std.stdio
Source std/stdio.d
- alias
KeepTerminator
= std.typecons.Flag!"keepTerminator".Flag; - If flag
KeepTerminator
is set toKeepTerminator
.yes, then the delimiter is included in the strings returned. - struct
File
; - Encapsulates a FILE*. Generally D does not attempt to provide thin wrappers over equivalent functions in the C standard library, but manipulating FILE* values directly is unsafe and error-prone in many ways. The
File
type ensures safe manipulation, automatic file closing, and a lot of convenience.The underlying FILE* handle is maintained in a reference-counted manner, such that as soon as the lastFile
variable bound to a given FILE* goes out of scope, the underlying FILE* is automatically closed.Example
// test.d void main(string[] args) { auto f = File("test.txt", "w"); // open for writing f.write("Hello"); if (args.length > 1) { auto g = f; // now g and f write to the same file // internal reference count is 2 g.write(", ", args[1]); // g exits scope, reference count decreases to 1 } f.writeln("!"); // f exits scope, reference count falls to zero, // underlying `FILE*` is closed. }
% rdmd test.d Jimmy % cat test.txt Hello, Jimmy! % _
- @safe this(string
name
, scope const(char)[]stdioOpenmode
= "rb");
this(R1, R2)(R1name
)
if (isInputRange!R1 && isSomeChar!(ElementEncodingType!R1));
this(R1, R2)(R1name
, R2mode
)
if (isInputRange!R1 && isSomeChar!(ElementEncodingType!R1) && isInputRange!R2 && isSomeChar!(ElementEncodingType!R2)); - Constructor taking the name of the file to open and the open mode.Copying one File object to another results in the two File objects referring to the same underlying file. The destructor automatically closes the file as soon as no File object refers to it anymore.Parameters:
string name
range or string representing the file name const(char)[] stdioOpenmode
range or string represting the open mode (with the same semantics as in the C standard library fopen function) Throws:ErrnoException if the file could not be opened. - @safe void
opAssign
(Filerhs
); - Assigns a file to another. The target of the assignment gets detached from whatever file it was attached to, and attaches itself to the new file.
- @trusted void
open
(stringname
, scope const(char)[]stdioOpenmode
= "rb"); - Detaches from the current file (throwing on failure), and then attempts to open file
name
with modestdioOpenmode
. The mode has the same semantics as in the C standard library fopen function.Throws:ErrnoException in case of error. - @trusted void
reopen
(stringname
, scope const(char)[]stdioOpenmode
= "rb"); - Reuses the File object to either open a different file, or change the file mode. If
name
is null, the mode of the currently open file is changed; otherwise, a new file is opened, reusing the C FILE*. The function has the same semantics as in the C standard library freopen function.Note Calling
reopen
with a nullname
is not implemented in all C runtimes.Throws:ErrnoException in case of error. - @safe void
popen
(stringcommand
, scope const(char)[]stdioOpenmode
= "r"); - Detaches from the current file (throwing on failure), and then runs a command by calling the C standard library function popen.Throws:ErrnoException in case of error.
- @safe void
fdopen
(intfd
, scope const(char)[]stdioOpenmode
= "rb"); - First calls detach (throwing on failure), and then attempts to associate the given file descriptor with the File. The mode must be compatible with the mode of the file descriptor.Throws:ErrnoException in case of error.
- void
windowsHandleOpen
(HANDLEhandle
, scope const(char)[]stdioOpenmode
); - First calls detach (throwing on failure), and then attempts to associate the given Windows HANDLE with the File. The mode must be compatible with the access attributes of the handle. Windows only.Throws:ErrnoException in case of error.
- const pure nothrow @property @safe bool
isOpen
(); - Returns true if the file is opened.
- const pure @property @trusted bool
eof
(); - Returns true if the file is at end (see feof).Throws:Exception if the file is not opened.
- const pure nothrow @property @safe string
name
(); - const pure nothrow @property @trusted bool
error
(); - If the file is not opened, returns true. Otherwise, returns ferror for the file handle.
- @trusted void
detach
(); - Detaches from the underlying file. If the sole owner, calls close.Throws:ErrnoException on failure if closing the file.
- @trusted void
close
(); - If the file was unopened, succeeds vacuously. Otherwise closes the file (by calling fclose), throwing on error. Even if an exception is thrown, afterwards the File object is empty. This is different from detach in that it always closes the file; consequently, all other File objects referring to the same handle will see a closed file henceforth.Throws:ErrnoException on error.
- pure nothrow @safe void
clearerr
(); - If the file is not opened, succeeds vacuously. Otherwise, returns clearerr for the file handle.
- @trusted void
flush
(); - Flushes the C FILE buffers.Calls fflush for the file handle.Throws:Exception if the file is not opened or if the call to fflush fails.
- @trusted void
sync
(); - Forces any data buffered by the OS to be written to disk. Call flush before calling this function to flush the C FILE buffers first.This function calls FlushFileBuffers on Windows and fsync on POSIX for the file handle.Throws:Exception if the file is not opened or if the OS call fails.
- T[]
rawRead
(T)(T[]buffer
); - Calls fread for the file handle. The number of items to read and the size of each item is inferred from the size and type of the input array, respectively.Returns:The slice of
buffer
containing the data that was actually read. This will be shorter thanbuffer
if EOF was reached before the buffer could be filled.Throws:Exception ifbuffer
is empty. ErrnoException if the file is not opened or the call to fread fails.rawRead
always reads in binary mode on Windows.Examples:static import std.file; auto testFile = std.file.deleteme(); std.file.write(testFile, "\r\n\n\r\n"); scope(exit) std.file.remove(testFile); auto f = File(testFile, "r"); auto buf = f.rawRead(new char[5]); f.close(); writeln(buf); // "\r\n\n\r\n"
- void
rawWrite
(T)(in T[]buffer
); - Calls fwrite for the file handle. The number of items to write and the size of each item is inferred from the size and type of the input array, respectively. An error is thrown if the buffer could not be written in its entirety.
rawWrite
always writes in binary mode on Windows.Throws:ErrnoException if the file is not opened or if the call to fwrite fails.Examples:static import std.file; auto testFile = std.file.deleteme(); auto f = File(testFile, "w"); scope(exit) std.file.remove(testFile); f.rawWrite("\r\n\n\r\n"); f.close(); writeln(std.file.read(testFile)); // "\r\n\n\r\n"
- @trusted void
seek
(longoffset
, intorigin
= SEEK_SET); - Calls fseek for the file handle.Throws:Exception if the file is not opened. ErrnoException if the call to fseek fails.
- const @property @trusted ulong
tell
(); - Calls ftell for the managed file handle.Throws:Exception if the file is not opened. ErrnoException if the call to ftell fails.Examples:
import std.conv : text; static import std.file; auto testFile = std.file.deleteme(); std.file.write(testFile, "abcdefghijklmnopqrstuvwqxyz"); scope(exit) { std.file.remove(testFile); } auto f = File(testFile); auto a = new ubyte[4]; f.rawRead(a); writeln(f.tell); // 4
- @safe void
rewind
(); - Calls rewind for the file handle.Throws:Exception if the file is not opened.
- @trusted void
setvbuf
(size_tsize
, intmode
= _IOFBF); - Calls setvbuf for the file handle.Throws:Exception if the file is not opened. ErrnoException if the call to
setvbuf
fails. - @trusted void
setvbuf
(void[]buf
, intmode
= _IOFBF); - Calls setvbuf for the file handle.Throws:Exception if the file is not opened. ErrnoException if the call to
setvbuf
fails. - void
lock
(LockTypelockType
= LockType.readWrite, ulongstart
= 0, ulonglength
= 0); - Locks the specified file segment. If the file segment is already locked by another process, waits until the existing lock is released. If both
start
andlength
are zero, the entire file is locked.Locks created usinglock
and tryLock have the following properties:- All locks are automatically released when the process terminates.
- Locks are not inherited by child processes.
- Closing a file will release all locks associated with the file. On POSIX, even locks acquired via a different File will be released as well.
- Not all NFS implementations correctly implement file locking.
- bool
tryLock
(LockTypelockType
= LockType.readWrite, ulongstart
= 0, ulonglength
= 0); - Attempts to lock the specified file segment. If both
start
andlength
are zero, the entire file is locked.Returns:true if the lock was successful, and false if the specified file segment was already locked. - void
unlock
(ulongstart
= 0, ulonglength
= 0); - Removes the lock over the specified file segment.
- void
write
(S...)(Sargs
); - Writes its arguments in text format to the file.Throws:Exception if the file is not opened. ErrnoException on an error writing to the file.
- void
writeln
(S...)(Sargs
); - Writes its arguments in text format to the file, followed by a newline.Throws:Exception if the file is not opened. ErrnoException on an error writing to the file.
- void
writef
(alias fmt, A...)(Aargs
)
if (isSomeString!(typeof(fmt)));
voidwritef
(Char, A...)(in Char[]fmt
, Aargs
); - Writes its arguments in text format to the file, according to the format string fmt.Parameters:
Char[] fmt
The format string. When passed as a compile-time argument, the string will be statically checked against the argument types passed. A args
Items to write. Throws:Exception if the file is not opened. ErrnoException on an error writing to the file. - void
writefln
(alias fmt, A...)(Aargs
)
if (isSomeString!(typeof(fmt)));
voidwritefln
(Char, A...)(in Char[]fmt
, Aargs
); - Equivalent to file.writef(
fmt
,args
, '\n'). - S
readln
(S = string)(dcharterminator
= '\x0a')
if (isSomeString!S); - Read line from the file handle and return it as a specified type.This version manages its own read buffer, which means one memory allocation per call. If you are not retaining a reference to the read data, consider the File.
readln
(buf) version, which may offer better performance as it can reuse its read buffer.Parameters:S Template parameter; the type of the allocated buffer, and the type returned. Defaults to string. dchar terminator
Line terminator (by default, '\n'). Note String terminators are not supported due to ambiguity with readln(buf) below.
Returns:The line that was read, including the line terminator character.Throws:StdioException on I/O error, or UnicodeException on Unicode conversion error.Example
// Reads `stdin` and writes it to `stdout`. import std.stdio; void main() { string line; while ((line = stdin.readln()) !is null) write(line); }
- size_t
readln
(C)(ref C[]buf
, dcharterminator
= '\x0a')
if (isSomeChar!C && is(Unqual!C == C) && !is(C == enum));
size_treadln
(C, R)(ref C[]buf
, Rterminator
)
if (isSomeChar!C && is(Unqual!C == C) && !is(C == enum) && isBidirectionalRange!R && is(typeof(terminator
.front == (dchar).init))); - Read line from the file handle and write it to
buf
[], including terminating character.This can be faster than line = File.readln() because you can reuse the buffer for each call. Note that reusing the buffer means that you must copy the previous contents if you wish to retain them.Parameters:C[] buf
Buffer used to store the resulting line data. buf is resized as necessary. dchar terminator
Line terminator (by default, '\n'). Use std.ascii.newline for portability (unless the file was opened in text mode). Returns:0 for end of file, otherwise number of characters readThrows:StdioException on I/O error, or UnicodeException on Unicode conversion error.Example
// Read lines from `stdin` into a string // Ignore lines starting with '#' // Write the string to `stdout` void main() { string output; char[] buf; while (stdin.readln(buf)) { if (buf[0] == '#') continue; output ~= buf; } write(output); }
This method can be more efficient than the one in the previous example because stdin.readln
(buf
) reuses (if possible) memory allocated forbuf
, whereas line = stdin.readln() makes a new memory allocation for every line. For even better performance you can helpreadln
by passing in a large buffer to avoid memory reallocations. This can be done by reusing the largest buffer returned byreadln
:Example
// Read lines from `stdin` and count words void main() { char[] buf; size_t words = 0; while (!stdin.eof) { char[] line = buf; stdin.readln(line); if (line.length > buf.length) buf = line; words += line.split.length; } writeln(words); }
This is actually what byLine does internally, so its usage is recommended if you want to process a complete file. - uint
readf
(alias format, Data...)(auto ref Datadata
)
if (isSomeString!(typeof(format)));
uintreadf
(Data...)(scope const(char)[]format
, auto ref Datadata
); - Reads formatted data from the file using std.format.formattedRead.Parameters:
const(char)[] format
The format string. When passed as a compile-time argument, the string will be statically checked against the argument types passed. Data data
Items to be read. Example
// test.d void main() { import std.stdio; auto f = File("input"); foreach (_; 0 .. 3) { int a; f.readf!" %d"(a); writeln(++a); } }
% echo "1 2 3" > input % rdmd test.d 2 3 4
Examples:static import std.file; auto deleteme = std.file.deleteme(); std.file.write(deleteme, "hello\nworld\ntrue\nfalse\n"); scope(exit) std.file.remove(deleteme); string s; auto f = File(deleteme); f.readf!"%s\n"(s); writeln(s); // "hello" f.readf("%s\n", s); writeln(s); // "world" bool b1, b2; f.readf("%s\n%s\n", b1, b2); assert(b1 == true && b2 == false);
- static @safe File
tmpfile
(); - static @safe File
wrapFile
(FILE*f
); - Unsafe function that wraps an existing FILE*. The resulting File never takes the initiative in closing the file. Note that the created file has no name
- pure @safe FILE*
getFP
(); - Returns the FILE* corresponding to this object.
- const @property @trusted int
fileno
(); - Returns the file number corresponding to this object.
- @property HANDLE
windowsHandle
(); - Returns the underlying operating system HANDLE (Windows only).
- auto
byLine
(Terminator = char, Char = char)(KeepTerminatorkeepTerminator
= No.keepTerminator
, Terminatorterminator
= '\x0a')
if (isScalarType!Terminator);
autobyLine
(Terminator, Char = char)(KeepTerminatorkeepTerminator
, Terminatorterminator
)
if (is(Unqual!(ElementEncodingType!Terminator) == Char)); - Returns an input range set up to read from the file handle one line at a time.The element type for the range will be Char[]. Range primitives may throw StdioException on I/O error.
Note Each front will not persist after popFront is called, so the caller must copy its contents (e.g. by calling to!string) when retention is needed. If the caller needs to retain a copy of every line, use the byLineCopy function instead.
Parameters:Char Character type for each line, defaulting to char. KeepTerminator keepTerminator
Use Yes. keepTerminator
to include the terminator at the end of each line.Terminator terminator
Line separator ('\n' by default). Use std.ascii.newline for portability (unless the file was opened in text mode). Example
import std.algorithm, std.stdio, std.string; // Count words in a file using ranges. void main() { auto file = File("file.txt"); // Open for reading const wordCount = file.byLine() // Read lines .map!split // Split into words .map!(a => a.length) // Count words per line .sum(); // Total word count writeln(wordCount); }
Example
import std.range, std.stdio; // Read lines using foreach. void main() { auto file = File("file.txt"); // Open for reading auto range = file.byLine(); // Print first three lines foreach (line; range.take(3)) writeln(line); // Print remaining lines beginning with '#' foreach (line; range) { if (!line.empty && line[0] == '#') writeln(line); } }
Notice that neither example accesses the line data returned by front after the corresponding popFront call is made (because the contents may well have changed). - auto
byLineCopy
(Terminator = char, Char = immutable(char))(KeepTerminatorkeepTerminator
= No.keepTerminator
, Terminatorterminator
= '\x0a')
if (isScalarType!Terminator);
autobyLineCopy
(Terminator, Char = immutable(char))(KeepTerminatorkeepTerminator
, Terminatorterminator
)
if (is(Unqual!(ElementEncodingType!Terminator) == Unqual!Char)); - Returns an input range set up to read from the file handle one line at a time. Each line will be newly allocated. front will cache its value to allow repeated calls without unnecessary allocations.
Note Due to caching byLineCopy can be more memory-efficient than File.byLine.map!idup.
The element type for the range will be Char[]. Range primitives may throw StdioException on I/O error.Parameters:Char Character type for each line, defaulting to immutable char. KeepTerminator keepTerminator
Use Yes. keepTerminator
to include the terminator at the end of each line.Terminator terminator
Line separator ('\n' by default). Use std.ascii.newline for portability (unless the file was opened in text mode). Example
import std.algorithm, std.array, std.stdio; // Print sorted lines of a file. void main() { auto sortedLines = File("file.txt") // Open for reading .byLineCopy() // Read persistent lines .array() // into an array .sort(); // then sort them foreach (line; sortedLines) writeln(line); }
See Also: - auto
byRecord
(Fields...)(stringformat
); - Creates an input range set up to parse one line at a time from the file into a tuple.Range primitives may throw StdioException on I/O error.Parameters:
string format
tuple record format Returns:The input range set up to parse one line at a time into a record tuple.Examples:static import std.file; import std.typecons : tuple; // prepare test file auto testFile = std.file.deleteme(); scope(failure) printf("Failed test at line %d\n", __LINE__); std.file.write(testFile, "1 2\n4 1\n5 100"); scope(exit) std.file.remove(testFile); File f = File(testFile); scope(exit) f.close(); auto expected = [tuple(1, 2), tuple(4, 1), tuple(5, 100)]; uint i; foreach (e; f.byRecord!(int, int)("%s %s")) { writeln(e); // expected[i++] }
- auto
byChunk
(size_tchunkSize
);
autobyChunk
(ubyte[]buffer
); - Returns an input range set up to read from the file handle a chunk at a time.The element type for the range will be ubyte[]. Range primitives may throw StdioException on I/O error.
Example
void main() { // Read standard input 4KB at a time foreach (ubyte[] buffer; stdin.byChunk(4096)) { ... use buffer ... } }
The parameter may be a number (as shown in the example above) dictating the size of each chunk. Alternatively,byChunk
accepts a user-provided buffer that it uses directly.Example
void main() { // Read standard input 4KB at a time foreach (ubyte[] buffer; stdin.byChunk(new ubyte[4096])) { ... use buffer ... } }
In either case, the content of the buffer is reused across calls. That means front will not persist after popFront is called, so if retention is needed, the caller must copy its contents (e.g. by callingbuffer
.dup). In the example above,buffer
.length is 4096 for all iterations, except for the last one, in which casebuffer
.length may be less than 4096 (but always greater than zero). With the mentioned limitations,byChunk
works with any algorithm compatible with input ranges.Example
// Efficient file copy, 1MB at a time. import std.algorithm, std.stdio; void main() { stdin.byChunk(1024 * 1024).copy(stdout.lockingTextWriter()); }
std.algorithm.iteration.joiner can be used to join chunks together into a single range lazily.Example
import std.algorithm, std.stdio; void main() { //Range of ranges static assert(is(typeof(stdin.byChunk(4096).front) == ubyte[])); //Range of elements static assert(is(typeof(stdin.byChunk(4096).joiner.front) == ubyte)); }
Returns:A call tobyChunk
returns a range initialized with the File object and the appropriate buffer.Throws:If the user-provided size is zero or the user-provided buffer is empty, throws an Exception. In case of an I/O error throws StdioException. - @safe auto
lockingTextWriter
(); - Output range which locks the file when created, and unlocks the file when it goes out of scope.Returns:An output range which accepts string types, ubyte[], individual character types, and individual ubytes.
Note Writing either arrays of chars or ubytes is faster than writing each character individually from a range. For large amounts of data, writing the contents in chunks using an intermediary array can result in a speed increase.
Throws:std.utf.UTFException if the data given is a char range and it contains malformed UTF data.See Also:byChunk for an example. - auto
lockingBinaryWriter
(); - Returns an output range that locks the file and allows fast writing to it.
Example Produce a grayscale image of the Mandelbrot set in binary Netpbm format to standard output.
import std.algorithm, std.range, std.stdio; void main() { enum size = 500; writef("P5\n%d %d %d\n", size, size, ubyte.max); iota(-1, 3, 2.0/size).map!(y => iota(-1.5, 0.5, 2.0/size).map!(x => cast(ubyte)(1+ recurrence!((a, n) => x + y*1i + a[n-1]^^2)(0+0i) .take(ubyte.max) .countUntil!(z => z.re^^2 + z.im^^2 > 4)) ) ) .copy(stdout.lockingBinaryWriter); }
- @property @safe ulong
size
(); - Get the size of the file, ulong.max if file is not searchable, but still throws if an actual error occurs.
- enum
LockType
: int; - Used to specify the lock type for File.lock and File.tryLock.
read
- Specifies a read (shared) lock. A read lock denies all processes write access to the specified region of the file, including the process that first locks the region. All processes can read the locked region. Multiple simultaneous read locks are allowed, as long as there are no exclusive locks.
readWrite
- Specifies a read/write (exclusive) lock. A read/write lock denies all other processes both read and write access to the locked file region. If a segment has an exclusive lock, it may not have any shared locks or other exclusive locks.
- enum auto
isFileHandle
(T); - Indicates whether T is a file handle, i.e. the type is implicitly convertable to File or a pointer to a core.stdc.stdio.FILE.Returns:true if T is a file handle, false otherwise.Examples:
static assert(isFileHandle!(FILE*)); static assert(isFileHandle!(File));
- void
write
(T...)(Targs
)
if (!is(T[0] : File)); - Writes its arguments in text format to standard output (without a trailing newline).Parameters:
T args
the items to write to stdout Throws:In case of an I/O error, throws an StdioException.Example Reads stdin and writes it to stdout with an argument counter.
import std.stdio; void main() { string line; for (size_t count = 0; (line = readln) !is null; count++) { write("Input ", count, ": ", line, "\n"); } }
- void
writeln
(T...)(Targs
); - Equivalent to write(
args
, '\n'). Callingwriteln
without arguments is valid and just prints a newline to the standard output.Parameters:T args
the items to write to stdout Throws:In case of an I/O error, throws an StdioException.Example Reads stdin and writes it to stdout with a argument counter.
import std.stdio; void main() { string line; for (size_t count = 0; (line = readln) !is null; count++) { writeln("Input ", count, ": ", line); } }
- void
writef
(alias fmt, A...)(Aargs
)
if (isSomeString!(typeof(fmt)));
voidwritef
(Char, A...)(in Char[]fmt
, Aargs
); - Writes formatted data to standard output (without a trailing newline).Parameters:
Char[] fmt
The format string. When passed as a compile-time argument, the string will be statically checked against the argument types passed. A args
Items to write. Note In older versions of Phobos, it used to be possible to write:
writef(stderr, "%s", "message");
to print a message to stderr. This syntax is no longer supported, and has been superceded by:stderr.writef("%s", "message");
- void
writefln
(alias fmt, A...)(Aargs
)
if (isSomeString!(typeof(fmt)));
voidwritefln
(Char, A...)(in Char[]fmt
, Aargs
); - Equivalent to writef(fmt, args, '\n').
- uint
readf
(alias format, A...)(auto ref Aargs
)
if (isSomeString!(typeof(format)));
uintreadf
(A...)(scope const(char)[]format
, auto ref Aargs
); - Reads formatted data from stdin using std.format.formattedRead.Parameters:
const(char)[] format
The format string. When passed as a compile-time argument, the string will be statically checked against the argument types passed. A args
Items to be read. Example
// test.d void main() { import std.stdio; foreach (_; 0 .. 3) { int a; readf!" %d"(a); writeln(++a); } }
% echo "1 2 3" | rdmd test.d 2 3 4
- S
readln
(S = string)(dcharterminator
= '\x0a')
if (isSomeString!S); - Read line from stdin.This version manages its own read buffer, which means one memory allocation per call. If you are not retaining a reference to the read data, consider the
readln
(buf) version, which may offer better performance as it can reuse its read buffer.Returns:The line that was read, including the line terminator character.Parameters:S Template parameter; the type of the allocated buffer, and the type returned. Defaults to string. dchar terminator
Line terminator (by default, '\n'). Note String terminators are not supported due to ambiguity with readln(buf) below.
Throws:StdioException on I/O error, or UnicodeException on Unicode conversion error.Example Reads stdin and writes it to stdout.
import std.stdio; void main() { string line; while ((line = readln()) !is null) write(line); }
- size_t
readln
(C)(ref C[]buf
, dcharterminator
= '\x0a')
if (isSomeChar!C && is(Unqual!C == C) && !is(C == enum));
size_treadln
(C, R)(ref C[]buf
, Rterminator
)
if (isSomeChar!C && is(Unqual!C == C) && !is(C == enum) && isBidirectionalRange!R && is(typeof(terminator
.front == (dchar).init))); - Read line from stdin and write it to buf[], including terminating character.This can be faster than line = readln() because you can reuse the buffer for each call. Note that reusing the buffer means that you must copy the previous contents if you wish to retain them.Returns:size_t 0 for end of file, otherwise number of characters readParameters:
C[] buf
Buffer used to store the resulting line data. buf is resized as necessary. dchar terminator
Line terminator (by default, '\n'). Use std.ascii.newline for portability (unless the file was opened in text mode). Throws:StdioException on I/O error, or UnicodeException on Unicode conversion error.Example Reads stdin and writes it to stdout.
import std.stdio; void main() { char[] buf; while (readln(buf)) write(buf); }
- nothrow @nogc @trusted FILE*
_popen
(R1, R2)(R1name
, R2mode
= "r")
if ((isInputRange!R1 && isSomeChar!(ElementEncodingType!R1) || isSomeString!R1) && (isInputRange!R2 && isSomeChar!(ElementEncodingType!R2) || isSomeString!R2)); - Convenience function that forwards to core.sys.posix.stdio.popen with appropriately-constructed C-style strings.
- struct
lines
; - Iterates through the lines of a file by using foreach.
Example
void main() { foreach (string line; lines(stdin)) { ... use line ... } }
The line terminator ('\n' by default) is part of the string read (it could be missing in the last line of the file). Several types are supported for line, and the behavior oflines
changes accordingly:- If line has type string, wstring, or dstring, a new string of the respective type is allocated every read.
- If line has type char[], wchar[], dchar[], the line's content will be reused (overwritten) across reads.
- If line has type immutable(ubyte)[], the behavior is similar to case (1), except that no UTF checking is attempted upon input.
- If line has type ubyte[], the behavior is similar to case (2), except that no UTF checking is attempted upon input.
Example
foreach (ulong i, string line; lines(stdin)) { ... use line ... }
In case of an I/O error, an StdioException is thrown.See Also:- this(File
f
, dcharterminator
= '\x0a'); - Constructor.Parameters:
File f
File to read lines from. dchar terminator
Line separator ('\n' by default).
- auto
chunks
(Filef
, size_tsize
); - Iterates through a file a chunk at a time by using foreach.
Example
void main() { foreach (ubyte[] buffer; chunks(stdin, 4096)) { ... use buffer ... } }
The content of buffer is reused across calls. In the example above, buffer.length is 4096 for all iterations, except for the last one, in which case buffer.length may be less than 4096 (but always greater than zero). In case of an I/O error, an StdioException is thrown. - void
toFile
(T)(Tdata
, stringfileName
)
if (is(typeof(copy(data
, stdout.lockingBinaryWriter)))); - Writes an array or range to a file. Shorthand for data.copy(File(fileName, "wb").lockingBinaryWriter). Similar to std.file.write, strings are written as-is, rather than encoded according to the File's orientation.
- class
StdioException
: object.Exception; - Thrown if I/O errors happen.
- uint
errno
; - Operating system error code.
- @trusted this(string
message
, uinte
= core.stdc.errno.errno); - Initialize with a message and an error code.
- static void
opCall
(stringmsg
);
static voidopCall
(); - Convenience functions that throw an StdioException.
- alias
stdin
= makeGlobal!"core.stdc.stdio.stdin
".makeGlobal; - The standard input stream.Returns:stdin as a File.
Note The returned File wraps core.stdio.stdin, and is therefore thread global. Reassigning
All reading fromstdin
to a different File must be done in a single-threaded or locked context in order to avoid race conditions.stdin
automatically locks the file globally, and will cause all other threads calling read to wait until the lock is released.Examples:// Read stdin, sort lines, write to stdout import std.algorithm.mutation : copy; import std.algorithm.sorting : sort; import std.array : array; import std.typecons : Yes; void main() { stdin // read from stdin .byLineCopy(Yes.keepTerminator) // copying each line .array() // convert to array of lines .sort() // sort the lines .copy( // copy output of .sort to an OutputRange stdout.lockingTextWriter()); // the OutputRange }
- alias
stdout
= makeGlobal!"core.stdc.stdio.stdout
".makeGlobal; - The standard output stream.Returns:stdout as a File.
Note The returned File wraps core.stdio.stdout, and is therefore thread global. Reassigning
All writing tostdout
to a different File must be done in a single-threaded or locked context in order to avoid race conditions.stdout
automatically locks the file globally, and will cause all other threads calling write to wait until the lock is released.Examples:void main() { stdout.writeln("Write a message to stdout."); }
Examples:void main() { import std.algorithm.iteration : filter, map, sum; import std.format : format; import std.range : iota, tee; int len; const r = 6.iota .filter!(a => a % 2) // 1 3 5 .map!(a => a * 2) // 2 6 10 .tee!(_ => stdout.writefln("len: %d", len++)) .sum; writeln(r); // 18 }
Examples:void main() { import std.algorithm.mutation : copy; import std.algorithm.iteration : map; import std.format : format; import std.range : iota; 10.iota .map!(e => "N: %d".format(e)) .copy(stdout.lockingTextWriter()); // the OutputRange }
- alias
stderr
= makeGlobal!"core.stdc.stdio.stderr
".makeGlobal; - The standard error stream.Returns:stderr as a File.
Note The returned File wraps core.stdio.stderr, and is therefore thread global. Reassigning
All writing tostderr
to a different File must be done in a single-threaded or locked context in order to avoid race conditions.stderr
automatically locks the file globally, and will cause all other threads calling write to wait until the lock is released.Examples:void main() { stderr.writeln("Write a message to stderr."); }
- File
openNetwork
(stringhost
, ushortport
); - Experimental network access via the File interfaceOpens a TCP connection to the given host and port, then returns a File struct with read and write access through the same interface as any other file (meaning writef and the byLine ranges work!).Authors:Adam D. RuppeBugs:Only works on Linux