java.io.File Maven / Gradle / Ivy

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This work corresponds to the API signatures of JSR 219: Foundation Profile 1.1. In the event of a discrepency between this work and the JSR 219 specification, which is available at http://www.jcp.org/en/jsr/detail?id=219, the latter takes precedence. */ package java.io; import java.net.URI; import java.net.URL; import java.net.MalformedURLException; import java.util.ArrayList; import java.util.Map; import java.util.Hashtable; import java.util.Random; import java.security.AccessController; import java.security.AccessControlException; /** * An abstract representation of file and directory pathnames. * *

User interfaces and operating systems use system-dependent pathname * strings to name files and directories. This class presents an * abstract, system-independent view of hierarchical pathnames. An * abstract pathname has two components: * *

*
1. An optional system-dependent prefix string, * such as a disk-drive specifier, "/" for the UNIX root * directory, or "\\" for a Microsoft Windows UNC pathname, and *
2. A sequence of zero or more string names. *

The conversion of a pathname string to or from an abstract pathname is * inherently system-dependent. When an abstract pathname is converted into a * pathname string, each name is separated from the next by a single copy of * the default separator character. The default name-separator * character is defined by the system property file.separator, and * is made available in the public static fields {@link * #separator} and {@link #separatorChar} of this class. * When a pathname string is converted into an abstract pathname, the names * within it may be separated by the default name-separator character or by any * other name-separator character that is supported by the underlying system. * *

A pathname, whether abstract or in string form, may be either * absolute or relative. An absolute pathname is complete in * that no other information is required in order to locate the file that it * denotes. A relative pathname, in contrast, must be interpreted in terms of * information taken from some other pathname. By default the classes in the * java.io package always resolve relative pathnames against the * current user directory. This directory is named by the system property * user.dir, and is typically the directory in which the Java * virtual machine was invoked. * *

The prefix concept is used to handle root directories on UNIX platforms, * and drive specifiers, root directories and UNC pathnames on Microsoft Windows platforms, * as follows: * *

* *
• For UNIX platforms, the prefix of an absolute pathname is always * "/". Relative pathnames have no prefix. The abstract pathname * denoting the root directory has the prefix "/" and an empty * name sequence. * *
• For Microsoft Windows platforms, the prefix of a pathname that contains a drive * specifier consists of the drive letter followed by ":" and * possibly followed by "\" if the pathname is absolute. The * prefix of a UNC pathname is "\\"; the hostname and the share * name are the first two names in the name sequence. A relative pathname that * does not specify a drive has no prefix. * *

Instances of the File class are immutable; that is, once * created, the abstract pathname represented by a File object * will never change. * * @version 1.95 10/17/00 * @author unascribed * @since JDK1.0 */ public class File implements Serializable, Comparable { /** * The FileSystem object representing the platform's local file system. */ static private FileSystem fs = FileSystem.getFileSystem(); /** * The system-dependent default name-separator character. This field is * initialized to contain the first character of the value of the system * property file.separator. On UNIX systems the value of this * field is '/'; on Microsoft Windows systems it is '\'. * * @see java.lang.System#getProperty(java.lang.String) */ public static final char separatorChar = fs.getSeparator(); /** * The system-dependent default name-separator character, represented as a * string for convenience. This string contains a single character, namely * {@link #separatorChar}. */ public static final String separator = "" + separatorChar; /** * The system-dependent path-separator character. This field is * initialized to contain the first character of the value of the system * property path.separator. This character is used to * separate filenames in a sequence of files given as a path list. * On UNIX systems, this character is ':'; on Microsoft Windows systems it * is ';'. * * @see java.lang.System#getProperty(java.lang.String) */ public static final char pathSeparatorChar = fs.getPathSeparator(); /** * The system-dependent path-separator character, represented as a string * for convenience. This string contains a single character, namely * {@link #pathSeparatorChar}. */ public static final String pathSeparator = "" + pathSeparatorChar; /** * This abstract pathname's normalized pathname string. A normalized * pathname string uses the default name-separator character and does not * contain any duplicate or redundant separators. * * @serial */ private String path; /** * Creates a new File instance by converting the given * pathname string into an abstract pathname. If the given string is * the empty string, then the result is the empty abstract pathname. * * @param pathname A pathname string * @throws NullPointerException * If the pathname argument is null */ public File(String pathname) { } /** * Creates a new File instance from a parent pathname string * and a child pathname string. * *

If parent is null then the new * File instance is created as if by invoking the * single-argument File constructor on the given * child pathname string. * *

Otherwise the parent pathname string is taken to denote * a directory, and the child pathname string is taken to * denote either a directory or a file. If the child pathname * string is absolute then it is converted into a relative pathname in a * system-dependent way. If parent is the empty string then * the new File instance is created by converting * child into an abstract pathname and resolving the result * against a system-dependent default directory. Otherwise each pathname * string is converted into an abstract pathname and the child abstract * pathname is resolved against the parent. * * @param parent The parent pathname string * @param child The child pathname string * @throws NullPointerException * If child is null */ public File(String parent, String child) { } /** * Creates a new File instance from a parent abstract * pathname and a child pathname string. * *

If parent is null then the new * File instance is created as if by invoking the * single-argument File constructor on the given * child pathname string. * *

Otherwise the parent abstract pathname is taken to * denote a directory, and the child pathname string is taken * to denote either a directory or a file. If the child * pathname string is absolute then it is converted into a relative * pathname in a system-dependent way. If parent is the empty * abstract pathname then the new File instance is created by * converting child into an abstract pathname and resolving * the result against a system-dependent default directory. Otherwise each * pathname string is converted into an abstract pathname and the child * abstract pathname is resolved against the parent. * * @param parent The parent abstract pathname * @param child The child pathname string * @throws NullPointerException * If child is null */ public File(File parent, String child) { } /** * Creates a new File instance by converting the given * file: URI into an abstract pathname. * *

The exact form of a file: URI is system-dependent, hence * the transformation performed by this constructor is also * system-dependent. * *

For a given abstract pathname f it is guaranteed that * *

* new File( f.{@link #toURI() toURI}()).equals( f.{@link #getAbsoluteFile() getAbsoluteFile}()) *

The parent of an abstract pathname consists of the * pathname's prefix, if any, and each name in the pathname's name * sequence except for the last. If the name sequence is empty then * the pathname does not name a parent directory. * * @return The pathname string of the parent directory named by this * abstract pathname, or null if this pathname * does not name a parent */ public String getParent() { return null; } /** * Returns the abstract pathname of this abstract pathname's parent, * or null if this pathname does not name a parent * directory. * *

The parent of an abstract pathname consists of the * pathname's prefix, if any, and each name in the pathname's name * sequence except for the last. If the name sequence is empty then * the pathname does not name a parent directory. * * @return The abstract pathname of the parent directory named by this * abstract pathname, or null if this pathname * does not name a parent * * @since 1.2 */ public File getParentFile() { return null; } /** * Converts this abstract pathname into a pathname string. The resulting * string uses the {@link #separator default name-separator character} to * separate the names in the name sequence. * * @return The string form of this abstract pathname */ public String getPath() { return null; } /** * Tests whether this abstract pathname is absolute. The definition of * absolute pathname is system dependent. On UNIX systems, a pathname is * absolute if its prefix is "/". On Microsoft Windows systems, a * pathname is absolute if its prefix is a drive specifier followed by * "\\", or if its prefix is "\\". * * @return true if this abstract pathname is absolute, * false otherwise */ public boolean isAbsolute() { return false; } /** * Returns the absolute pathname string of this abstract pathname. * *

If this abstract pathname is already absolute, then the pathname * string is simply returned as if by the {@link #getPath} * method. If this abstract pathname is the empty abstract pathname then * the pathname string of the current user directory, which is named by the * system property user.dir, is returned. Otherwise this * pathname is resolved in a system-dependent way. On UNIX systems, a * relative pathname is made absolute by resolving it against the current * user directory. On Microsoft Windows systems, a relative pathname is made absolute * by resolving it against the current directory of the drive named by the * pathname, if any; if not, it is resolved against the current user * directory. * * @return The absolute pathname string denoting the same file or * directory as this abstract pathname * * @throws SecurityException * If a required system property value cannot be accessed. * * @see java.io.File#isAbsolute() */ public String getAbsolutePath() { return null; } /** * Returns the absolute form of this abstract pathname. Equivalent to * new File(this.{@link #getAbsolutePath}()). * * @return The absolute abstract pathname denoting the same file or * directory as this abstract pathname * * @throws SecurityException * If a required system property value cannot be accessed. * * @since 1.2 */ public File getAbsoluteFile() { return null; } /** * Returns the canonical pathname string of this abstract pathname. * *

A canonical pathname is both absolute and unique. The precise * definition of canonical form is system-dependent. This method first * converts this pathname to absolute form if necessary, as if by invoking the * {@link #getAbsolutePath} method, and then maps it to its unique form in a * system-dependent way. This typically involves removing redundant names * such as "." and ".." from the pathname, resolving * symbolic links (on UNIX platforms), and converting drive letters to a * standard case (on Microsoft Windows platforms). * *

Every pathname that denotes an existing file or directory has a * unique canonical form. Every pathname that denotes a nonexistent file * or directory also has a unique canonical form. The canonical form of * the pathname of a nonexistent file or directory may be different from * the canonical form of the same pathname after the file or directory is * created. Similarly, the canonical form of the pathname of an existing * file or directory may be different from the canonical form of the same * pathname after the file or directory is deleted. * * @return The canonical pathname string denoting the same file or * directory as this abstract pathname * * @throws IOException * If an I/O error occurs, which is possible because the * construction of the canonical pathname may require * filesystem queries * * @throws SecurityException * If a required system property value cannot be accessed. * * @since JDK1.1 */ public String getCanonicalPath() throws IOException { return null; } /** * Returns the canonical form of this abstract pathname. Equivalent to * new File(this.{@link #getCanonicalPath}()). * * @return The canonical pathname string denoting the same file or * directory as this abstract pathname * * @throws IOException * If an I/O error occurs, which is possible because the * construction of the canonical pathname may require * filesystem queries * * @throws SecurityException * If a required system property value cannot be accessed. * * @since 1.2 */ public File getCanonicalFile() throws IOException { return null; } /** * Converts this abstract pathname into a file: URL. The * exact form of the URL is system-dependent. If it can be determined that * the file denoted by this abstract pathname is a directory, then the * resulting URL will end with a slash. * *

Usage note: This method does not automatically escape * characters that are illegal in URLs. It is recommended that new code * convert an abstract pathname into a URL by first converting it into a * URI, via the {@link #toURI() toURI} method, and then converting the URI * into a URL via the {@link java.net.URI#toURL() URI.toURL} method. * * @return A URL object representing the equivalent file URL * * @throws MalformedURLException * If the path cannot be parsed as a URL * * @see #toURI() * @see java.net.URI * @see java.net.URI#toURL() * @see java.net.URL * @since 1.2 */ public URL toURL() throws MalformedURLException { return null; } /** * Constructs a file: URI that represents this abstract pathname. * *

The exact form of the URI is system-dependent. If it can be * determined that the file denoted by this abstract pathname is a * directory, then the resulting URI will end with a slash. * *

For a given abstract pathname f, it is guaranteed that * *

* new {@link #File(java.net.URI) File}( f.toURI()).equals( f.{@link #getAbsoluteFile() getAbsoluteFile}()) *

* Note: this method should not be used for file-locking, as * the resulting protocol cannot be made to work reliably. * * @return true if the named file does not exist and was * successfully created; false if the named file * already exists * * @throws IOException * If an I/O error occurred * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkWrite(java.lang.String)} * method denies write access to the file * * @since 1.2 */ public boolean createNewFile() throws IOException { return false; } /** * Deletes the file or directory denoted by this abstract pathname. If * this pathname denotes a directory, then the directory must be empty in * order to be deleted. * * @return true if and only if the file or directory is * successfully deleted; false otherwise * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkDelete} method denies * delete access to the file */ public boolean delete() { return false; } /** * Requests that the file or directory denoted by this abstract * pathname be deleted when the virtual machine terminates. * Deletion will be attempted only for normal termination of the * virtual machine, as defined by the Java Language Specification. * *

Once deletion has been requested, it is not possible to cancel the * request. This method should therefore be used with care. * *

* Note: this method should not be used for file-locking, as * the resulting protocol cannot be made to work reliably. * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkDelete} method denies * delete access to the file * * @see #delete * * @since 1.2 */ public void deleteOnExit() { } /** * Returns an array of strings naming the files and directories in the * directory denoted by this abstract pathname. * *

If this abstract pathname does not denote a directory, then this * method returns null. Otherwise an array of strings is * returned, one for each file or directory in the directory. Names * denoting the directory itself and the directory's parent directory are * not included in the result. Each string is a file name rather than a * complete path. * *

There is no guarantee that the name strings in the resulting array * will appear in any specific order; they are not, in particular, * guaranteed to appear in alphabetical order. * * @return An array of strings naming the files and directories in the * directory denoted by this abstract pathname. The array will be * empty if the directory is empty. Returns null if * this abstract pathname does not denote a directory, or if an * I/O error occurs. * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkRead(java.lang.String)} * method denies read access to the directory */ public String[] list() { return null; } /** * Returns an array of strings naming the files and directories in the * directory denoted by this abstract pathname that satisfy the specified * filter. The behavior of this method is the same as that of the * {@link #list()} method, except that the strings in the * returned array must satisfy the filter. If the given * filter is null then all names are accepted. * Otherwise, a name satisfies the filter if and only if the value * true results when the {@link * FilenameFilter#accept} method of the filter is invoked on this * abstract pathname and the name of a file or directory in the directory * that it denotes. * * @param filter A filename filter * * @return An array of strings naming the files and directories in the * directory denoted by this abstract pathname that were accepted * by the given filter. The array will be empty if * the directory is empty or if no names were accepted by the * filter. Returns null if this abstract pathname * does not denote a directory, or if an I/O error occurs. * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkRead(java.lang.String)} * method denies read access to the directory */ public String[] list(FilenameFilter filter) { return null; } /** * Returns an array of abstract pathnames denoting the files in the * directory denoted by this abstract pathname. * *

If this abstract pathname does not denote a directory, then this * method returns null. Otherwise an array of * File objects is returned, one for each file or directory in * the directory. Pathnames denoting the directory itself and the * directory's parent directory are not included in the result. Each * resulting abstract pathname is constructed from this abstract pathname * using the {@link #File(java.io.File, java.lang.String) * File(File, String)} constructor. Therefore if this pathname * is absolute then each resulting pathname is absolute; if this pathname * is relative then each resulting pathname will be relative to the same * directory. * *

There is no guarantee that the name strings in the resulting array * will appear in any specific order; they are not, in particular, * guaranteed to appear in alphabetical order. * * @return An array of abstract pathnames denoting the files and * directories in the directory denoted by this abstract * pathname. The array will be empty if the directory is * empty. Returns null if this abstract pathname * does not denote a directory, or if an I/O error occurs. * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkRead(java.lang.String)} * method denies read access to the directory * * @since 1.2 */ public File[] listFiles() { return null; } /** * Returns an array of abstract pathnames denoting the files and * directories in the directory denoted by this abstract pathname that * satisfy the specified filter. The behavior of this method is the * same as that of the {@link #listFiles()} method, except * that the pathnames in the returned array must satisfy the filter. * If the given filter is null then all * pathnames are accepted. Otherwise, a pathname satisfies the filter * if and only if the value true results when the * {@link FilenameFilter#accept} method of the filter is * invoked on this abstract pathname and the name of a file or * directory in the directory that it denotes. * * @param filter A filename filter * * @return An array of abstract pathnames denoting the files and * directories in the directory denoted by this abstract * pathname. The array will be empty if the directory is * empty. Returns null if this abstract pathname * does not denote a directory, or if an I/O error occurs. * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkRead(java.lang.String)} * method denies read access to the directory * * @since 1.2 */ public File[] listFiles(FilenameFilter filter) { return null; } /** * Returns an array of abstract pathnames denoting the files and * directories in the directory denoted by this abstract pathname that * satisfy the specified filter. The behavior of this method is the * same as that of the {@link #listFiles()} method, except * that the pathnames in the returned array must satisfy the filter. * If the given filter is null then all * pathnames are accepted. Otherwise, a pathname satisfies the filter * if and only if the value true results when the * {@link FileFilter#accept(java.io.File)} method of * the filter is invoked on the pathname. * * @param filter A file filter * * @return An array of abstract pathnames denoting the files and * directories in the directory denoted by this abstract * pathname. The array will be empty if the directory is * empty. Returns null if this abstract pathname * does not denote a directory, or if an I/O error occurs. * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkRead(java.lang.String)} * method denies read access to the directory * * @since 1.2 */ public File[] listFiles(FileFilter filter) { return null; } /** * Creates the directory named by this abstract pathname. * * @return true if and only if the directory was * created; false otherwise * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkWrite(java.lang.String)} * method does not permit the named directory to be created */ public boolean mkdir() { return false; } /** * Creates the directory named by this abstract pathname, including any * necessary but nonexistent parent directories. Note that if this * operation fails it may have succeeded in creating some of the necessary * parent directories. * * @return true if and only if the directory was created, * along with all necessary parent directories; false * otherwise * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkWrite(java.lang.String)} * method does not permit the named directory and all necessary * parent directories and to be created */ public boolean mkdirs() { return false; } /** * Renames the file denoted by this abstract pathname. * *

Whether or not this method can move a file from one filesystem * to another is platform-dependent. The return value should always * be checked to make sure that the rename operation was successful. * * @param dest The new abstract pathname for the named file * * @return true if and only if the renaming succeeded; * false otherwise * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkWrite(java.lang.String)} * method denies write access to either the old or new pathnames * * @throws NullPointerException * If parameter dest is null */ public boolean renameTo(File dest) { return false; } /** * Sets the last-modified time of the file or directory named by this * abstract pathname. * *

All platforms support file-modification times to the nearest second, * but some provide more precision. The argument will be truncated to fit * the supported precision. If the operation succeeds and no intervening * operations on the file take place, then the next invocation of the * {@link #lastModified} method will return the (possibly * truncated) time argument that was passed to this method. * * @param time The new last-modified time, measured in milliseconds since * the epoch (00:00:00 GMT, January 1, 1970) * * @return true if and only if the operation succeeded; * false otherwise * * @throws IllegalArgumentException If the argument is negative * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkWrite(java.lang.String)} * method denies write access to the named file * * @since 1.2 */ public boolean setLastModified(long time) { return false; } /** * Marks the file or directory named by this abstract pathname so that * only read operations are allowed. After invoking this method the file * or directory is guaranteed not to change until it is either deleted or * marked to allow write access. Whether or not a read-only file or * directory may be deleted depends upon the underlying system. * * @return true if and only if the operation succeeded; * false otherwise * * @throws SecurityException * If a security manager exists and its {@link * java.lang.SecurityManager#checkWrite(java.lang.String)} * method denies write access to the named file * * @since 1.2 */ public boolean setReadOnly() { return false; } /** * List the available filesystem roots. * *

A particular Java platform may support zero or more * hierarchically-organized file systems. Each file system has a * root directory from which all other files in that file * system can be reached. Windows platforms, for example, have a root * directory for each active drive; UNIX platforms have a single root * directory, namely "/". The set of available filesystem * roots is affected by various system-level operations such the insertion * or ejection of removable media and the disconnecting or unmounting of * physical or virtual disk drives. * *

This method returns an array of File objects that * denote the root directories of the available filesystem roots. It is * guaranteed that the canonical pathname of any file physically present on * the local machine will begin with one of the roots returned by this * method. * *

The canonical pathname of a file that resides on some other machine * and is accessed via a remote-filesystem protocol such as SMB or NFS may * or may not begin with one of the roots returned by this method. If the * pathname of a remote file is syntactically indistinguishable from the * pathname of a local file then it will begin with one of the roots * returned by this method. Thus, for example, File objects * denoting the root directories of the mapped network drives of a Windows * platform will be returned by this method, while File * objects containing UNC pathnames will not be returned by this method. * *

Unlike most methods in this class, this method does not throw * security exceptions. If a security manager exists and its {@link * java.lang.SecurityManager#checkRead(java.lang.String)} method * denies read access to a particular root directory, then that directory * will not appear in the result. * * @return An array of File objects denoting the available * filesystem roots, or null if the set of roots * could not be determined. The array will be empty if there are * no filesystem roots. * * @since 1.2 */ public static File[] listRoots() { return null; } /** *

Creates a new empty file in the specified directory, using the * given prefix and suffix strings to generate its name. If this method * returns successfully then it is guaranteed that: * *

*
1. The file denoted by the returned abstract pathname did not exist * before this method was invoked, and *
2. Neither this method nor any of its variants will return the same * abstract pathname again in the current invocation of the virtual * machine. *

The prefix argument must be at least three characters * long. It is recommended that the prefix be a short, meaningful string * such as "hjb" or "mail". The * suffix argument may be null, in which case the * suffix ".tmp" will be used. * *

To create the new file, the prefix and the suffix may first be * adjusted to fit the limitations of the underlying platform. If the * prefix is too long then it will be truncated, but its first three * characters will always be preserved. If the suffix is too long then it * too will be truncated, but if it begins with a period character * ('.') then the period and the first three characters * following it will always be preserved. Once these adjustments have been * made the name of the new file will be generated by concatenating the * prefix, five or more internally-generated characters, and the suffix. * *