13.1.5 File Ports
A port created by open-input-file, open-output-file, subprocess, and related functions is a file-stream port. The initial input, output, and error ports in racket are also file-stream ports. The file-stream-port? predicate recognizes file-stream ports.
When an input or output file-stream port is created, it is placed into the management of the current custodian (see Custodians). In the case of an output port, a flush callback is registered with the current plumber to flush the port.
procedure
(open-input-file path [ #:mode mode-flag #:for-module? for-module?]) → input-port? path : path-string? mode-flag : (or/c 'binary 'text) = 'binary for-module? : any/c = #f
'binary —
bytes are returned from the port exactly as they are read from the file. 'text —
return and linefeed bytes (10 and 13) as read from the file are filtered by the port in a platform specific manner: Unix and Mac OS: no filtering occurs.
Windows: a return-linefeed combination from a file is returned by the port as a single linefeed; no filtering occurs for return bytes that are not followed by a linefeed, or for a linefeed that is not preceded by a return.
On Windows, 'text mode works only with regular files; attempting to use 'text with other kinds of files triggers an exn:fail:filesystem exception.
Otherwise, the file specified by path need not be a regular file. It might be a device that is connected through the filesystem, such as "aux" on Windows or "/dev/null" on Unix. In all cases, the port is buffered by default.
The port produced by open-input-file should be explicitly closed, either though close-input-port or indirectly via custodian-shutdown-all, to release the OS-level file handle. The input port will not be closed automatically if it is otherwise available for garbage collection (see Garbage Collection); a will could be associated with an input port to close it more automatically (see Wills and Executors).
A path value that is the cleansed version of path is used as the name of the opened port.
If opening the file fails due to an error in the filesystem,
then exn:fail:filesystem:errno exception is raised—
Changed in version 6.0.1.6 of package base: Added #:for-module?.
> (with-output-to-file some-file (lambda () (printf "hello world"))) > (define in (open-input-file some-file)) > (read-string 11 in) "hello world"
> (close-input-port in)
procedure
(open-output-file path [ #:mode mode-flag #:exists exists-flag]) → output-port? path : path-string? mode-flag : (or/c 'binary 'text) = 'binary
exists-flag :
(or/c 'error 'append 'update 'can-update 'replace 'truncate 'must-truncate 'truncate/replace) = 'error
'binary —
bytes are written to the file exactly as written to the port. 'text —
on Windows, a linefeed byte (10) written to the port is translated to a return-linefeed combination in the file; no filtering occurs for returns.
On Windows, 'text mode works only with regular files; attempting to use 'text with other kinds of files triggers an exn:fail:filesystem exception.
The exists-flag argument specifies how to handle/require files that already exist:
'error —
raise exn:fail:filesystem if the file exists. 'replace —
remove the old file, if it exists, and write a new one. 'must-truncate —
remove all old data in an existing file; if the file does not exist, the exn:fail:filesystem exception is raised. 'truncate/replace —
try 'truncate; if it fails (perhaps due to file permissions), try 'replace. 'update —
open an existing file without truncating it; if the file does not exist, the exn:fail:filesystem exception is raised. Use file-position to change the current read/write position. 'can-update —
open an existing file without truncating it, or create the file if it does not exist. 'append —
append to the end of the file, whether it already exists or not; on Windows, 'append is equivalent to 'update, except that the file is not required to exist, and the file position is immediately set to the end of the file after opening it.
The file specified by path need not be a regular file. It might be a device that is connected through the filesystem, such as "aux" on Windows or "/dev/null" on Unix. The output port is block-buffered by default, unless the file corresponds to a terminal, in which case it is line-buffered by default. On Unix and Mac OS, if the file is a fifo, then the port will block for writing until a reader for the fifo is available; see also port-waiting-peer?.
The port produced by open-output-file should be explicitly closed, either though close-output-port or indirectly via custodian-shutdown-all, to release the OS-level file handle. The output port will not be closed automatically if it is otherwise available for garbage collection (see Garbage Collection); a will could be associated with an output port to close it more automatically (see Wills and Executors).
A path value that is the cleansed version of path is used as the name of the opened port.
If opening the file fails due to an error in the underlying filesystem then exn:fail:filesystem:errno exception is raised.
> (define out (open-output-file some-file)) > (write "hello world" out) > (close-output-port out)
Changed in version 6.9.0.6 of package base: On Unix and Mac OS, make 'truncate/replace
replace on a permission error. On Windows, make
'replace always replace instead truncating
like 'truncate/replace.
Changed in version 7.4.0.5: Changed handling of a fifo on Unix and Mac OS to
make the port block for output until the fifo has a
reader.
procedure
(open-input-output-file path [ #:mode mode-flag #:exists exists-flag])
→
input-port? output-port? path : path-string? mode-flag : (or/c 'binary 'text) = 'binary
exists-flag :
(or/c 'error 'append 'update 'can-update 'replace 'truncate 'truncate/replace) = 'error
procedure
(call-with-input-file path proc [ #:mode mode-flag]) → any path : path-string? proc : (input-port? . -> . any) mode-flag : (or/c 'binary 'text) = 'binary
> (with-output-to-file some-file (lambda () (printf "text in a file")))
> (call-with-input-file some-file (lambda (in) (read-string 14 in))) "text in a file"
procedure
(call-with-output-file path proc [ #:mode mode-flag #:exists exists-flag]) → any path : path-string? proc : (output-port? . -> . any) mode-flag : (or/c 'binary 'text) = 'binary
exists-flag :
(or/c 'error 'append 'update 'replace 'truncate 'truncate/replace) = 'error
> (call-with-output-file some-file (lambda (out) (write 'hello out)))
> (call-with-input-file some-file (lambda (in) (read-string 5 in))) "hello"
procedure
(call-with-input-file* path proc [ #:mode mode-flag]) → any path : path-string? proc : (input-port? . -> . any) mode-flag : (or/c 'binary 'text) = 'binary
procedure
(call-with-output-file* path proc [ #:mode mode-flag #:exists exists-flag]) → any path : path-string? proc : (output-port? . -> . any) mode-flag : (or/c 'binary 'text) = 'binary
exists-flag :
(or/c 'error 'append 'update 'replace 'truncate 'truncate/replace) = 'error
procedure
(with-input-from-file path thunk [ #:mode mode-flag]) → any path : path-string? thunk : (-> any) mode-flag : (or/c 'binary 'text) = 'binary
> (with-output-to-file some-file (lambda () (printf "hello")))
> (with-input-from-file some-file (lambda () (read-string 5))) "hello"
procedure
(with-output-to-file path thunk [ #:mode mode-flag #:exists exists-flag]) → any path : path-string? thunk : (-> any) mode-flag : (or/c 'binary 'text) = 'binary
exists-flag :
(or/c 'error 'append 'update 'replace 'truncate 'truncate/replace) = 'error
> (with-output-to-file some-file (lambda () (printf "hello")))
> (with-input-from-file some-file (lambda () (read-string 5))) "hello"
procedure
(port-try-file-lock? port mode) → boolean?
port : file-stream-port? mode : (or/c 'shared 'exclusive)
The result is #t if the requested lock is acquired, #f otherwise. When a lock is acquired, it is held until either it is released with port-file-unlock or the port is closed (perhaps because the process terminates).
Depending on the platform, locks may be merely advisory (i.e., locks affect only the ability of processes to acquire locks) or they may correspond to mandatory locks that prevent reads and writes to the locked file. Specifically, locks are mandatory on Windows and advisory on other platforms. Multiple tries for a 'shared lock on a single port can succeed; on Unix and Mac OS, a single port-file-unlock release the lock, while on other Windows, a port-file-unlock is needed for each successful port-try-file-lock?. On Unix and Mac OS, multiple tries for a 'exclusive lock can succeed and a single port-file-unlock releases the lock, while on Windows, a try for an 'exclusive lock fails for a given port if the port already holds the lock.
A lock acquired for an input port from open-input-output-file can be released through port-file-unlock on the corresponding output port, and vice versa. If the output port from open-input-output-file holds an 'exclusive lock, the corresponding input port can still acquire a 'shared lock, even multiple times; on Windows, a port-file-unlock is needed for each successful lock try, while a single port-file-unlock balances the lock tries on Unix and Mac OS. A 'shared lock on an input port can be upgraded to an 'exclusive lock through the corresponding output port on Unix and Mac OS, in which case a single port-file-unlock (on either port) releases the lock, while such upgrades are not allowed on Windows.
Locking is normally supported only for file ports, and attempting to acquire a lock with other kinds of file-stream ports raises an exn:fail:filesystem exception.
procedure
(port-file-unlock port) → void?
port : file-stream-port?
procedure
port : file-stream-port?
> (define file1 (open-output-file some-file)) > (define file2 (open-output-file some-other-file)) > (port-file-identity file1) 1194795613654167658168934
> (port-file-identity file2) 1194795613654167658168942
> (close-output-port file1) > (close-output-port file2)