, size, useVGAColors); if (hIcon != 0) { Image icon = makeIcon(hIcon, getLargeIcon); disposeIcon(hIcon); return icon; } return null; } /** * Returns the canonical form of this abstract pathname. Equivalent to * <code>new Win32ShellFolder2(getParentFile(), this.{@link java.io.File#getCanonicalPath}())</code>. * * @see java.io.File#getCanonicalFile */ public File getCanonicalFile() throws IOException { return this; } /* * Indicates whether this is a special folder (includes My Documents) */ public boolean isSpecial() { return isPersonal || !isFileSystem() || (this == getDesktop()); } /** * Compares this object with the specified object for order. * * @see sun.awt.shell.ShellFolder#compareTo(File) */ public int compareTo(File file2) { if (!(file2 instanceof Win32ShellFolder2)) { if (isFileSystem() && !isSpecial()) { return super.compareTo(file2); } else { return -1; // Non-file shellfolders sort before files } } return Win32ShellFolderManager2.compareShellFolders(this, (Win32ShellFolder2) file2); } // native constants from commctrl.h private static final int LVCFMT_LEFT = 0; private static final int LVCFMT_RIGHT = 1; private static final int LVCFMT_CENTER = 2; public ShellFolderColumnInfo[] getFolderColumns() { return invoke(new Callable<ShellFolderColumnInfo[]>() { public ShellFolderColumnInfo[] call() { ShellFolderColumnInfo[] columns = doGetColumnInfo(getIShellFolder()); if (columns != null) { List<ShellFolderColumnInfo> notNullColumns = new ArrayList<ShellFolderColumnInfo>(); for (int i = 0; i < columns.length; i++) { ShellFolderColumnInfo column = columns[i]; if (column != null) { column.setAlignment(column.getAlignment() == LVCFMT_RIGHT ? SwingConstants.RIGHT : column.getAlignment() == LVCFMT_CENTER ? SwingConstants.CENTER : SwingConstants.LEADING); column.setComparator(new ColumnComparator(Win32ShellFolder2.this, i)); notNullColumns.add(column); } } columns = new ShellFolderColumnInfo[notNullColumns.size()]; notNullColumns.toArray(columns); } return columns; } }); } public Object getFolderColumnValue(final int column) { return invoke(new Callable<Object>() { public Object call() { return doGetColumnValue(getParentIShellFolder(), getRelativePIDL(), column); } }); } // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private native ShellFolderColumnInfo[] doGetColumnInfo(long iShellFolder2); // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private native Object doGetColumnValue(long parentIShellFolder2, long childPIDL, int columnIdx); // NOTE: this method uses COM and must be called on the 'COM thread'. See ComInvoker for the details private static native int compareIDsByColumn(long pParentIShellFolder, long pidl1, long pidl2, int columnIdx); public void sortChildren(final List<? extends File> files) { // To avoid loads of synchronizations with Invoker and improve performance we // synchronize the whole code of the sort method once invoke(new Callable<Void>() { public Void call() { Collections.sort(files, new ColumnComparator(Win32ShellFolder2.this, 0)); return null; } }); } private static class ColumnComparator implements Comparator<File> { private final Win32ShellFolder2 shellFolder; private final int columnIdx; public ColumnComparator(Win32ShellFolder2 shellFolder, int columnIdx) { this.shellFolder = shellFolder; this.columnIdx = columnIdx; } // compares 2 objects within this folder by the specified column public int compare(final File o, final File o1) { Integer result = invoke(new Callable<Integer>() { public Integer call() { if (o instanceof Win32ShellFolder2 && o1 instanceof Win32ShellFolder2) { // delegates comparison to native method return compareIDsByColumn(shellFolder.getIShellFolder(), ((Win32ShellFolder2) o).getRelativePIDL(), ((Win32ShellFolder2) o1).getRelativePIDL(), columnIdx); } return 0; } }); return result == null ? 0 : result; } } }