On this page:
15.2.1 Locating Paths
find-system-path
path-list-string->path-list
find-executable-path
15.2.2 Files
file-exists?
link-exists?
delete-file
rename-file-or-directory
file-or-directory-modify-seconds
file-or-directory-permissions
file-or-directory-identity
file-size
copy-file
make-file-or-directory-link
current-force-delete-permissions
15.2.3 Directories
current-directory
current-directory-for-user
current-drive
directory-exists?
make-directory
delete-directory
directory-list
filesystem-root-list
15.2.4 Detecting Filesystem Changes
filesystem-change-evt?
filesystem-change-evt
filesystem-change-evt-cancel
15.2.5 Declaring Paths Needed at Run Time
define-runtime-path
define-runtime-paths
define-runtime-path-list
define-runtime-module-path-index
runtime-require
define-runtime-module-path
runtime-paths
15.2.6 More File and Directory Utilities
file->string
file->bytes
file->value
file->list
file->lines
file->bytes-lines
display-to-file
write-to-file
display-lines-to-file
copy-directory/  files
delete-directory/  files
find-files
pathlist-closure
fold-files
make-directory*
make-parent-directory*
make-temporary-file
call-with-atomic-output-file
get-preference
put-preferences
preferences-lock-file-mode
make-handle-get-preference-locked
call-with-file-lock/  timeout
make-lock-file-name
user-read-bit
user-write-bit
user-execute-bit
group-read-bit
group-write-bit
group-execute-bit
other-read-bit
other-write-bit
other-execute-bit

15.2 Filesystem

15.2.1 Locating Paths

procedure

(find-system-path kind)  path?

  kind : symbol?
Returns a machine-specific path for a standard type of path specified by kind, which must be one of the following:

Changed in version 6.0.0.3 of package base: Added PLTUSERHOME.

procedure

(path-list-string->path-list str 
  default-path-list) 
  (listof path?)
  str : (or/c string? bytes?)
  default-path-list : (listof path?)
Parses a string or byte string containing a list of paths, and returns a list of path strings. On Unix and Mac OS X, paths in a path list are separated by a :; on Windows, paths are separated by a ;, and all "s in the string are discarded. Whenever the path list contains an empty path, the list default-path-list is spliced into the returned list of paths. Parts of str that do not form a valid path are not included in the returned list.

procedure

(find-executable-path program    
  [related    
  deepest?])  (or/c path? #f)
  program : path-string?
  related : (or/c path-string? #f) = #f
  deepest? : any/c = #f
Finds a path for the executable program, returning #f if the path cannot be found.

If related is not #f, then it must be a relative path string, and the path found for program must be such that the file or directory related exists in the same directory as the executable. The result is then the full path for the found related, instead of the path for the executable.

This procedure is used by the Racket executable to find the standard library collection directory (see Libraries and Collections). In this case, program is the name used to start Racket and related is "collects". The related argument is used because, on Unix and Mac OS X, program may involve a sequence of soft links; in this case, related determines which link in the chain is relevant.

If related is not #f, then when find-executable-path does not find a program that is a link to another file path, the search can continue with the destination of the link. Further links are inspected until related is found or the end of the chain of links is reached. If deepest? is #f (the default), then the result corresponds to the first path in a chain of links for which related is found (and further links are not actually explored); otherwise, the result corresponds to the last link in the chain for which related is found.

If program is a pathless name, find-executable-path gets the value of the PATH environment variable; if this environment variable is defined, find-executable-path tries each path in PATH as a prefix for program using the search algorithm described above for path-containing programs. If the PATH environment variable is not defined, program is prefixed with the current directory and used in the search algorithm above. (On Windows, the current directory is always implicitly the first item in PATH, so find-executable-path checks the current directory first on Windows.)

15.2.2 Files

procedure

(file-exists? path)  boolean?

  path : path-string?
Returns #t if a file (not a directory) path exists, #f otherwise.

On Windows, file-exists? reports #t for all variations of the special filenames (e.g., "LPT1", "x:/baddir/LPT1").

procedure

(link-exists? path)  boolean?

  path : path-string?
Returns #t if a link path exists, #f otherwise.

The predicates file-exists? or directory-exists? work on the final destination of a link or series of links, while link-exists? only follows links to resolve the base part of path (i.e., everything except the last name in the path).

This procedure never raises the exn:fail:filesystem exception.

On Windows, link-exists? reports #t for both symbolic links and junctions.

Changed in version 6.0.1.12 of package base: Added support for links on Windows.

procedure

(delete-file path)  void?

  path : path-string?
Deletes the file with path path if it exists, otherwise the exn:fail:filesystem exception is raised. If path is a link, the link is deleted rather than the destination of the link.

On Windows, if an initial attempt to delete the file fails with a permission error and the value of current-force-delete-permissions is true, then delete-file attempts to change the file’s permissions (to allow writes) and then delete the file; the permission change followed by deletion is a non-atomic sequence, with no attempt to revert a permission change if the deletion fails.

On Windows, delete-file can delete a symbolic link, but not a junction. Use delete-directory to delete a junction.

Changed in version 6.1.1.7 of package base: Changed Windows behavior to use current-force-delete-permissions.

procedure

(rename-file-or-directory old    
  new    
  [exists-ok?])  void?
  old : path-string?
  new : path-string?
  exists-ok? : any/c = #f
Renames the file or directory with path oldif it exists—to the path new. If the file or directory is not renamed successfully, the exn:fail:filesystem exception is raised.

This procedure can be used to move a file/directory to a different directory (on the same disk) as well as rename a file/directory within a directory. Unless exists-ok? is provided as a true value, new cannot refer to an existing file or directory. Even if exists-ok? is true, new cannot refer to an existing file when old is a directory, and vice versa.

If new exists and is replaced, the replacement is atomic on Unix and Mac OS X, but it is not guaranteed to be atomic on Windows. Furthermore, if new exists and is opened by any process for reading or writing, then attempting to replace it will typically fail on Windows. See also call-with-atomic-output-file.

If old is a link, the link is renamed rather than the destination of the link, and it counts as a file for replacing any existing new.

procedure

(file-or-directory-modify-seconds path    
  [secs-n])  exact-integer?
  path : path-string?
  secs-n : #f = #f
(file-or-directory-modify-seconds path    
  secs-n)  void?
  path : path-string?
  secs-n : exact-integer?
(file-or-directory-modify-seconds path    
  [secs-n    
  fail-thunk])  any
  path : path-string?
  secs-n : (or/c exact-integer? #f) = #f
  fail-thunk : (-> any)
   = (lambda () (raise (make-exn:fail:filesystem ....)))
Returns the file or directory’s last modification date in seconds since midnight UTC, January 1, 1970 (see also Time) when secs-n is not provided or is #f.

For FAT filesystems on Windows, directories do not have modification dates. Therefore, the creation date is returned for a directory, but the modification date is returned for a file.

If secs-n is provided and not #f, the access and modification times of path are set to the given time.

On error (e.g., if no such file exists), then fail-thunk is called (through a tail call) to produce the result of the file-or-directory-modify-seconds call. If fail-thunk is not provided, an error raises exn:fail:filesystem.

procedure

(file-or-directory-permissions path [mode])

  (listof (or/c 'read 'write 'execute))
  path : path-string?
  mode : #f = #f
(file-or-directory-permissions path mode)  (integer-in 0 65535)
  path : path-string?
  mode : 'bits
(file-or-directory-permissions path mode)  void
  path : path-string?
  mode : (integer-in 0 65535)
When given one argument or #f as the second argument, returns a list containing 'read, 'write, and/or 'execute to indicate permission the given file or directory path by the current user and group. On Unix and Mac OS X, permissions are checked for the current effective user instead of the real user.

If 'bits is supplied as the second argument, the result is a platform-specific integer encoding of the file or directory properties (mostly permissions), and the result is independent of the current user and group. The lowest nine bits of the encoding are somewhat portable, reflecting permissions for the file or directory’s owner, members of the file or directory’s group, or other users:

See also user-read-bit, etc. On Windows, permissions from all three (owner, group, and others) are always the same, and read and execute permission are always available. On Unix and Mac OS X, higher bits have a platform-specific meaning.

If an integer is supplied as the second argument, its is used as an encoding of properties (mostly permissions) to install for the file.

In all modes, the exn:fail:filesystem exception is raised on error (e.g., if no such file exists).

procedure

(file-or-directory-identity path [as-link?])

  exact-positive-integer?
  path : path-string?
  as-link? : any/c = #f
Returns a number that represents the identity of path in terms of the device and file or directory that it accesses. This function can be used to check whether two paths correspond to the same filesystem entity under the assumption that the path’s entity selection does not change.

If as-link? is a true value, then if path refers to a filesystem link, the identity of the link is returned instead of the identity of the referenced file or directory (if any).

procedure

(file-size path)  exact-nonnegative-integer?

  path : path-string?
Returns the (logical) size of the specified file in bytes. On Mac OS X, this size excludes the resource-fork size. On error (e.g., if no such file exists), the exn:fail:filesystem exception is raised.

procedure

(copy-file src dest [exists-ok?])  void?

  src : path-string?
  dest : path-string?
  exists-ok? : any/c = #f
Creates the file dest as a copy of src, if dest does not already exist. If dest already exists and exists-ok? is #f, the copy fails with exn:fail:filesystem:exists? exception is raised; otherwise, if dest exists, its content is replaced with the content of src. File permissions are transferred from src to dest; on Windows, the modification time of src is also transferred to dest. If src refers to a link, the target of the link is copied, rather than the link itself; if dest refers to a link and exists-ok? is true, the target of the link is updated.

procedure

(make-file-or-directory-link to path)  void?

  to : path-string?
  path : path-string?
Creates a link path to to. The creation will fail if path already exists. The to need not refer to an existing file or directory, and to is not expanded before writing the link. If the link is not created successfully,the exn:fail:filesystem exception is raised.

On Windows XP and earlier, the exn:fail:unsupported exception is raised. On later versions of Windows, the creation of links tends to be disallowed by security policies. Furthermore, a relative-path link is parsed specially; see Windows Paths for more information. When make-file-or-directory-link succeeds, it creates a symbolic link as opposed to a junction.

Changed in version 6.0.1.12 of package base: Added support for links on Windows.

A parameter that determines on Windows whether delete-file and delete-directory attempt to change a file or directory’s permissions to delete it. The default value is #t.

15.2.3 Directories

See also: rename-file-or-directory, file-or-directory-modify-seconds, file-or-directory-permissions.

parameter

(current-directory)  (and/c path? complete-path?)

(current-directory path)  void?
  path : path-string?
A parameter that determines the current directory for resolving relative paths.

When the parameter procedure is called to set the current directory, the path argument is cleansed using cleanse-path, simplified using simplify-path, and then converted to a directory path with path->directory-path; cleansing and simplification raise an exception if the path is ill-formed. Thus, the current value of current-directory is always a cleansed, simplified, complete, directory path.

The path is not checked for existence when the parameter is set.

On Unix and Mac OS X, the initial value of the parameter for a Racket process is taken from the PWD environment variable—if the value of the environment variable identifies the same directory as the operating system’s report of the current directory.

Like current-directory, but use only by srcloc->string for reporting paths relative to a directory.

Normally, current-directory-for-user should stay at its initial value, reflecting the directory where a user started a process. A tool such as DrRacket, however, implicitly lets a user select a directory (for the file being edited), in which case updating current-directory-for-user makes sense.

procedure

(current-drive)  path?

Returns the current drive name Windows. For other platforms, the exn:fail:unsupported exception is raised. The current drive is always the drive of the current directory.

procedure

(directory-exists? path)  boolean?

  path : path-string?
Returns #t if path refers to a directory, #f otherwise.

procedure

(make-directory path)  void?

  path : path-string?
Creates a new directory with the path path. If the directory is not created successfully, the exn:fail:filesystem exception is raised.

procedure

(delete-directory path)  void?

  path : path-string?
Deletes an existing directory with the path path. If the directory is not deleted successfully, the exn:fail:filesystem exception is raised.

On Windows, if an initial attempt to delete the directory fails with a permission error and the value of current-force-delete-permissions is true, then delete-file attempts to change the directory’s permissions (to allow writes) and then delete the directory; the permission change followed by deletion is a non-atomic sequence, with no attempt to revert a permission change if the deletion fails.

Changed in version 6.1.1.7 of package base: Changed Windows behavior to use current-force-delete-permissions.

procedure

(directory-list [path #:build? build?])  (listof path?)

  path : path-string? = (current-directory)
  build? : any/c = #f

See also the in-directory sequence constructor.

Returns a list of all files and directories in the directory specified by path. If build? is #f, the resulting paths are all path elements; otherwise, the individual results are combined with path using build-path. On Windows, an element of the result list may start with \\?\REL\\.

The resulting paths are always sorted using path<?.

procedure

(filesystem-root-list)  (listof path?)

Returns a list of all current root directories. Obtaining this list can be particularly slow on Windows.

15.2.4 Detecting Filesystem Changes

Many operating systems provide notifications for filesystem changes, and those notifications are reflected in Racket by filesystem change events.

procedure

(filesystem-change-evt? v)  boolean?

  v : any/c
Returns #f if v is a filesystem change event, #f otherwise.

procedure

(filesystem-change-evt path)  filesystem-change-evt?

  path : path-string?
(filesystem-change-evt path failure-thunk)  any
  path : path-string?
  failure-thunk : (-> any)
Creates a filesystem change event, which is a synchronizable event that becomes ready for synchronization after a change to path:

The event also becomes ready for synchronization if it is passed to filesystem-change-evt-cancel.

Finally, depending on the precision of information available from the operating system, the event may become ready for synchronization under other circumstances. For example, on Windows, an event for a file becomes ready when any file changes within in the same directory as the file.

After a filesystem change event becomes ready for synchronization, it stays ready for synchronization. The event’s synchronization result is the event itself.

If the current platform does not support filesystem-change notifications, then the exn:fail:unsupported exception is raised if failure-thunk is not provided, or failure-thunk is called in tail position if provided. Similarly, if there is any operating-system error when creating the event (such as a non-existent file), then the exn:fail:filesystem exception is raised or failure-thunk is called.

Creation of a filesystem change event alloates resources at the operating-system level. The resources are released at latest when the event is sychronized and ready for synchronization or when the event is canceled with filesystem-change-evt-cancel. See also system-type in 'fs-change mode.

A filesystem change event is placed under the management of the current custodian when it is created. If the custodian is shut down, filesystem-change-evt-cancel is applied to the event.

Causes evt to become immediately ready for synchronization, whether it was ready or before not, and releases and resources (at the operating-system level) for tracking filesystem changes.

15.2.5 Declaring Paths Needed at Run Time

 (require racket/runtime-path) package: base
The bindings documented in this section are provided by the racket/runtime-path library, not racket/base or racket.

The racket/runtime-path library provides forms for accessing files and directories at run time using a path that are usually relative to an enclosing source file. Unlike using collection-path, define-runtime-path exposes each run-time path to tools like the executable and distribution creators, so that files and directories needed at run time are carried along in a distribution.

In addition to the bindings described below, racket/runtime-path provides #%datum in phase level 1, since string constants are often used as compile-time expressions with define-runtime-path.

syntax

(define-runtime-path id expr)

Uses expr as both a compile-time (i.e., phase 1) expression and a run-time (i.e., phase 0) expression. In either context, expr should produce a path, a string that represents a path, a list of the form (list 'lib str ...+), or a list of the form (list 'so str) or (list 'so str vers).

For run time, id is bound to a path that is based on the result of expr. The path is normally computed by taking a relative path result from expr and adding it to a path for the enclosing file (which is computed as described below). However, tools like the executable creator can also arrange (by colluding with racket/runtime-path) to have a different base path substituted in a generated executable. If expr produces an absolute path, it is normally returned directly, but again may be replaced by an executable creator. In all cases, the executable creator preserves the relative locations of all paths within a given package (treating paths outside of any package as being together). When expr produces a relative or absolute path, then the path bound to id is always an absolute path.

If expr produces a list of the form (list 'lib str ...+), the value bound to id is an absolute path. The path refers to a collection-based file similar to using the value as a module path.

If expr produces a list of the form (list 'so str) or (list 'so str vers), the value bound to id can be either str or an absolute path; it is an absolute path when searching in the Racket-specific shared-object library directories (as determined by get-lib-search-dirs) locates the path. In this way, shared-object libraries that are installed specifically for Racket get carried along in distributions. The search tries each directory in order; within a directory, the search tries using str directly, then it tries adding each version specified by verswhich defaults to '(#f)along with a platform-specific shared-library extension—as produced by (system-type 'so-suffix). A vers can be a string, or it can be a list of strings and #f.

If expr produces a list of the form (list 'module module-path var-ref) or (list 'so str (list str-or-false ...)), the value bound to id is a module path index, where module-path is treated as relative (if it is relative) to the module that is the home of the variable reference var-ref, where var-ref can be #f if module-path is absolute. In an executable, the corresponding module is carried along, including all of its dependencies.

For compile-time, the expr result is used by an executable creator—but not the result when the containing module is compiled. Instead, expr is preserved in the module as a compile-time expression (in the sense of begin-for-syntax). Later, at the time that an executable is created, the compile-time portion of the module is executed (again), and the result of expr is the file to be included with the executable. The reason for the extra compile-time execution is that the result of expr might be platform-dependent, so the result should not be stored in the (platform-independent) bytecode form of the module; the platform at executable-creation time, however, is the same as at run time for the executable. Note that expr is still evaluated at run-time; consequently, avoid procedures like collection-path, which depends on the source installation, and instead use relative paths and forms like (list 'lib str ...+).

If a path is needed only on some platforms and not on others, use define-runtime-path-list with an expr that produces an empty list on platforms where the path is not needed.

Beware that define-runtime-path in a phase level other than 0 does not cooperate properly with an executable creator. To work around that limitation, put define-runtime-path in a separate module—perhaps a submodule created by modulethen export the definition, and then the module containing the definition can be required into any phase level. Using define-runtime-path in a phase level other than 0 logs a warning at expansion time.

The enclosing path for a define-runtime-path is determined as follows from the define-runtime-path syntactic form:

In the latter two cases, the path is normally preserved in (platform-specific) byte form, but if the enclosing path corresponds to a result of collection-file-path, then the path is record as relative to the corresponding module path.

Changed in version 6.0.1.6 of package base: Preserve relative paths only within a package.

Examples:

; Access a file "data.txt" at run-time that is originally
; located in the same directory as the module source file:
(define-runtime-path data-file "data.txt")
(define (read-data)
  (with-input-from-file data-file
    (lambda ()
      (read-bytes (file-size data-file)))))
 
; Load a platform-specific shared object (using ffi-lib)
; that is located in a platform-specific sub-directory of the
; module's source directory:
(define-runtime-path libfit-path
  (build-path "compiled" "native" (system-library-subpath #f)
              (path-replace-suffix "libfit"
                                   (system-type 'so-suffix))))
(define libfit (ffi-lib libfit-path))
 
; Load a platform-specific shared object that might be installed
; as part of the operating system, or might be installed
; specifically for Racket:
(define-runtime-path libssl-so
  (case (system-type)
    [(windows) '(so "ssleay32")]
    [else '(so "libssl")]))
(define libssl (ffi-lib libssl-so))

syntax

(define-runtime-paths (id ...) expr)

Like define-runtime-path, but declares and binds multiple paths at once. The expr should produce as many values as ids.

syntax

(define-runtime-path-list id expr)

Like define-runtime-path, but expr should produce a list of paths.

syntax

(define-runtime-module-path-index id module-path-expr)

Similar to define-runtime-path, but id is bound to a module path index that encapsulates the result of module-path-expr relative to the enclosing module.

Use define-runtime-module-path-index to bind a module path that is passed to a reflective function like dynamic-require while also creating a module dependency for building and distributing executables.

syntax

(runtime-require module-path)

Similar to define-runtime-module-path-index, but creates the distribution dependency without binding a module path index. When runtime-require is used multiple times within a module with the same module-path, all but the first use expands to an empty begin.

syntax

(define-runtime-module-path id module-path)

Similar to define-runtime-path, but id is bound to a resolved module path. The resolved module path for id corresponds to module-path (with the same syntax as a module path for require), which can be relative to the enclosing module.

The define-runtime-module-path-index form is usually preferred, because it creates a weaker link to the referenced module. Unlike define-runtime-module-path-index, the define-runtime-module-path form creates a for-label dependency from an enclosing module to module-path. Since the dependency is merely for-label, module-path is not instantiated or visited when the enclosing module is instantiated or visited (unless such a dependency is created by other requires), but the code for the referenced module is loaded when the enclosing module is loaded.

syntax

(runtime-paths module-path)

This form is mainly for use by tools such as executable builders. It expands to a quoted list containing the run-time paths declared by module-path, returning the compile-time results of the declaration exprs, except that paths are converted to byte strings. The enclosing module must require (directly or indirectly) the module specified by module-path, which is an unquoted module path. The resulting list does not include module paths bound through define-runtime-module-path.

15.2.6 More File and Directory Utilities

 (require racket/file) package: base
The bindings documented in this section are provided by the racket/file and racket libraries, but not racket/base.

procedure

(file->string path [#:mode mode-flag])  string?

  path : path-string?
  mode-flag : (or/c 'binary 'text) = 'binary
Reads all characters from path and returns them as a string. The mode-flag argument is the same as for open-input-file.

procedure

(file->bytes path [#:mode mode-flag])  bytes?

  path : path-string?
  mode-flag : (or/c 'binary 'text) = 'binary
Reads all characters from path and returns them as a byte string. The mode-flag argument is the same as for open-input-file.

procedure

(file->value path [#:mode mode-flag])  any

  path : path-string?
  mode-flag : (or/c 'binary 'text) = 'binary
Reads a single S-expression from path using read. The mode-flag argument is the same as for open-input-file.

procedure

(file->list path [proc #:mode mode-flag])  (listof any/c)

  path : path-string?
  proc : (input-port? . -> . any/c) = read
  mode-flag : (or/c 'binary 'text) = 'binary
Repeatedly calls proc to consume the contents of path, until eof is produced. The mode-flag argument is the same as for open-input-file.

procedure

(file->lines path    
  [#:mode mode-flag    
  #:line-mode line-mode])  (listof string?)
  path : path-string?
  mode-flag : (or/c 'binary 'text) = 'binary
  line-mode : (or/c 'linefeed 'return 'return-linefeed 'any 'any-one)
   = 'any
Read all characters from path, breaking them into lines. The line-mode argument is the same as the second argument to read-line, but the default is 'any instead of 'linefeed. The mode-flag argument is the same as for open-input-file.

procedure

(file->bytes-lines path    
  [#:mode mode-flag    
  #:line-mode line-mode])  (listof bytes?)
  path : path-string?
  mode-flag : (or/c 'binary 'text) = 'binary
  line-mode : (or/c 'linefeed 'return 'return-linefeed 'any 'any-one)
   = 'any
Like file->lines, but reading bytes and collecting them into lines like read-bytes-line.

procedure

(display-to-file v    
  path    
  [#:mode mode-flag    
  #:exists exists-flag])  void?
  v : any/c
  path : path-string?
  mode-flag : (or/c 'binary 'text) = 'binary
  exists-flag : 
(or/c 'error 'append 'update
      'replace 'truncate 'truncate/replace)
   = 'error
Uses display to print v to path. The mode-flag and exists-flag arguments are the same as for open-output-file.

procedure

(write-to-file v    
  path    
  [#:mode mode-flag    
  #:exists exists-flag])  void?
  v : any/c
  path : path-string?
  mode-flag : (or/c 'binary 'text) = 'binary
  exists-flag : 
(or/c 'error 'append 'update
      'replace 'truncate 'truncate/replace)
   = 'error
Like display-to-file, but using write instead of display.

procedure

(display-lines-to-file lst    
  path    
  [#:separator separator    
  #:mode mode-flag    
  #:exists exists-flag])  void?
  lst : list?
  path : path-string?
  separator : any/c = #"\n"
  mode-flag : (or/c 'binary 'text) = 'binary
  exists-flag : 
(or/c 'error 'append 'update
      'replace 'truncate 'truncate/replace)
   = 'error
Displays each element of lst to path, adding separator after each element. The mode-flag and exists-flag arguments are the same as for open-output-file.

procedure

(copy-directory/files 
  src 
  dest 
  #:keep-modify-seconds? keep-modify-seconds? 
  #:preserve-links? preserve-links?) 
  void?
  src : path-string?
  dest : path-string?
  keep-modify-seconds? : #f
  preserve-links? : #f
Copies the file or directory src to dest, raising exn:fail:filesystem if the file or directory cannot be copied, possibly because dest exists already. If src is a directory, the copy applies recursively to the directory’s content. If a source is a link and preserve-links? is #f, the target of the link is copied rather than the link itself; if preserve-links? is #t, the link is copied.

If keep-modify-seconds? is #f, then file copies keep only the properties kept by copy-file. If keep-modify-seconds? is true, then each file copy also keeps the modification date of the original.

Changed in version 6.3 of package base: Added the #:preserve-links? argument.

procedure

(delete-directory/files path    
  #:must-exist? must-exist?)  void?
  path : path-string?
  must-exist? : #t
Deletes the file or directory specified by path, raising exn:fail:filesystem if the file or directory cannot be deleted. If path is a directory, then delete-directory/files is first applied to each file and directory in path before the directory is deleted.

If must-exist? is true, then exn:fail:filesystem is raised if path does not exist. If must-exist? is false, then delete-directory/files succeeds if path does not exist (but a failure is possible if path initially exists and is removed by another thread or process before delete-directory/files deletes it).

procedure

(find-files predicate    
  [start-path]    
  #:follow-links? follow-links?)  (listof path?)
  predicate : (path? . -> . any/c)
  start-path : (or/c path-string? #f) = #f
  follow-links? : #f
Traverses the filesystem starting at start-path and creates a list of all files and directories for which predicate returns true. If start-path is #f, then the traversal starts from (current-directory). In the resulting list, each directory precedes its content.

The predicate procedure is called with a single argument for each file or directory. If start-path is #f, the argument is a pathname string that is relative to the current directory. Otherwise, it is a path building on start-path. Consequently, supplying (current-directory) for start-path is different from supplying #f, because predicate receives complete paths in the former case and relative paths in the latter. Another difference is that predicate is not called for the current directory when start-path is #f.

If follow-links? is true, the find-files traversal follows links, and links are not included in the result. If follow-links? is #f, then links are not followed, and links are included in the result.

If start-path does not refer to an existing file or directory, then predicate will be called exactly once with start-path as the argument.

The find-files procedure raises an exception if it encounters a directory for which directory-list fails.

procedure

(pathlist-closure path-list 
  #:follow-links? follow-links?) 
  (listof path?)
  path-list : (listof path-string?)
  follow-links? : #f
Given a list of paths, either absolute or relative to the current directory, returns a list such that

If follow-links? is true, then the traversal of directories and files follows links, and the link paths are not included in the result. If follow-links? is #f, then he result list includes paths to link and the links are not followed.

procedure

(fold-files proc    
  init-val    
  [start-path    
  follow-links?])  any
  proc : 
(or/c (path? (or/c 'file 'dir 'link) any/c
        . -> . any/c)
      (path? (or/c 'file 'dir 'link) any/c
        . -> . (values any/c any/c)))
  init-val : any/c
  start-path : (or/c path-string? #f) = #f
  follow-links? : any/c = #t
Traverses the filesystem starting at start-path, calling proc on each discovered file, directory, and link. If start-path is #f, then the traversal starts from (current-directory).

The proc procedure is called with three arguments for each file, directory, or link:

The proc argument is used in an analogous way to the procedure argument of foldl, where its result is used as the new accumulated result. There is an exception for the case of a directory (when the second argument is 'dir): in this case the procedure may return two values, the second indicating whether the recursive scan should include the given directory or not. If it returns a single value, the directory is scanned. In the cases of files or links (when the second argument is 'file or 'link), a second value is permitted but ignored.

If the start-path is provided but no such path exists, or if paths disappear during the scan, then an exception is raised.

procedure

(make-directory* path)  void?

  path : path-string?
Creates directory specified by path, creating intermediate directories as necessary, and never failing if path exists already.

If path is a relative path and the current directory does not exist, then make-directory* will not create the current directory, because it considers only explicit elements of path.

procedure

(make-parent-directory* path)  void?

  path : path-string?
Creates the parent directory of the path specified by path, creating intermediate directories as necessary, and never failing if an ancestor of path exists already.

If path is a filesystem root or a relative path with a single path element, then no directory is created. Like make-directory*, if path is a relative path and the current directory does not exist, then make-parent-directory* will not create it.

Added in version 6.1.1.3 of package base.

procedure

(make-temporary-file [template    
  copy-from-filename    
  directory])  path?
  template : string? = "rkttmp~a"
  copy-from-filename : (or/c path-string? #f 'directory) = #f
  directory : (or/c path-string? #f) = #f
Creates a new temporary file and returns a pathname string for the file. Instead of merely generating a fresh file name, the file is actually created; this prevents other threads or processes from picking the same temporary name.

The template argument must be a format string suitable for use with format and one additional string argument (where the string contains only digits). If the resulting string is a relative path, it is combined with the result of (find-system-path 'temp-dir), unless directory is provided and non-#f, in which case the file name generated from template is combined with directory to obtain a full path.

The template argument’s default is only the string "rkttmp~a" when there is no source location information for the callsite of make-temporary-file (or if make-temporary-file is used in a higher-order position). If there is such information, then the template string is based on the source location.

If copy-from-filename is provided as path, the temporary file is created as a copy of the named file (using copy-file). If copy-from-filename is #f, the temporary file is created as empty. If copy-from-filename is 'directory, then the temporary “file” is created as a directory.

When a temporary file is created, it is not opened for reading or writing when the pathname is returned. The client program calling make-temporary-file is expected to open the file with the desired access and flags (probably using the 'truncate flag; see open-output-file) and to delete it when it is no longer needed.

procedure

(call-with-atomic-output-file file 
  proc 
  [#:security-guard security-guard]) 
  any
  file : path-string?
  proc : ([port output-port?] [tmp-path path?]  . -> . any)
  security-guard : (or/c #f security-guard?) = #f
Opens a temporary file for writing in the same directory as file, calls proc to write to the temporary file, and then atomically moves the temporary file in place of proc. The atomic move simply uses rename-file-or-directory on Unix and Mac OS X, but it uses an extra rename step (see below) on Windows to avoid problems due to concurrent readers of file.

The proc function is called with an output port for the temporary file, plus the path of the temporary file. The result of proc is the result of call-with-atomic-output-file.

The call-with-atomic-output-file function arranges to delete temporary files on exceptions.

Windows prevents programs from deleting or replacing files that are open, but it allows renaming of open files. Therefore, on Windows, call-with-atomic-output-file creates a second temporary file extra-tmp-file, renames file to extra-tmp-file, renames the temporary file written by proc to file, and finally deletes extra-tmp-file.

procedure

(get-preference name    
  [failure-thunk    
  flush-mode    
  filename    
  #:use-lock? use-lock?    
  #:timeout-lock-there timeout-lock-there    
  #:lock-there lock-there])  any
  name : symbol?
  failure-thunk : (-> any) = (lambda () #f)
  flush-mode : any/c = 'timestamp
  filename : (or/c string-path? #f) = #f
  use-lock? : any/c = #t
  timeout-lock-there : (or/c (path? . -> . any) #f) = #f
  lock-there : (or/c (path? . -> . any) #f)
   = 
(make-handle-get-preference-locked
 0.01 name failure-thunk flush-mode filename
 #:lock-there timeout-lock-there)
Extracts a preference value from the file designated by (find-system-path 'pref-file), or by filename if it is provided and is not #f. In the former case, if the preference file doesn’t exist, get-preferences attempts to read an old preferences file, and then a "racket-prefs.rktd" file in the configuration directory (as reported by find-config-dir), instead. If none of those files exists, the preference set is empty.

The preference file should contain a list of symbol–value lists written with the default parameter settings. Keys starting with racket:, mzscheme:, mred:, and plt: in any letter case are reserved for use by Racket implementors. If the preference file does not contain a list of symbol–value lists, an error is logged via log-error and failure-thunk is called.

The result of get-preference is the value associated with name if it exists in the association list, or the result of calling failure-thunk otherwise.

Preference settings are cached (weakly) across calls to get-preference, using (path->complete-path filename) as a cache key. If flush-mode is provided as #f, the cache is used instead of re-consulting the preferences file. If flush-mode is provided as 'timestamp (the default), then the cache is used only if the file has a timestamp that is the same as the last time the file was read. Otherwise, the file is re-consulted.

On platforms for which preferences-lock-file-mode returns 'file-lock and when use-lock? is true, preference-file reading is guarded by a lock; multiple readers can share the lock, but writers take the lock exclusively. If the preferences file cannot be read because the lock is unavailable, lock-there is called on the path of the lock file; if lock-there is #f, an exception is raised. The default lock-there handler retries about 5 times (with increasing delays between each attempt) before trying timeout-lock-there, and the default timeout-lock-there triggers an exception.

See also put-preferences. For a more elaborate preference system, see preferences:get.

Old preferences files: When a filename is not provided and the file indicated by (find-system-path 'pref-file) does not exist, the following paths are checked for compatibility with old versions of Racket:

procedure

(put-preferences names    
  vals    
  [locked-proc    
  filename])  void?
  names : (listof symbol?)
  vals : list?
  locked-proc : (or/c #f (path? . -> . any)) = #f
  filename : (or/c #f path-string?) = #f
Installs a set of preference values and writes all current values to the preference file designated by (find-system-path 'pref-file), or filename if it is supplied and not #f.

The names argument supplies the preference names, and vals must have the same length as names. Each element of vals must be an instance of a built-in data type whose write output is readable (i.e., the print-unreadable parameter is set to #f while writing preferences).

Current preference values are read from the preference file before updating, and a write lock is held starting before the file read, and lasting until after the preferences file is updated. The lock is implemented by the existence of a file in the same directory as the preference file; see preferences-lock-file-mode for more information. If the directory of the preferences file does not already exist, it is created.

If the write lock is already held, then locked-proc is called with a single argument: the path of the lock file. The default locked-proc (used when the locked-proc argument is #f) reports an error; an alternative thunk might wait a while and try again, or give the user the choice to delete the lock file (in case a previous update attempt encountered disaster and locks are implemented by the presence of the lock file).

If filename is #f or not supplied, and the preference file does not already exist, then values read from the "defaults" collection (if any) are written for preferences that are not mentioned in names.

procedure

(preferences-lock-file-mode)  (or/c 'exists 'file-lock)

Reports the way that the lock file is used to implement preference-file locking on the current platform.

The 'exists mode is currently used on all platforms except Windows. In 'exists mode, the existence of the lock file indicates that a write lock is held, and readers need no lock (because the preferences file is atomically updated via rename-file-or-directory).

The 'file-lock mode is currently used on Windows. In 'file-lock mode, shared and exclusive locks (in the sense of port-try-file-lock?) on the lock file reflect reader and writer locks on the preference-file content. (The preference file itself is not locked, because a lock would interfere with replacing the file via rename-file-or-directory.)

procedure

(make-handle-get-preference-locked delay 
  name 
  [failure-thunk 
  flush-mode 
  filename 
  #:lock-there lock-there 
  #:max-delay max-delay]) 
  (path-string? . -> . any)
  delay : real?
  name : symbol?
  failure-thunk : (-> any) = (lambda () #f)
  flush-mode : any/c = 'timestamp
  filename : (or/c path-string? #f) = #f
  lock-there : (or/c (path? . -> . any) #f) = #f
  max-delay : real? = 0.2
Creates a procedure suitable for use as the #:lock-there argument to get-preference, where the name, failure-thunk, flush-mode, and filename are all passed on to get-preference by the result procedure to retry the preferences lookup.

Before calling get-preference, the result procedure uses (sleep delay) to pause. Then, if (* 2 delay) is less than max-delay, the result procedure calls make-handle-get-preference-locked to generate a new retry procedure to pass to get-preference, but with a delay of (* 2 delay). If (* 2 delay) is not less than max-delay, then get-preference is called with the given lock-there, instead.

procedure

(call-with-file-lock/timeout filename    
  kind    
  thunk    
  failure-thunk    
  [#:lock-file lock-file    
  #:delay delay    
  #:max-delay max-delay])  any
  filename : (or/c path-string? #f)
  kind : (or/c 'shared 'exclusive)
  thunk : (-> any)
  failure-thunk : (-> any)
  lock-file : (or/c #f path-string?) = #f
  delay : (and/c real? (not/c negative?)) = 0.01
  max-delay : (and/c real? (not/c negative?)) = 0.2
Obtains a lock for the filename lock-file and then calls thunk. The filename argument specifies a file path prefix that is used only to generate the lock filename when lock-file is #f. Specifically, when lock-file is #f, then call-with-file-lock/timeout uses make-lock-file-name to build the lock filename. If the lock file does not yet exist, it is created; beware that the lock file is not deleted by call-with-file-lock/timeout.

When thunk returns, call-with-file-lock/timeout releases the lock, returning the result of thunk. The call-with-file-lock/timeout function will retry after delay seconds and continue retrying with exponential backoff until delay reaches max-delay. If call-with-file-lock/timeout fails to obtain the lock, failure-thunk is called in tail position. The kind argument specifies whether the lock is 'shared or 'exclusive in the sense of port-try-file-lock?.

Examples:

> (call-with-file-lock/timeout filename 'exclusive
    (lambda () (printf "File is locked\n"))
    (lambda () (printf "Failed to obtain lock for file\n")))

File is locked

> (call-with-file-lock/timeout #f 'exclusive
    (lambda ()
      (call-with-file-lock/timeout filename 'shared
        (lambda () (printf "Shouldn't get here\n"))
        (lambda () (printf "Failed to obtain lock for file\n"))))
    (lambda () (printf "Shouldn't get here either\n"))
    #:lock-file (make-lock-file-name filename))

Failed to obtain lock for file

procedure

(make-lock-file-name path)  path?

  path : (or path-string? path-for-some-system?)
(make-lock-file-name dir name)  path?
  dir : (or path-string? path-for-some-system?)
  name : path-element?
Creates a lock filename by prepending "_LOCK" on Windows (i.e., when cross-system-type reports 'windows) or ".LOCK" on other platforms to the file portion of the path.

Example:

> (make-lock-file-name "/home/george/project/important-file")

#<path:/home/george/project/.LOCKimportant-file>

value

user-read-bit : #o400

value

user-write-bit : #o200

value

user-execute-bit : #o100

value

group-read-bit : #o040

value

group-write-bit : #o020

value

group-execute-bit : #o010

value

other-read-bit : #o004

value

other-write-bit : #o002

value

other-execute-bit : #o001

Constants that are useful with file-or-directory-permissions and bitwise operations such as bitwise-ior, and bitwise-and.