/usr/include/d/4.9/std/stdio.d is in libphobos-4.9-dev 4.9.3-13ubuntu2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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/**
Standard I/O functions that extend $(B std.c.stdio). $(B std.c.stdio)
is $(D_PARAM public)ally imported when importing $(B std.stdio).
Source: $(PHOBOSSRC std/_stdio.d)
Macros:
WIKI=Phobos/StdStdio
Copyright: Copyright Digital Mars 2007-.
License: $(WEB boost.org/LICENSE_1_0.txt, Boost License 1.0).
Authors: $(WEB digitalmars.com, Walter Bright),
$(WEB erdani.org, Andrei Alexandrescu),
Alex Rønne Petersen
*/
/* NOTE: This file has been patched from the original DMD distribution to
work with the GDC compiler.
*/
module std.stdio;
public import core.stdc.stdio, std.string : KeepTerminator;
static import std.c.stdio;
import std.stdiobase;
import core.stdc.errno, core.stdc.stddef, core.stdc.stdlib, core.memory,
core.stdc.string, core.stdc.wchar_, core.exception;
import std.range;
import std.traits : Unqual, isSomeChar, isAggregateType, isSomeString,
isIntegral, isBoolean, ParameterTypeTuple;
version (GNU)
import core.vararg;
version (DigitalMars)
{
version (Win32)
{
// Specific to the way Digital Mars C does stdio
version = DIGITAL_MARS_STDIO;
import std.c.stdio : __fhnd_info, FHND_WCHAR, FHND_TEXT;
}
else version (Win64)
{
version = MICROSOFT_STDIO;
}
}
version (Posix)
{
import core.sys.posix.fcntl;
import core.sys.posix.stdio;
alias core.sys.posix.stdio.fileno fileno;
}
version (linux)
{
// Specific to the way Gnu C does stdio
version = GCC_IO;
}
version (OSX)
{
version = GENERIC_IO;
}
version (FreeBSD)
{
version = GENERIC_IO;
}
version (MinGW)
{
version = MINGW_IO;
}
version(Windows)
{
// core.stdc.stdio.fopen expects file names to be
// encoded in CP_ACP on Windows instead of UTF-8.
/+ Waiting for druntime pull 299
+/
extern (C) nothrow FILE* _wfopen(in wchar* filename, in wchar* mode);
}
version (DIGITAL_MARS_STDIO)
{
extern (C)
{
/* **
* Digital Mars under-the-hood C I/O functions.
* Use _iobuf* for the unshared version of FILE*,
* usable when the FILE is locked.
*/
int _fputc_nlock(int, _iobuf*);
int _fputwc_nlock(int, _iobuf*);
int _fgetc_nlock(_iobuf*);
int _fgetwc_nlock(_iobuf*);
int __fp_lock(FILE*);
void __fp_unlock(FILE*);
int setmode(int, int);
}
alias _fputc_nlock FPUTC;
alias _fputwc_nlock FPUTWC;
alias _fgetc_nlock FGETC;
alias _fgetwc_nlock FGETWC;
alias __fp_lock FLOCK;
alias __fp_unlock FUNLOCK;
alias setmode _setmode;
enum _O_BINARY = 0x8000;
int _fileno(FILE* f) { return f._file; }
alias _fileno fileno;
alias _fdToHandle _get_osfhandle;
}
else version (MINGW_IO)
{
extern (C)
{
int setmode(int, int);
intptr_t _get_osfhandle(int fd);
}
void flockfile(FILE* fp) { }
void funlockfile(FILE* fp) { }
int fputc_unlocked(int c, _iobuf* fp) { return fputc(c, cast(shared) fp); }
int fputwc_unlocked(int c, _iobuf* fp)
{
return fputwc(cast(wchar_t)c, cast(shared) fp);
}
int fgetc_unlocked(_iobuf* fp) { return fgetc(cast(shared) fp); }
int fgetwc_unlocked(_iobuf* fp) { return fgetwc(cast(shared) fp); }
alias fputc_unlocked FPUTC;
alias fputwc_unlocked FPUTWC;
alias fgetc_unlocked FGETC;
alias fgetwc_unlocked FGETWC;
alias flockfile FLOCK;
alias funlockfile FUNLOCK;
alias setmode _setmode;
enum _O_BINARY = 0x8000;
int _fileno(FILE* f) { return f._file; }
alias _fileno fileno;
}
else version (MICROSOFT_STDIO)
{
extern (C)
{
/* **
* Microsoft under-the-hood C I/O functions
*/
int _fputc_nolock(int, _iobuf*);
int _fputwc_nolock(int, _iobuf*);
int _fgetc_nolock(_iobuf*);
int _fgetwc_nolock(_iobuf*);
void _lock_file(FILE*);
void _unlock_file(FILE*);
int _setmode(int, int);
int _fileno(FILE*);
}
alias _fputc_nolock FPUTC;
alias _fputwc_nolock FPUTWC;
alias _fgetc_nolock FGETC;
alias _fgetwc_nolock FGETWC;
alias _lock_file FLOCK;
alias _unlock_file FUNLOCK;
enum _O_BINARY = 0x8000;
}
else version (GCC_IO)
{
/* **
* Gnu under-the-hood C I/O functions; see
* http://gnu.org/software/libc/manual/html_node/I_002fO-on-Streams.html
*/
extern (C)
{
int fputc_unlocked(int, _iobuf*);
int fputwc_unlocked(wchar_t, _iobuf*);
int fgetc_unlocked(_iobuf*);
int fgetwc_unlocked(_iobuf*);
void flockfile(FILE*);
void funlockfile(FILE*);
ptrdiff_t getline(char**, size_t*, FILE*);
ptrdiff_t getdelim (char**, size_t*, int, FILE*);
private size_t fwrite_unlocked(const(void)* ptr,
size_t size, size_t n, _iobuf *stream);
}
alias fputc_unlocked FPUTC;
alias fputwc_unlocked FPUTWC;
alias fgetc_unlocked FGETC;
alias fgetwc_unlocked FGETWC;
alias flockfile FLOCK;
alias funlockfile FUNLOCK;
}
else version (GENERIC_IO)
{
extern (C)
{
void flockfile(FILE*);
void funlockfile(FILE*);
}
int fputc_unlocked(int c, _iobuf* fp) { return fputc(c, cast(shared) fp); }
int fputwc_unlocked(wchar_t c, _iobuf* fp)
{
return fputwc(c, cast(shared) fp);
}
int fgetc_unlocked(_iobuf* fp) { return fgetc(cast(shared) fp); }
int fgetwc_unlocked(_iobuf* fp) { return fgetwc(cast(shared) fp); }
alias fputc_unlocked FPUTC;
alias fputwc_unlocked FPUTWC;
alias fgetc_unlocked FGETC;
alias fgetwc_unlocked FGETWC;
alias flockfile FLOCK;
alias funlockfile FUNLOCK;
}
else
{
static assert(0, "unsupported C I/O system");
}
//------------------------------------------------------------------------------
struct ByRecord(Fields...)
{
private:
import std.typecons : Tuple;
File file;
char[] line;
Tuple!(Fields) current;
string format;
public:
this(File f, string format)
{
assert(f.isOpen);
file = f;
this.format = format;
popFront(); // prime the range
}
/// Range primitive implementations.
@property bool empty()
{
return !file.isOpen;
}
/// Ditto
@property ref Tuple!(Fields) front()
{
return current;
}
/// Ditto
void popFront()
{
import std.conv : text;
import std.exception : enforce;
import std.format : formattedRead;
import std.string : chomp;
enforce(file.isOpen);
file.readln(line);
if (!line.length)
{
file.detach();
}
else
{
line = chomp(line);
formattedRead(line, format, ¤t);
enforce(line.empty, text("Leftover characters in record: `",
line, "'"));
}
}
}
template byRecord(Fields...)
{
ByRecord!(Fields) byRecord(File f, string format)
{
return typeof(return)(f, format);
}
}
/**
Encapsulates a $(D FILE*). Generally D does not attempt to provide
thin wrappers over equivalent functions in the C standard library, but
manipulating $(D FILE*) values directly is unsafe and error-prone in
many ways. The $(D File) type ensures safe manipulation, automatic
file closing, and a lot of convenience.
The underlying $(D FILE*) handle is maintained in a reference-counted
manner, such that as soon as the last $(D File) variable bound to a
given $(D FILE*) goes out of scope, the underlying $(D FILE*) is
automatically closed.
Bugs:
$(D File) expects file names to be encoded in $(B CP_ACP) on $(I Windows)
instead of UTF-8 ($(BUGZILLA 7648)) thus must not be used in $(I Windows)
or cross-platform applications other than with an immediate ASCII string as
a file name to prevent accidental changes to result in incorrect behavior.
One can use $(XREF file, read)/$(XREF file, write)/$(XREF stream, _File)
instead.
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 $(D FILE*) is closed.
}
----
<pre class=console>
% rdmd test.d Jimmy
% cat test.txt
Hello, Jimmy!
% __
</pre>
*/
struct File
{
import std.traits : isScalarType, isArray;
private struct Impl
{
FILE * handle = null; // Is null iff this Impl is closed by another File
uint refs = uint.max / 2;
bool isPopened; // true iff the stream has been created by popen()
}
private Impl* _p;
private string _name;
package this(FILE* handle, string name, uint refs = 1, bool isPopened = false)
{
import std.exception : enforce;
assert(!_p);
_p = cast(Impl*) enforce(malloc(Impl.sizeof), "Out of memory");
_p.handle = handle;
_p.refs = refs;
_p.isPopened = isPopened;
_name = name;
}
/**
Constructor taking the name of the file to open and the open mode
(with the same semantics as in the C standard library $(WEB
cplusplus.com/reference/clibrary/cstdio/fopen.html, fopen)
function).
Copying one $(D File) object to another results in the two $(D File)
objects referring to the same underlying file.
The destructor automatically closes the file as soon as no $(D File)
object refers to it anymore.
Throws: $(D ErrnoException) if the file could not be opened.
*/
this(string name, in char[] stdioOpenmode = "rb")
{
import std.conv : text;
import std.exception : errnoEnforce;
this(errnoEnforce(.fopen(name, stdioOpenmode),
text("Cannot open file `", name, "' in mode `",
stdioOpenmode, "'")),
name);
}
~this()
{
detach();
}
this(this)
{
if (!_p) return;
assert(_p.refs);
++_p.refs;
}
/**
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.
*/
void opAssign(File rhs)
{
import std.algorithm : swap;
swap(this, rhs);
}
/**
First calls $(D detach) (throwing on failure), and then attempts to
_open file $(D name) with mode $(D stdioOpenmode). The mode has the
same semantics as in the C standard library $(WEB
cplusplus.com/reference/clibrary/cstdio/fopen.html, fopen) function.
Throws: $(D ErrnoException) in case of error.
*/
void open(string name, in char[] stdioOpenmode = "rb")
{
detach();
this = File(name, stdioOpenmode);
}
/**
First calls $(D detach) (throwing on failure), and then runs a command
by calling the C standard library function $(WEB
opengroup.org/onlinepubs/007908799/xsh/_popen.html, _popen).
Throws: $(D ErrnoException) in case of error.
*/
version(Posix) void popen(string command, in char[] stdioOpenmode = "r")
{
import std.exception : errnoEnforce;
detach();
this = File(errnoEnforce(.popen(command, stdioOpenmode),
"Cannot run command `"~command~"'"),
command, 1, true);
}
/** Returns $(D true) if the file is opened. */
@property bool isOpen() const pure nothrow
{
return _p !is null && _p.handle;
}
/**
Returns $(D true) if the file is at end (see $(WEB
cplusplus.com/reference/clibrary/cstdio/feof.html, feof)).
Throws: $(D Exception) if the file is not opened.
*/
@property bool eof() const pure
{
import std.exception : enforce;
enforce(_p && _p.handle, "Calling eof() against an unopened file.");
return .feof(cast(FILE*) _p.handle) != 0;
}
/** Returns the name of the last opened file, if any.
If a $(D File) was created with $(LREF tmpfile) and $(LREF wrapFile)
it has no name.*/
@property string name() const pure nothrow
{
return _name;
}
/**
If the file is not opened, returns $(D false). Otherwise, returns
$(WEB cplusplus.com/reference/clibrary/cstdio/ferror.html, ferror) for
the file handle.
*/
@property bool error() const pure nothrow
{
return !_p.handle || .ferror(cast(FILE*) _p.handle);
}
/**
Detaches from the underlying file. If the sole owner, calls $(D close).
Throws: $(D ErrnoException) on failure if closing the file.
*/
void detach()
{
if (!_p) return;
if (_p.refs == 1)
close();
else
{
assert(_p.refs);
--_p.refs;
_p = null;
}
}
unittest
{
static import std.file;
auto deleteme = testFilename();
scope(exit) std.file.remove(deleteme);
auto f = File(deleteme, "w");
{
auto f2 = f;
f2.detach();
}
assert(f._p.refs == 1);
f.close();
}
/**
If the file was unopened, succeeds vacuously. Otherwise closes the
file (by calling $(WEB
cplusplus.com/reference/clibrary/cstdio/fclose.html, fclose)),
throwing on error. Even if an exception is thrown, afterwards the $(D
File) object is empty. This is different from $(D detach) in that it
always closes the file; consequently, all other $(D File) objects
referring to the same handle will see a closed file henceforth.
Throws: $(D ErrnoException) on error.
*/
void close()
{
import std.exception : errnoEnforce;
if (!_p) return; // succeed vacuously
scope(exit)
{
assert(_p.refs);
if(!--_p.refs)
free(_p);
_p = null; // start a new life
}
if (!_p.handle) return; // Impl is closed by another File
scope(exit) _p.handle = null; // nullify the handle anyway
version (Posix)
{
import std.string : format;
if (_p.isPopened)
{
auto res = .pclose(_p.handle);
errnoEnforce(res != -1,
"Could not close pipe `"~_name~"'");
errnoEnforce(res == 0, format("Command returned %d", res));
return;
}
}
//fprintf(std.c.stdio.stderr, ("Closing file `"~name~"`.\n\0").ptr);
errnoEnforce(.fclose(_p.handle) == 0,
"Could not close file `"~_name~"'");
}
/**
If the file is not opened, succeeds vacuously. Otherwise, returns
$(WEB cplusplus.com/reference/clibrary/cstdio/_clearerr.html,
_clearerr) for the file handle.
*/
void clearerr() pure nothrow
{
_p is null || _p.handle is null ||
.clearerr(_p.handle);
}
/**
Calls $(WEB cplusplus.com/reference/clibrary/cstdio/_fflush.html, _fflush)
for the file handle.
Throws: $(D Exception) if the file is not opened or if the call to $(D fflush) fails.
*/
void flush()
{
import std.exception : enforce, errnoEnforce;
errnoEnforce
(.fflush(enforce(_p.handle, "Calling fflush() on an unopened file"))
== 0);
}
/**
Calls $(WEB cplusplus.com/reference/clibrary/cstdio/fread.html, 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 $(D buffer) containing the data that was actually read.
This will be shorter than $(D buffer) if EOF was reached before the buffer
could be filled.
Throws: $(D Exception) if $(D buffer) is empty.
$(D ErrnoException) if the file is not opened or the call to $(D fread) fails.
$(D rawRead) always reads in binary mode on Windows.
*/
T[] rawRead(T)(T[] buffer)
{
import std.exception : enforce, errnoEnforce;
enforce(buffer.length, "rawRead must take a non-empty buffer");
version(Win32)
{
immutable fd = ._fileno(_p.handle);
immutable mode = ._setmode(fd, _O_BINARY);
scope(exit) ._setmode(fd, mode);
version(DIGITAL_MARS_STDIO)
{
// @@@BUG@@@ 4243
immutable info = __fhnd_info[fd];
__fhnd_info[fd] &= ~FHND_TEXT;
scope(exit) __fhnd_info[fd] = info;
}
}
immutable result =
.fread(buffer.ptr, T.sizeof, buffer.length, _p.handle);
errnoEnforce(!error);
return result ? buffer[0 .. result] : null;
}
unittest
{
static import std.file;
auto deleteme = testFilename();
std.file.write(deleteme, "\r\n\n\r\n");
scope(exit) std.file.remove(deleteme);
auto f = File(deleteme, "r");
auto buf = f.rawRead(new char[5]);
f.close();
assert(buf == "\r\n\n\r\n");
/+
buf = stdin.rawRead(new char[5]);
assert(buf == "\r\n\n\r\n");
+/
}
/**
Calls $(WEB cplusplus.com/reference/clibrary/cstdio/fwrite.html, 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.
$(D rawWrite) always writes in binary mode on Windows.
Throws: $(D ErrnoException) if the file is not opened or if the call to $(D fwrite) fails.
*/
void rawWrite(T)(in T[] buffer)
{
import std.conv : text;
import std.exception : errnoEnforce;
version(Windows)
{
flush(); // before changing translation mode
immutable fd = ._fileno(_p.handle);
immutable mode = ._setmode(fd, _O_BINARY);
scope(exit) ._setmode(fd, mode);
version(DIGITAL_MARS_STDIO)
{
// @@@BUG@@@ 4243
immutable info = __fhnd_info[fd];
__fhnd_info[fd] &= ~FHND_TEXT;
scope(exit) __fhnd_info[fd] = info;
}
scope(exit) flush(); // before restoring translation mode
}
auto result =
.fwrite(buffer.ptr, T.sizeof, buffer.length, _p.handle);
if (result == result.max) result = 0;
errnoEnforce(result == buffer.length,
text("Wrote ", result, " instead of ", buffer.length,
" objects of type ", T.stringof, " to file `",
_name, "'"));
}
version(Win64) {} else
unittest
{
static import std.file;
auto deleteme = testFilename();
auto f = File(deleteme, "w");
scope(exit) std.file.remove(deleteme);
f.rawWrite("\r\n\n\r\n");
f.close();
assert(std.file.read(deleteme) == "\r\n\n\r\n");
}
/**
Calls $(WEB cplusplus.com/reference/clibrary/cstdio/fseek.html, fseek)
for the file handle.
Throws: $(D Exception) if the file is not opened.
$(D ErrnoException) if the call to $(D fseek) fails.
*/
void seek(long offset, int origin = SEEK_SET)
{
import std.exception : enforce, errnoEnforce;
import std.conv : to, text;
enforce(isOpen, "Attempting to seek() in an unopened file");
version (Windows)
{
errnoEnforce(fseek(_p.handle, to!int(offset), origin) == 0,
"Could not seek in file `"~_name~"'");
}
else
{
//static assert(off_t.sizeof == 8);
errnoEnforce(fseeko(_p.handle, offset, origin) == 0,
"Could not seek in file `"~_name~"'");
}
}
version(Win64) {} else
unittest
{
static import std.file;
auto deleteme = testFilename();
auto f = File(deleteme, "w+");
scope(exit) { f.close(); std.file.remove(deleteme); }
f.rawWrite("abcdefghijklmnopqrstuvwxyz");
f.seek(7);
assert(f.readln() == "hijklmnopqrstuvwxyz");
version (Windows)
{
// No test for large files yet
}
else
{
import std.conv : text;
auto bigOffset = cast(ulong) int.max + 100;
f.seek(bigOffset);
assert(f.tell == bigOffset, text(f.tell));
// Uncomment the tests below only if you want to wait for
// a long time
// f.rawWrite("abcdefghijklmnopqrstuvwxyz");
// f.seek(-3, SEEK_END);
// assert(f.readln() == "xyz");
}
}
/**
Calls $(WEB cplusplus.com/reference/clibrary/cstdio/ftell.html, ftell) for the
managed file handle.
Throws: $(D Exception) if the file is not opened.
$(D ErrnoException) if the call to $(D ftell) fails.
*/
@property ulong tell() const
{
import std.exception : enforce, errnoEnforce;
enforce(isOpen, "Attempting to tell() in an unopened file");
version (Windows)
{
immutable result = ftell(cast(FILE*) _p.handle);
}
else
{
immutable result = ftello(cast(FILE*) _p.handle);
}
errnoEnforce(result != -1,
"Query ftell() failed for file `"~_name~"'");
return result;
}
unittest
{
static import std.file;
import std.conv : text;
auto deleteme = testFilename();
std.file.write(deleteme, "abcdefghijklmnopqrstuvwqxyz");
scope(exit) { std.file.remove(deleteme); }
auto f = File(deleteme);
auto a = new ubyte[4];
f.rawRead(a);
assert(f.tell == 4, text(f.tell));
}
/**
Calls $(WEB cplusplus.com/reference/clibrary/cstdio/_rewind.html, _rewind)
for the file handle.
Throws: $(D Exception) if the file is not opened.
*/
void rewind()
{
import std.exception : enforce;
enforce(isOpen, "Attempting to rewind() an unopened file");
.rewind(_p.handle);
}
/**
Calls $(WEB cplusplus.com/reference/clibrary/cstdio/_setvbuf.html, _setvbuf) for
the file handle.
Throws: $(D Exception) if the file is not opened.
$(D ErrnoException) if the call to $(D setvbuf) fails.
*/
void setvbuf(size_t size, int mode = _IOFBF)
{
import std.exception : enforce, errnoEnforce;
enforce(isOpen, "Attempting to call setvbuf() on an unopened file");
errnoEnforce(.setvbuf(_p.handle, null, mode, size) == 0,
"Could not set buffering for file `"~_name~"'");
}
/**
Calls $(WEB cplusplus.com/reference/clibrary/cstdio/_setvbuf.html,
_setvbuf) for the file handle.
Throws: $(D Exception) if the file is not opened.
$(D ErrnoException) if the call to $(D setvbuf) fails.
*/
void setvbuf(void[] buf, int mode = _IOFBF)
{
import std.exception : enforce, errnoEnforce;
enforce(isOpen, "Attempting to call setvbuf() on an unopened file");
errnoEnforce(.setvbuf(_p.handle,
cast(char*) buf.ptr, mode, buf.length) == 0,
"Could not set buffering for file `"~_name~"'");
}
version(Windows)
{
import core.sys.windows.windows;
import std.windows.syserror;
private BOOL lockImpl(alias F, Flags...)(ulong start, ulong length,
Flags flags)
{
if (!start && !length)
length = ulong.max;
ULARGE_INTEGER liStart = void, liLength = void;
liStart.QuadPart = start;
liLength.QuadPart = length;
OVERLAPPED overlapped;
overlapped.Offset = liStart.LowPart;
overlapped.OffsetHigh = liStart.HighPart;
overlapped.hEvent = null;
return F(cast(HANDLE)_get_osfhandle(fileno), flags, 0,
liLength.LowPart, liLength.HighPart, &overlapped);
}
private static T wenforce(T)(T cond, string str)
{
if (cond) return cond;
throw new Exception(str ~ ": " ~ sysErrorString(GetLastError()));
}
}
version(Posix)
{
private int lockImpl(int operation, short l_type,
ulong start, ulong length)
{
import std.conv : to;
import core.sys.posix.unistd : getpid;
flock fl = void;
fl.l_type = l_type;
fl.l_whence = SEEK_SET;
fl.l_start = to!off_t(start);
fl.l_len = to!off_t(length);
fl.l_pid = getpid();
return fcntl(fileno, operation, &fl);
}
}
/**
Locks the specified file segment. If the file segment is already locked
by another process, waits until the existing lock is released.
If both $(D start) and $(D length) are zero, the entire file is locked.
Locks created using $(D lock) and $(D tryLock) have the following properties:
$(UL
$(LI All locks are automatically released when the process terminates.)
$(LI Locks are not inherited by child processes.)
$(LI Closing a file will release all locks associated with the file. On POSIX,
even locks acquired via a different $(D File) will be released as well.)
$(LI Not all NFS implementations correctly implement file locking.)
)
*/
void lock(LockType lockType = LockType.readWrite,
ulong start = 0, ulong length = 0)
{
import std.exception : enforce, errnoEnforce;
enforce(isOpen, "Attempting to call lock() on an unopened file");
version (Posix)
{
immutable short type = lockType == LockType.readWrite
? F_WRLCK : F_RDLCK;
errnoEnforce(lockImpl(F_SETLKW, type, start, length) != -1,
"Could not set lock for file `"~_name~"'");
}
else
version(Windows)
{
immutable type = lockType == LockType.readWrite ?
LOCKFILE_EXCLUSIVE_LOCK : 0;
wenforce(lockImpl!LockFileEx(start, length, type),
"Could not set lock for file `"~_name~"'");
}
else
static assert(false);
}
/**
Attempts to lock the specified file segment.
If both $(D start) and $(D length) are zero, the entire file is locked.
Returns: $(D true) if the lock was successful, and $(D false) if the
specified file segment was already locked.
*/
bool tryLock(LockType lockType = LockType.readWrite,
ulong start = 0, ulong length = 0)
{
import std.exception : enforce, errnoEnforce;
enforce(isOpen, "Attempting to call tryLock() on an unopened file");
version (Posix)
{
immutable short type = lockType == LockType.readWrite
? F_WRLCK : F_RDLCK;
immutable res = lockImpl(F_SETLK, type, start, length);
if (res == -1 && (errno == EACCES || errno == EAGAIN))
return false;
errnoEnforce(res != -1, "Could not set lock for file `"~_name~"'");
return true;
}
else
version(Windows)
{
immutable type = lockType == LockType.readWrite
? LOCKFILE_EXCLUSIVE_LOCK : 0;
immutable res = lockImpl!LockFileEx(start, length,
type | LOCKFILE_FAIL_IMMEDIATELY);
if (!res && (GetLastError() == ERROR_IO_PENDING
|| GetLastError() == ERROR_LOCK_VIOLATION))
return false;
wenforce(res, "Could not set lock for file `"~_name~"'");
return true;
}
else
static assert(false);
}
/**
Removes the lock over the specified file segment.
*/
void unlock(ulong start = 0, ulong length = 0)
{
import std.exception : enforce, errnoEnforce;
enforce(isOpen, "Attempting to call unlock() on an unopened file");
version (Posix)
{
errnoEnforce(lockImpl(F_SETLK, F_UNLCK, start, length) != -1,
"Could not remove lock for file `"~_name~"'");
}
else
version(Windows)
{
wenforce(lockImpl!UnlockFileEx(start, length),
"Could not remove lock for file `"~_name~"'");
}
else
static assert(false);
}
version(Windows)
unittest
{
static import std.file;
auto deleteme = testFilename();
scope(exit) std.file.remove(deleteme);
auto f = File(deleteme, "wb");
assert(f.tryLock());
auto g = File(deleteme, "wb");
assert(!g.tryLock());
assert(!g.tryLock(LockType.read));
f.unlock();
f.lock(LockType.read);
assert(!g.tryLock());
assert(g.tryLock(LockType.read));
f.unlock();
g.unlock();
}
version(Posix)
unittest
{
static import std.file;
auto deleteme = testFilename();
scope(exit) std.file.remove(deleteme);
// Since locks are per-process, we cannot test lock failures within
// the same process. fork() is used to create a second process.
static void runForked(void delegate() code)
{
import core.sys.posix.unistd;
import core.sys.posix.sys.wait;
int child, status;
if ((child = fork()) == 0)
{
code();
exit(0);
}
else
{
assert(wait(&status) != -1);
assert(status == 0, "Fork crashed");
}
}
auto f = File(deleteme, "w+b");
runForked
({
auto g = File(deleteme, "a+b");
assert(g.tryLock());
g.unlock();
assert(g.tryLock(LockType.read));
});
assert(f.tryLock());
runForked
({
auto g = File(deleteme, "a+b");
assert(!g.tryLock());
assert(!g.tryLock(LockType.read));
});
f.unlock();
f.lock(LockType.read);
runForked
({
auto g = File(deleteme, "a+b");
assert(!g.tryLock());
assert(g.tryLock(LockType.read));
g.unlock();
});
f.unlock();
}
/**
Writes its arguments in text format to the file.
Throws: $(D Exception) if the file is not opened.
$(D ErrnoException) on an error writing to the file.
*/
void write(S...)(S args)
{
auto w = lockingTextWriter();
foreach (arg; args)
{
alias typeof(arg) A;
static if (isAggregateType!A || is(A == enum))
{
import std.format : formattedWrite;
std.format.formattedWrite(w, "%s", arg);
}
else static if (isSomeString!A)
{
put(w, arg);
}
else static if (isIntegral!A)
{
import std.conv : toTextRange;
toTextRange(arg, w);
}
else static if (isBoolean!A)
{
put(w, arg ? "true" : "false");
}
else static if (isSomeChar!A)
{
put(w, arg);
}
else
{
import std.format : formattedWrite;
// Most general case
std.format.formattedWrite(w, "%s", arg);
}
}
}
/**
Writes its arguments in text format to the file, followed by a newline.
Throws: $(D Exception) if the file is not opened.
$(D ErrnoException) on an error writing to the file.
*/
void writeln(S...)(S args)
{
write(args, '\n');
}
/**
Writes its arguments in text format to the file, according to the
format in the first argument.
Throws: $(D Exception) if the file is not opened.
$(D ErrnoException) on an error writing to the file.
*/
void writef(Char, A...)(in Char[] fmt, A args)
{
import std.format : formattedWrite;
std.format.formattedWrite(lockingTextWriter(), fmt, args);
}
/**
Writes its arguments in text format to the file, according to the
format in the first argument, followed by a newline.
Throws: $(D Exception) if the file is not opened.
$(D ErrnoException) on an error writing to the file.
*/
void writefln(Char, A...)(in Char[] fmt, A args)
{
import std.format : formattedWrite;
auto w = lockingTextWriter();
std.format.formattedWrite(w, fmt, args);
w.put('\n');
}
/**
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 $(D File.readln(buf)) version, which may offer
better performance as it can reuse its read buffer.
Params:
S = Template parameter; the type of the allocated buffer, and the type returned. Defaults to $(D string).
terminator = line terminator (by default, '\n')
Returns:
The line that was read, including the line terminator character.
Throws:
$(D StdioException) on I/O error, or $(D UnicodeException) on Unicode conversion error.
Example:
---
// Reads $(D stdin) and writes it to $(D stdout).
import std.stdio;
void main()
{
string line;
while ((line = stdin.readln()) !is null)
write(line);
}
---
*/
S readln(S = string)(dchar terminator = '\n')
if (isSomeString!S)
{
Unqual!(ElementEncodingType!S)[] buf;
readln(buf, terminator);
return cast(S)buf;
}
unittest
{
static import std.file;
import std.algorithm : equal;
import std.typetuple : TypeTuple;
auto deleteme = testFilename();
std.file.write(deleteme, "hello\nworld\n");
scope(exit) std.file.remove(deleteme);
foreach (String; TypeTuple!(string, char[], wstring, wchar[], dstring, dchar[]))
{
auto witness = [ "hello\n", "world\n" ];
auto f = File(deleteme);
uint i = 0;
String buf;
while ((buf = f.readln!String()).length)
{
assert(i < witness.length);
assert(equal(buf, witness[i++]));
}
assert(i == witness.length);
}
}
unittest
{
static import std.file;
import std.typecons : Tuple;
auto deleteme = testFilename();
std.file.write(deleteme, "cześć \U0002000D");
scope(exit) std.file.remove(deleteme);
uint[] lengths = [12,8,7];
foreach (uint i, C; Tuple!(char, wchar, dchar).Types)
{
immutable(C)[] witness = "cześć \U0002000D";
auto buf = File(deleteme).readln!(immutable(C)[])();
assert(buf.length == lengths[i]);
assert(buf == witness);
}
}
/**
Read line from the file handle and write it to $(D buf[]), including
terminating character.
This can be faster than $(D 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.
Params:
buf = buffer used to store the resulting line data. buf is
resized as necessary.
terminator = line terminator (by default, '\n')
Returns:
0 for end of file, otherwise number of characters read
Throws: $(D StdioException) on I/O error, or $(D UnicodeException) on Unicode
conversion error.
Example:
---
// Read lines from $(D stdin) into a string
// Ignore lines starting with '#'
// Write the string to $(D 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 $(D stdin.readln(buf)) reuses (if possible) memory allocated
for $(D buf), whereas $(D line = stdin.readln()) makes a new memory allocation
for every line.
*/
size_t readln(C)(ref C[] buf, dchar terminator = '\n')
if (isSomeChar!C && is(Unqual!C == C) && !is(C == enum))
{
import std.exception : enforce;
static if (is(C == char))
{
enforce(_p && _p.handle, "Attempt to read from an unopened file.");
return readlnImpl(_p.handle, buf, terminator);
}
else
{
// TODO: optimize this
string s = readln(terminator);
buf.length = 0;
if (!s.length) return 0;
foreach (C c; s)
{
buf ~= c;
}
return buf.length;
}
}
/** ditto */
size_t readln(C, R)(ref C[] buf, R terminator)
if (isSomeChar!C && is(Unqual!C == C) && !is(C == enum) &&
isBidirectionalRange!R && is(typeof(terminator.front == dchar.init)))
{
import std.algorithm : endsWith, swap;
auto last = terminator.back;
C[] buf2;
swap(buf, buf2);
for (;;) {
if (!readln(buf2, last) || endsWith(buf2, terminator)) {
if (buf.empty) {
buf = buf2;
} else {
buf ~= buf2;
}
break;
}
buf ~= buf2;
}
return buf.length;
}
unittest
{
static import std.file;
import std.typecons : Tuple;
auto deleteme = testFilename();
std.file.write(deleteme, "hello\n\rworld\nhow\n\rare ya");
scope(exit) std.file.remove(deleteme);
foreach (C; Tuple!(char, wchar, dchar).Types)
{
immutable(C)[][] witness = [ "hello\n\r", "world\nhow\n\r", "are ya" ];
auto f = File(deleteme);
uint i = 0;
C[] buf;
while (f.readln(buf, "\n\r"))
{
assert(i < witness.length);
assert(buf == witness[i++]);
}
assert(buf.length==0);
}
}
/**
* Read data from the file according to the specified
* $(LINK2 std_format.html#format-string, format specifier) using
* $(XREF format,formattedRead).
*/
uint readf(Data...)(in char[] format, Data data)
{
import std.format : formattedRead;
assert(isOpen);
auto input = LockingTextReader(this);
return formattedRead(input, format, data);
}
unittest
{
static import std.file;
auto deleteme = testFilename();
std.file.write(deleteme, "hello\nworld\n");
scope(exit) std.file.remove(deleteme);
string s;
auto f = File(deleteme);
f.readf("%s\n", &s);
assert(s == "hello", "["~s~"]");
}
/**
Returns a temporary file by calling $(WEB
cplusplus.com/reference/clibrary/cstdio/_tmpfile.html, _tmpfile).
Note that the created file has no $(LREF name).*/
static File tmpfile()
{
import std.exception : errnoEnforce;
return File(errnoEnforce(core.stdc.stdio.tmpfile(),
"Could not create temporary file with tmpfile()"),
null);
}
/**
Unsafe function that wraps an existing $(D FILE*). The resulting $(D
File) never takes the initiative in closing the file.
Note that the created file has no $(LREF name)*/
/*private*/ static File wrapFile(FILE* f)
{
import std.exception : enforce;
return File(enforce(f, "Could not wrap null FILE*"),
null, /*uint.max / 2*/ 9999);
}
/**
Returns the $(D FILE*) corresponding to this object.
*/
FILE* getFP() pure
{
import std.exception : enforce;
enforce(_p && _p.handle,
"Attempting to call getFP() on an unopened file");
return _p.handle;
}
unittest
{
assert(stdout.getFP() == std.c.stdio.stdout);
}
/**
Returns the file number corresponding to this object.
*/
/*version(Posix) */int fileno() const
{
import std.exception : enforce;
enforce(isOpen, "Attempting to call fileno() on an unopened file");
return .fileno(cast(FILE*) _p.handle);
}
// Note: This was documented until 2013/08
/*
Range that reads one line at a time. Returned by $(LREF byLine).
Allows to directly use range operations on lines of a file.
*/
struct ByLine(Char, Terminator)
{
private:
import std.typecons;
/* Ref-counting stops the source range's ByLineImpl
* from getting out of sync after the range is copied, e.g.
* when accessing range.front, then using std.range.take,
* then accessing range.front again. */
alias Impl = RefCounted!(ByLineImpl!(Char, Terminator),
RefCountedAutoInitialize.no);
Impl impl;
static if (isScalarType!Terminator)
enum defTerm = '\n';
else
enum defTerm = cast(Terminator)"\n";
public:
this(File f, KeepTerminator kt = KeepTerminator.no,
Terminator terminator = defTerm)
{
impl = Impl(f, kt, terminator);
}
@property bool empty()
{
return impl.refCountedPayload.empty;
}
@property Char[] front()
{
return impl.refCountedPayload.front;
}
void popFront()
{
impl.refCountedPayload.popFront();
}
}
private struct ByLineImpl(Char, Terminator)
{
private:
File file;
Char[] line;
Terminator terminator;
KeepTerminator keepTerminator;
bool first_call = true;
public:
this(File f, KeepTerminator kt, Terminator terminator)
{
file = f;
this.terminator = terminator;
keepTerminator = kt;
}
// Range primitive implementations.
@property bool empty()
{
if (line !is null) return false;
if (!file.isOpen) return true;
// First read ever, must make sure stream is not empty. We
// do so by reading a character and putting it back. Doing
// so is guaranteed to work on all files opened in all
// buffering modes.
auto fp = file.getFP();
auto c = fgetc(fp);
if (c == -1)
{
file.detach();
return true;
}
ungetc(c, fp) == c
|| assert(false, "Bug in cstdlib implementation");
return false;
}
@property Char[] front()
{
if (first_call)
{
popFront();
first_call = false;
}
return line;
}
void popFront()
{
import std.algorithm : endsWith;
assert(file.isOpen);
assumeSafeAppend(line);
file.readln(line, terminator);
if (line.empty)
{
file.detach();
line = null;
}
else if (keepTerminator == KeepTerminator.no
&& std.algorithm.endsWith(line, terminator))
{
static if (isScalarType!Terminator)
enum tlen = 1;
else static if (isArray!Terminator)
{
static assert(
is(Unqual!(ElementEncodingType!Terminator) == Char));
const tlen = terminator.length;
}
else
static assert(false);
line = line.ptr[0 .. line.length - tlen];
}
}
}
/**
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 $(D Char[]). Range primitives
may throw $(D StdioException) on I/O error.
Note:
Each $(D front) will not persist after $(D
popFront) is called, so the caller must copy its contents (e.g. by
calling $(D to!string)) if retention is needed.
Params:
Char = Character type for each line, defaulting to $(D char).
keepTerminator = Use $(D KeepTerminator.yes) to include the
terminator at the end of each line.
terminator = Line separator ($(D '\n') by default).
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
.reduce!((a, b) => a + b); // 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
$(D front) after the corresponding $(D popFront) call is made (because
the contents may well have changed).
*/
auto byLine(Terminator = char, Char = char)
(KeepTerminator keepTerminator = KeepTerminator.no,
Terminator terminator = '\n')
if (isScalarType!Terminator)
{
return ByLine!(Char, Terminator)(this, keepTerminator, terminator);
}
/// ditto
auto byLine(Terminator, Char = char)
(KeepTerminator keepTerminator, Terminator terminator)
if (is(Unqual!(ElementEncodingType!Terminator) == Char))
{
return ByLine!(Char, Terminator)(this, keepTerminator, terminator);
}
unittest
{
static import std.file;
import std.algorithm : take, equal;
//printf("Entering test at line %d\n", __LINE__);
scope(failure) printf("Failed test at line %d\n", __LINE__);
auto deleteme = testFilename();
std.file.write(deleteme, "");
scope(success) std.file.remove(deleteme);
// Test empty file
auto f = File(deleteme);
foreach (line; f.byLine())
{
assert(false);
}
f.detach();
assert(!f.isOpen);
void testTerm(Terminator)(string txt, string[] witness,
KeepTerminator kt, Terminator term, bool popFirstLine)
{
import std.conv : text;
uint i;
std.file.write(deleteme, txt);
auto f = File(deleteme);
scope(exit)
{
f.close();
assert(!f.isOpen);
}
auto lines = f.byLine(kt, term);
if (popFirstLine)
{
lines.popFront();
i = 1;
}
assert(lines.empty || lines.front is lines.front);
foreach (line; lines)
{
assert(line == witness[i++]);
}
assert(i == witness.length, text(i, " != ", witness.length));
}
/* Wrap with default args.
* Note: Having a default argument for terminator = '\n' would prevent
* instantiating Terminator=string (or "\n" would prevent Terminator=char) */
void test(string txt, string[] witness,
KeepTerminator kt = KeepTerminator.no,
bool popFirstLine = false)
{
testTerm(txt, witness, kt, '\n', popFirstLine);
}
test("", null);
test("\n", [ "" ]);
test("asd\ndef\nasdf", [ "asd", "def", "asdf" ]);
test("asd\ndef\nasdf", [ "asd", "def", "asdf" ], KeepTerminator.no, true);
test("asd\ndef\nasdf\n", [ "asd", "def", "asdf" ]);
test("foo", [ "foo" ], KeepTerminator.no, true);
testTerm("bob\r\nmarge\r\nsteve\r\n", ["bob", "marge", "steve"],
KeepTerminator.no, "\r\n", false);
testTerm("sue\r", ["sue"], KeepTerminator.no, '\r', false);
test("", null, KeepTerminator.yes);
test("\n", [ "\n" ], KeepTerminator.yes);
test("asd\ndef\nasdf", [ "asd\n", "def\n", "asdf" ], KeepTerminator.yes);
test("asd\ndef\nasdf\n", [ "asd\n", "def\n", "asdf\n" ], KeepTerminator.yes);
test("asd\ndef\nasdf\n", [ "asd\n", "def\n", "asdf\n" ], KeepTerminator.yes, true);
test("foo", [ "foo" ], KeepTerminator.yes, false);
testTerm("bob\r\nmarge\r\nsteve\r\n", ["bob\r\n", "marge\r\n", "steve\r\n"],
KeepTerminator.yes, "\r\n", false);
testTerm("sue\r", ["sue\r"], KeepTerminator.yes, '\r', false);
auto file = File.tmpfile();
file.write("1\n2\n3\n");
// bug 9599
file.rewind();
File.ByLine!(char, char) fbl = file.byLine();
auto fbl2 = fbl;
assert(fbl.front == "1");
assert(fbl.front is fbl2.front);
assert(fbl.take(1).equal(["1"]));
assert(fbl.equal(["2", "3"]));
assert(fbl.empty);
assert(file.isOpen); // we still have a valid reference
file.rewind();
fbl = file.byLine();
assert(!fbl.drop(2).empty);
assert(fbl.equal(["3"]));
assert(fbl.empty);
assert(file.isOpen);
file.detach();
assert(!file.isOpen);
}
template byRecord(Fields...)
{
ByRecord!(Fields) byRecord(string format)
{
return typeof(return)(this, format);
}
}
unittest
{
// static import std.file;
//
// auto deleteme = testFilename();
// rndGen.popFront();
// scope(failure) printf("Failed test at line %d\n", __LINE__);
// std.file.write(deleteme, "1 2\n4 1\n5 100");
// scope(exit) std.file.remove(deleteme);
// File f = File(deleteme);
// scope(exit) f.close();
// auto t = [ tuple(1, 2), tuple(4, 1), tuple(5, 100) ];
// uint i;
// foreach (e; f.byRecord!(int, int)("%s %s"))
// {
// //.writeln(e);
// assert(e == t[i++]);
// }
}
// Note: This was documented until 2013/08
/*
* Range that reads a chunk at a time.
*/
struct ByChunk
{
private:
File file_;
ubyte[] chunk_;
void prime()
{
chunk_ = file_.rawRead(chunk_);
if (chunk_.length == 0)
file_.detach();
}
public:
this(File file, size_t size)
{
this(file, new ubyte[](size));
}
this(File file, ubyte[] buffer)
{
import std.exception;
enforce(buffer.length, "size must be larger than 0");
file_ = file;
chunk_ = buffer;
prime();
}
// $(D ByChunk)'s input range primitive operations.
@property nothrow
bool empty() const
{
return !file_.isOpen;
}
/// Ditto
@property nothrow
ubyte[] front()
{
version(assert) if (empty) throw new RangeError();
return chunk_;
}
/// Ditto
void popFront()
{
version(assert) if (empty) throw new RangeError();
prime();
}
}
/**
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 $(D ubyte[]). Range primitives
may throw $(D 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, $(D 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[1024 * 4096]))
{
... use buffer ...
}
}
---------
In either case, the content of the buffer is reused across calls. That means
$(D front) will not persist after $(D popFront) is called, so if retention is
needed, the caller must copy its contents (e.g. by calling $(D buffer.dup)).
In the example above, $(D buffer.length) is 4096 for all iterations, except
for the last one, in which case $(D buffer.length) may be less than 4096 (but
always greater than zero).
With the mentioned limitations, $(D byChunks) 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());
}
---
Returns: A call to $(D byChunk) returns a range initialized with the $(D File)
object and the appropriate buffer.
Throws: If the user-provided size is zero or the user-provided buffer
is empty, throws an $(D Exception). In case of an I/O error throws
$(D StdioException).
*/
auto byChunk(size_t chunkSize)
{
return ByChunk(this, chunkSize);
}
/// Ditto
ByChunk byChunk(ubyte[] buffer)
{
return ByChunk(this, buffer);
}
unittest
{
static import std.file;
scope(failure) printf("Failed test at line %d\n", __LINE__);
auto deleteme = testFilename();
std.file.write(deleteme, "asd\ndef\nasdf");
auto witness = ["asd\n", "def\n", "asdf" ];
auto f = File(deleteme);
scope(exit)
{
f.close();
assert(!f.isOpen);
std.file.remove(deleteme);
}
uint i;
foreach (chunk; f.byChunk(4))
assert(chunk == cast(ubyte[])witness[i++]);
assert(i == witness.length);
}
unittest
{
static import std.file;
scope(failure) printf("Failed test at line %d\n", __LINE__);
auto deleteme = testFilename();
std.file.write(deleteme, "asd\ndef\nasdf");
auto witness = ["asd\n", "def\n", "asdf" ];
auto f = File(deleteme);
scope(exit)
{
f.close();
assert(!f.isOpen);
std.file.remove(deleteme);
}
uint i;
foreach (chunk; f.byChunk(new ubyte[4]))
assert(chunk == cast(ubyte[])witness[i++]);
assert(i == witness.length);
}
// Note: This was documented until 2013/08
/*
$(D Range) that locks the file and allows fast writing to it.
*/
struct LockingTextWriter
{
FILE* fps; // the shared file handle
_iobuf* handle; // the unshared version of fps
int orientation;
this(ref File f)
{
import std.exception : enforce;
enforce(f._p && f._p.handle);
fps = f._p.handle;
orientation = fwide(fps, 0);
FLOCK(fps);
handle = cast(_iobuf*)fps;
}
~this()
{
if(fps)
{
FUNLOCK(fps);
fps = null;
handle = null;
}
}
this(this)
{
if(fps)
{
FLOCK(fps);
}
}
/// Range primitive implementations.
void put(A)(A writeme) if (is(ElementType!A : const(dchar)))
{
import std.exception : errnoEnforce;
alias ElementEncodingType!A C;
static assert(!is(C == void));
if (writeme[0].sizeof == 1 && orientation <= 0)
{
//file.write(writeme); causes infinite recursion!!!
//file.rawWrite(writeme);
auto result =
.fwrite(writeme.ptr, C.sizeof, writeme.length, fps);
if (result != writeme.length) errnoEnforce(0);
}
else
{
// put each character in turn
foreach (dchar c; writeme)
{
put(c);
}
}
}
// @@@BUG@@@ 2340
//void front(C)(C c) if (is(C : dchar)) {
/// ditto
void put(C)(C c) if (is(C : const(dchar)))
{
static if (c.sizeof == 1)
{
// simple char
if (orientation <= 0) FPUTC(c, handle);
else FPUTWC(c, handle);
}
else static if (c.sizeof == 2)
{
if (orientation <= 0)
{
if (c <= 0x7F)
{
FPUTC(c, handle);
}
else
{
char[4] buf;
auto b = std.utf.toUTF8(buf, c);
foreach (i ; 0 .. b.length)
FPUTC(b[i], handle);
}
}
else
{
FPUTWC(c, handle);
}
}
else // 32-bit characters
{
if (orientation <= 0)
{
if (c <= 0x7F)
{
FPUTC(c, handle);
}
else
{
char[4] buf = void;
auto b = std.utf.toUTF8(buf, c);
foreach (i ; 0 .. b.length)
FPUTC(b[i], handle);
}
}
else
{
version (Windows)
{
import std.utf : isValidDchar;
assert(isValidDchar(c));
if (c <= 0xFFFF)
{
FPUTWC(c, handle);
}
else
{
FPUTWC(cast(wchar)
((((c - 0x10000) >> 10) & 0x3FF)
+ 0xD800), handle);
FPUTWC(cast(wchar)
(((c - 0x10000) & 0x3FF) + 0xDC00),
handle);
}
}
else version (Posix)
{
FPUTWC(c, handle);
}
else
{
static assert(0);
}
}
}
}
}
/** Returns an output range that locks the file and allows fast writing to it.
See $(LREF byChunk) for an example.
*/
auto lockingTextWriter()
{
return LockingTextWriter(this);
}
/// Get the size of the file, ulong.max if file is not searchable, but still throws if an actual error occurs.
@property ulong size()
{
import std.exception : collectException;
ulong pos = void;
if (collectException(pos = tell)) return ulong.max;
scope(exit) seek(pos);
seek(0, SEEK_END);
return tell;
}
}
unittest
{
static import std.file;
import std.exception : collectException;
auto deleteme = testFilename();
scope(exit) collectException(std.file.remove(deleteme));
std.file.write(deleteme, "1 2 3");
auto f = File(deleteme);
assert(f.size == 5);
assert(f.tell == 0);
}
/// Used to specify the lock type for $(D File.lock) and $(D File.tryLock).
enum LockType
{
/// 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.
read,
/// 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.
readWrite
}
struct LockingTextReader
{
private File _f;
private dchar _crt;
this(File f)
{
import std.exception : enforce;
enforce(f.isOpen);
_f = f;
FLOCK(_f._p.handle);
}
this(this)
{
FLOCK(_f._p.handle);
}
~this()
{
// File locking has its own reference count
if (_f.isOpen) FUNLOCK(_f._p.handle);
}
void opAssign(LockingTextReader r)
{
import std.algorithm : swap;
swap(this, r);
}
@property bool empty()
{
import std.exception : enforce;
if (!_f.isOpen || _f.eof) return true;
if (_crt == _crt.init)
{
_crt = FGETC(cast(_iobuf*) _f._p.handle);
if (_crt == -1)
{
.destroy(_f);
return true;
}
else
{
enforce(ungetc(_crt, cast(FILE*) _f._p.handle) == _crt);
}
}
return false;
}
@property dchar front()
{
version(assert) if (empty) throw new RangeError();
return _crt;
}
void popFront()
{
version(assert) if (empty) throw new RangeError();
if (FGETC(cast(_iobuf*) _f._p.handle) == -1)
{
import std.exception : enforce;
enforce(_f.eof);
}
_crt = _crt.init;
}
// void unget(dchar c)
// {
// ungetc(c, cast(FILE*) _f._p.handle);
// }
}
unittest
{
static import std.file;
static assert(isInputRange!LockingTextReader);
auto deleteme = testFilename();
std.file.write(deleteme, "1 2 3");
scope(exit) std.file.remove(deleteme);
int x, y;
auto f = File(deleteme);
f.readf("%s ", &x);
assert(x == 1);
f.readf("%d ", &x);
assert(x == 2);
f.readf("%d ", &x);
assert(x == 3);
//pragma(msg, "--- todo: readf ---");
}
private
void writefx(FILE* fps, TypeInfo[] arguments, va_list argptr, int newline=false)
{
import std.format : doFormat;
import std.utf : toUTF8;
int orientation = fwide(fps, 0); // move this inside the lock?
/* Do the file stream locking at the outermost level
* rather than character by character.
*/
FLOCK(fps);
scope(exit) FUNLOCK(fps);
auto fp = cast(_iobuf*)fps; // fp is locked version
if (orientation <= 0) // byte orientation or no orientation
{
void putc(dchar c)
{
if (c <= 0x7F)
{
FPUTC(c, fp);
}
else
{
char[4] buf = void;
foreach (i; 0 .. std.utf.toUTF8(buf, c).length)
FPUTC(buf[i], fp);
}
}
std.format.doFormat(&putc, arguments, argptr);
if (newline)
FPUTC('\n', fp);
}
else if (orientation > 0) // wide orientation
{
version (Windows)
{
void putcw(dchar c)
{
import std.utf : isValidDchar;
assert(isValidDchar(c));
if (c <= 0xFFFF)
{
FPUTWC(c, fp);
}
else
{
FPUTWC(cast(wchar) ((((c - 0x10000) >> 10) & 0x3FF) +
0xD800), fp);
FPUTWC(cast(wchar) (((c - 0x10000) & 0x3FF) + 0xDC00), fp);
}
}
}
else version (Posix)
{
void putcw(dchar c)
{
FPUTWC(c, fp);
}
}
else
{
static assert(0);
}
std.format.doFormat(&putcw, arguments, argptr);
if (newline)
FPUTWC('\n', fp);
}
}
/**
* Indicates whether $(D T) is a file handle of some kind.
*/
template isFileHandle(T)
{
enum isFileHandle = is(T : FILE*) ||
is(T : File);
}
unittest
{
static assert(isFileHandle!(FILE*));
static assert(isFileHandle!(File));
}
/**
* $(RED Scheduled for deprecation in January 2013.
* Please use $(D isFileHandle) instead.)
*/
alias isFileHandle isStreamingDevice;
/***********************************
For each argument $(D arg) in $(D args), format the argument (as per
$(LINK2 std_conv.html, to!(string)(arg))) and write the resulting
string to $(D args[0]). A call without any arguments will fail to
compile.
Throws: In case of an I/O error, throws an $(D StdioException).
*/
void write(T...)(T args) if (!is(T[0] : File))
{
stdout.write(args);
}
unittest
{
static import std.file;
//printf("Entering test at line %d\n", __LINE__);
scope(failure) printf("Failed test at line %d\n", __LINE__);
void[] buf;
if (false) write(buf);
// test write
auto deleteme = testFilename();
auto f = File(deleteme, "w");
f.write("Hello, ", "world number ", 42, "!");
f.close();
scope(exit) { std.file.remove(deleteme); }
assert(cast(char[]) std.file.read(deleteme) == "Hello, world number 42!");
// // test write on stdout
//auto saveStdout = stdout;
//scope(exit) stdout = saveStdout;
//stdout.open(file, "w");
Object obj;
//write("Hello, ", "world number ", 42, "! ", obj);
//stdout.close();
// auto result = cast(char[]) std.file.read(file);
// assert(result == "Hello, world number 42! null", result);
}
/***********************************
* Equivalent to $(D write(args, '\n')). Calling $(D writeln) without
* arguments is valid and just prints a newline to the standard
* output.
*/
void writeln(T...)(T args)
{
static if (T.length == 0)
{
import std.exception : enforce;
enforce(fputc('\n', .stdout._p.handle) == '\n');
}
else static if (T.length == 1 &&
is(typeof(args[0]) : const(char)[]) &&
!is(typeof(args[0]) == enum) &&
!is(Unqual!(typeof(args[0])) == typeof(null)) &&
!isAggregateType!(typeof(args[0])))
{
import std.exception : enforce;
// Specialization for strings - a very frequent case
enforce(fprintf(.stdout._p.handle, "%.*s\n",
cast(int) args[0].length, args[0].ptr) >= 0);
}
else
{
// Most general instance
stdout.write(args, '\n');
}
}
unittest
{
// Just make sure the call compiles
if (false) writeln();
if (false) writeln("wyda");
// bug 8040
if (false) writeln(null);
if (false) writeln(">", null, "<");
}
unittest
{
static import std.file;
//printf("Entering test at line %d\n", __LINE__);
scope(failure) printf("Failed test at line %d\n", __LINE__);
// test writeln
auto deleteme = testFilename();
auto f = File(deleteme, "w");
scope(exit) { std.file.remove(deleteme); }
f.writeln("Hello, ", "world number ", 42, "!");
f.close();
version (Windows)
assert(cast(char[]) std.file.read(deleteme) ==
"Hello, world number 42!\r\n");
else
assert(cast(char[]) std.file.read(deleteme) ==
"Hello, world number 42!\n");
// test writeln on stdout
auto saveStdout = stdout;
scope(exit) stdout = saveStdout;
stdout.open(deleteme, "w");
writeln("Hello, ", "world number ", 42, "!");
stdout.close();
version (Windows)
assert(cast(char[]) std.file.read(deleteme) ==
"Hello, world number 42!\r\n");
else
assert(cast(char[]) std.file.read(deleteme) ==
"Hello, world number 42!\n");
stdout.open(deleteme, "w");
writeln("Hello!"c);
writeln("Hello!"w); // bug 8386
writeln("Hello!"d); // bug 8386
stdout.close();
version (Windows)
assert(cast(char[]) std.file.read(deleteme) ==
"Hello!\r\nHello!\r\nHello!\r\n");
else
assert(cast(char[]) std.file.read(deleteme) ==
"Hello!\nHello!\nHello!\n");
}
unittest
{
static import std.file;
auto deleteme = testFilename();
auto f = File(deleteme, "w");
scope(exit) { std.file.remove(deleteme); }
enum EI : int { A, B }
enum ED : double { A, B }
enum EC : char { A, B }
enum ES : string { A = "aaa", B = "bbb" }
f.writeln(EI.A); // false, but A on 2.058
f.writeln(EI.B); // true, but B on 2.058
f.writeln(ED.A); // A
f.writeln(ED.B); // B
f.writeln(EC.A); // A
f.writeln(EC.B); // B
f.writeln(ES.A); // A
f.writeln(ES.B); // B
f.close();
version (Windows)
assert(cast(char[]) std.file.read(deleteme) ==
"A\r\nB\r\nA\r\nB\r\nA\r\nB\r\nA\r\nB\r\n");
else
assert(cast(char[]) std.file.read(deleteme) ==
"A\nB\nA\nB\nA\nB\nA\nB\n");
}
unittest
{
static auto useInit(T)(T ltw)
{
T val;
val = ltw;
val = T.init;
return val;
}
useInit(stdout.lockingTextWriter());
}
/***********************************
* If the first argument $(D args[0]) is a $(D FILE*), use
* $(LINK2 std_format.html#format-string, the format specifier) in
* $(D args[1]) to control the formatting of $(D
* args[2..$]), and write the resulting string to $(D args[0]).
* If $(D arg[0]) is not a $(D FILE*), the call is
* equivalent to $(D writef(stdout, args)).
*
IMPORTANT:
New behavior starting with D 2.006: unlike previous versions,
$(D writef) (and also $(D writefln)) only scans its first
string argument for format specifiers, but not subsequent string
arguments. This decision was made because the old behavior made it
unduly hard to simply print string variables that occasionally
embedded percent signs.
Also new starting with 2.006 is support for positional
parameters with
$(LINK2 http://opengroup.org/onlinepubs/009695399/functions/printf.html,
POSIX) syntax.
Example:
-------------------------
writef("Date: %2$s %1$s", "October", 5); // "Date: 5 October"
------------------------
The positional and non-positional styles can be mixed in the same
format string. (POSIX leaves this behavior undefined.) The internal
counter for non-positional parameters tracks the popFront parameter after
the largest positional parameter already used.
New starting with 2.008: raw format specifiers. Using the "%r"
specifier makes $(D writef) simply write the binary
representation of the argument. Use "%-r" to write numbers in little
endian format, "%+r" to write numbers in big endian format, and "%r"
to write numbers in platform-native format.
*/
void writef(T...)(T args)
{
stdout.writef(args);
}
unittest
{
static import std.file;
//printf("Entering test at line %d\n", __LINE__);
scope(failure) printf("Failed test at line %d\n", __LINE__);
// test writef
auto deleteme = testFilename();
auto f = File(deleteme, "w");
scope(exit) { std.file.remove(deleteme); }
f.writef("Hello, %s world number %s!", "nice", 42);
f.close();
assert(cast(char[]) std.file.read(deleteme) == "Hello, nice world number 42!");
// test write on stdout
auto saveStdout = stdout;
scope(exit) stdout = saveStdout;
stdout.open(deleteme, "w");
writef("Hello, %s world number %s!", "nice", 42);
stdout.close();
assert(cast(char[]) std.file.read(deleteme) == "Hello, nice world number 42!");
}
/***********************************
* Equivalent to $(D writef(args, '\n')).
*/
void writefln(T...)(T args)
{
stdout.writefln(args);
}
unittest
{
static import std.file;
//printf("Entering test at line %d\n", __LINE__);
scope(failure) printf("Failed test at line %d\n", __LINE__);
// test writefln
auto deleteme = testFilename();
auto f = File(deleteme, "w");
scope(exit) { std.file.remove(deleteme); }
f.writefln("Hello, %s world number %s!", "nice", 42);
f.close();
version (Windows)
assert(cast(char[]) std.file.read(deleteme) ==
"Hello, nice world number 42!\r\n");
else
assert(cast(char[]) std.file.read(deleteme) ==
"Hello, nice world number 42!\n",
cast(char[]) std.file.read(deleteme));
// test write on stdout
// auto saveStdout = stdout;
// scope(exit) stdout = saveStdout;
// stdout.open(file, "w");
// assert(stdout.isOpen);
// writefln("Hello, %s world number %s!", "nice", 42);
// foreach (F ; TypeTuple!(ifloat, idouble, ireal))
// {
// F a = 5i;
// F b = a % 2;
// writeln(b);
// }
// stdout.close();
// auto read = cast(char[]) std.file.read(file);
// version (Windows)
// assert(read == "Hello, nice world number 42!\r\n1\r\n1\r\n1\r\n", read);
// else
// assert(read == "Hello, nice world number 42!\n1\n1\n1\n", "["~read~"]");
}
/**
* Read data from $(D stdin) according to the specified
* $(LINK2 std_format.html#format-string, format specifier) using
* $(XREF format,formattedRead).
*/
uint readf(A...)(in char[] format, A args)
{
return stdin.readf(format, args);
}
unittest
{
float f;
if (false) uint x = readf("%s", &f);
char a;
wchar b;
dchar c;
if (false) readf("%s %s %s", &a,&b,&c);
}
/**********************************
* Read line from $(D 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 $(D 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.
* Params:
* S = Template parameter; the type of the allocated buffer, and the type returned. Defaults to $(D string).
* terminator = line terminator (by default, '\n')
* Throws:
* $(D StdioException) on I/O error, or $(D UnicodeException) on Unicode conversion error.
* Example:
* Reads $(D stdin) and writes it to $(D stdout).
---
import std.stdio;
void main()
{
string line;
while ((line = readln()) !is null)
write(line);
}
---
*/
S readln(S = string)(dchar terminator = '\n')
if (isSomeString!S)
{
return stdin.readln!S(terminator);
}
/**********************************
* Read line from $(D stdin) and write it to buf[], including terminating character.
*
* This can be faster than $(D 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:
* $(D size_t) 0 for end of file, otherwise number of characters read
* Params:
* buf = Buffer used to store the resulting line data. buf is resized as necessary.
* terminator = line terminator (by default, '\n')
* Throws:
* $(D StdioException) on I/O error, or $(D UnicodeException) on Unicode conversion error.
* Example:
* Reads $(D stdin) and writes it to $(D stdout).
---
import std.stdio;
void main()
{
char[] buf;
while (readln(buf))
write(buf);
}
---
*/
size_t readln(C)(ref C[] buf, dchar terminator = '\n')
if (isSomeChar!C && is(Unqual!C == C) && !is(C == enum))
{
return stdin.readln(buf, terminator);
}
/** ditto */
size_t readln(C, R)(ref C[] buf, R terminator)
if (isSomeChar!C && is(Unqual!C == C) && !is(C == enum) &&
isBidirectionalRange!R && is(typeof(terminator.front == dchar.init)))
{
return stdin.readln(buf, terminator);
}
unittest
{
import std.typetuple : TypeTuple;
//we can't actually test readln, so at the very least,
//we test compilability
void foo()
{
readln();
readln('\t');
foreach (String; TypeTuple!(string, char[], wstring, wchar[], dstring, dchar[]))
{
readln!String();
readln!String('\t');
}
foreach (String; TypeTuple!(char[], wchar[], dchar[]))
{
String buf;
readln(buf);
readln(buf, '\t');
readln(buf, "<br />");
}
}
}
/*
* Convenience function that forwards to $(D core.stdc.stdio.fopen)
* (to $(D _wfopen) on Windows)
* with appropriately-constructed C-style strings.
*/
private FILE* fopen(in char[] name, in char[] mode = "r")
{
import std.string : toStringz;
version(Windows)
{
import std.utf : toUTF16z;
return _wfopen(toUTF16z(name), toUTF16z(mode));
}
else version(Posix)
{
/*
* The new opengroup large file support API is transparently
* included in the normal C bindings. http://opengroup.org/platform/lfs.html#1.0
* if _FILE_OFFSET_BITS in druntime is 64, off_t is 64 bit and
* the normal functions work fine. If not, then large file support
* probably isn't available. Do not use the old transitional API
* (the native extern(C) fopen64, http://www.unix.org/version2/whatsnew/lfs20mar.html#3.0)
*/
return core.sys.posix.stdio.fopen(toStringz(name), toStringz(mode));
}
else
{
return core.stdc.stdio.fopen(toStringz(name), toStringz(mode));
}
}
version (Posix)
{
/***********************************
* Convenience function that forwards to $(D std.c.stdio.popen)
* with appropriately-constructed C-style strings.
*/
FILE* popen(in char[] name, in char[] mode = "r")
{
import std.string : toStringz;
return core.sys.posix.stdio.popen(toStringz(name), toStringz(mode));
}
}
/*
* Convenience function that forwards to $(D std.c.stdio.fwrite)
* and throws an exception upon error
*/
private void binaryWrite(T)(FILE* f, T obj)
{
immutable result = fwrite(obj.ptr, obj[0].sizeof, obj.length, f);
if (result != obj.length) StdioException();
}
/**
* Iterates through the lines of a file by using $(D 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 $(D line), and the behavior of $(D lines)
changes accordingly:
$(OL $(LI If $(D line) has type $(D string), $(D
wstring), or $(D dstring), a new string of the respective type
is allocated every read.) $(LI If $(D line) has type $(D
char[]), $(D wchar[]), $(D dchar[]), the line's content
will be reused (overwritten) across reads.) $(LI If $(D line)
has type $(D immutable(ubyte)[]), the behavior is similar to
case (1), except that no UTF checking is attempted upon input.) $(LI
If $(D line) has type $(D ubyte[]), the behavior is
similar to case (2), except that no UTF checking is attempted upon
input.))
In all cases, a two-symbols versions is also accepted, in which case
the first symbol (of integral type, e.g. $(D ulong) or $(D
uint)) tracks the zero-based number of the current line.
Example:
----
foreach (ulong i, string line; lines(stdin))
{
... use line ...
}
----
In case of an I/O error, an $(D StdioException) is thrown.
*/
struct lines
{
private File f;
private dchar terminator = '\n';
// private string fileName; // Curretly, no use
this(File f, dchar terminator = '\n')
{
this.f = f;
this.terminator = terminator;
}
// Keep these commented lines for later, when Walter fixes the
// exception model.
// static lines opCall(string fName, dchar terminator = '\n')
// {
// auto f = enforce(fopen(fName),
// new StdioException("Cannot open file `"~fName~"' for reading"));
// auto result = lines(f, terminator);
// result.fileName = fName;
// return result;
// }
int opApply(D)(scope D dg)
{
// scope(exit) {
// if (fileName.length && fclose(f))
// StdioException("Could not close file `"~fileName~"'");
// }
alias ParameterTypeTuple!(dg) Parms;
static if (isSomeString!(Parms[$ - 1]))
{
enum bool duplicate = is(Parms[$ - 1] == string)
|| is(Parms[$ - 1] == wstring) || is(Parms[$ - 1] == dstring);
int result = 0;
static if (is(Parms[$ - 1] : const(char)[]))
alias char C;
else static if (is(Parms[$ - 1] : const(wchar)[]))
alias wchar C;
else static if (is(Parms[$ - 1] : const(dchar)[]))
alias dchar C;
C[] line;
static if (Parms.length == 2)
Parms[0] i = 0;
for (;;)
{
import std.conv : to;
if (!f.readln(line, terminator)) break;
auto copy = to!(Parms[$ - 1])(line);
static if (Parms.length == 2)
{
result = dg(i, copy);
++i;
}
else
{
result = dg(copy);
}
if (result != 0) break;
}
return result;
}
else
{
// raw read
return opApplyRaw(dg);
}
}
// no UTF checking
int opApplyRaw(D)(scope D dg)
{
import std.exception : assumeUnique;
import std.conv : to;
alias ParameterTypeTuple!(dg) Parms;
enum duplicate = is(Parms[$ - 1] : immutable(ubyte)[]);
int result = 1;
int c = void;
FLOCK(f._p.handle);
scope(exit) FUNLOCK(f._p.handle);
ubyte[] buffer;
static if (Parms.length == 2)
Parms[0] line = 0;
while ((c = FGETC(cast(_iobuf*)f._p.handle)) != -1)
{
buffer ~= to!(ubyte)(c);
if (c == terminator)
{
static if (duplicate)
auto arg = assumeUnique(buffer);
else
alias buffer arg;
// unlock the file while calling the delegate
FUNLOCK(f._p.handle);
scope(exit) FLOCK(f._p.handle);
static if (Parms.length == 1)
{
result = dg(arg);
}
else
{
result = dg(line, arg);
++line;
}
if (result) break;
static if (!duplicate)
buffer.length = 0;
}
}
// can only reach when FGETC returned -1
if (!f.eof) throw new StdioException("Error in reading file"); // error occured
return result;
}
}
unittest
{
static import std.file;
import std.typetuple : TypeTuple;
//printf("Entering test at line %d\n", __LINE__);
scope(failure) printf("Failed test at line %d\n", __LINE__);
auto deleteme = testFilename();
scope(exit) { std.file.remove(deleteme); }
alias TypeTuple!(string, wstring, dstring,
char[], wchar[], dchar[])
TestedWith;
foreach (T; TestedWith) {
// test looping with an empty file
std.file.write(deleteme, "");
auto f = File(deleteme, "r");
foreach (T line; lines(f))
{
assert(false);
}
f.close();
// test looping with a file with three lines
std.file.write(deleteme, "Line one\nline two\nline three\n");
f.open(deleteme, "r");
uint i = 0;
foreach (T line; lines(f))
{
if (i == 0) assert(line == "Line one\n");
else if (i == 1) assert(line == "line two\n");
else if (i == 2) assert(line == "line three\n");
else assert(false);
++i;
}
f.close();
// test looping with a file with three lines, last without a newline
std.file.write(deleteme, "Line one\nline two\nline three");
f.open(deleteme, "r");
i = 0;
foreach (T line; lines(f))
{
if (i == 0) assert(line == "Line one\n");
else if (i == 1) assert(line == "line two\n");
else if (i == 2) assert(line == "line three");
else assert(false);
++i;
}
f.close();
}
// test with ubyte[] inputs
//@@@BUG 2612@@@
//alias TypeTuple!(immutable(ubyte)[], ubyte[]) TestedWith2;
alias TypeTuple!(immutable(ubyte)[], ubyte[]) TestedWith2;
foreach (T; TestedWith2) {
// test looping with an empty file
std.file.write(deleteme, "");
auto f = File(deleteme, "r");
foreach (T line; lines(f))
{
assert(false);
}
f.close();
// test looping with a file with three lines
std.file.write(deleteme, "Line one\nline two\nline three\n");
f.open(deleteme, "r");
uint i = 0;
foreach (T line; lines(f))
{
if (i == 0) assert(cast(char[]) line == "Line one\n");
else if (i == 1) assert(cast(char[]) line == "line two\n",
T.stringof ~ " " ~ cast(char[]) line);
else if (i == 2) assert(cast(char[]) line == "line three\n");
else assert(false);
++i;
}
f.close();
// test looping with a file with three lines, last without a newline
std.file.write(deleteme, "Line one\nline two\nline three");
f.open(deleteme, "r");
i = 0;
foreach (T line; lines(f))
{
if (i == 0) assert(cast(char[]) line == "Line one\n");
else if (i == 1) assert(cast(char[]) line == "line two\n");
else if (i == 2) assert(cast(char[]) line == "line three");
else assert(false);
++i;
}
f.close();
}
foreach (T; TypeTuple!(ubyte[]))
{
// test looping with a file with three lines, last without a newline
// using a counter too this time
std.file.write(deleteme, "Line one\nline two\nline three");
auto f = File(deleteme, "r");
uint i = 0;
foreach (ulong j, T line; lines(f))
{
if (i == 0) assert(cast(char[]) line == "Line one\n");
else if (i == 1) assert(cast(char[]) line == "line two\n");
else if (i == 2) assert(cast(char[]) line == "line three");
else assert(false);
++i;
}
f.close();
}
}
/**
Iterates through a file a chunk at a time by using $(D foreach).
Example:
---------
void main()
{
foreach (ubyte[] buffer; chunks(stdin, 4096))
{
... use buffer ...
}
}
---------
The content of $(D buffer) is reused across calls. In the
example above, $(D buffer.length) is 4096 for all iterations,
except for the last one, in which case $(D buffer.length) may
be less than 4096 (but always greater than zero).
In case of an I/O error, an $(D StdioException) is thrown.
*/
auto chunks(File f, size_t size)
{
return ChunksImpl(f, size);
}
private struct ChunksImpl
{
private File f;
private size_t size;
// private string fileName; // Currently, no use
this(File f, size_t size)
in
{
assert(size, "size must be larger than 0");
}
body
{
this.f = f;
this.size = size;
}
// static chunks opCall(string fName, size_t size)
// {
// auto f = enforce(fopen(fName),
// new StdioException("Cannot open file `"~fName~"' for reading"));
// auto result = chunks(f, size);
// result.fileName = fName;
// return result;
// }
int opApply(D)(scope D dg)
{
enum maxStackSize = 1024 * 16;
ubyte[] buffer = void;
if (size < maxStackSize)
buffer = (cast(ubyte*) alloca(size))[0 .. size];
else
buffer = new ubyte[size];
size_t r = void;
int result = 1;
uint tally = 0;
while ((r = core.stdc.stdio.fread(buffer.ptr,
buffer[0].sizeof, size, f._p.handle)) > 0)
{
assert(r <= size);
if (r != size)
{
// error occured
if (!f.eof) throw new StdioException(null);
buffer.length = r;
}
static if (is(typeof(dg(tally, buffer)))) {
if ((result = dg(tally, buffer)) != 0) break;
} else {
if ((result = dg(buffer)) != 0) break;
}
++tally;
}
return result;
}
}
unittest
{
static import std.file;
//printf("Entering test at line %d\n", __LINE__);
scope(failure) printf("Failed test at line %d\n", __LINE__);
auto deleteme = testFilename();
scope(exit) { std.file.remove(deleteme); }
// test looping with an empty file
std.file.write(deleteme, "");
auto f = File(deleteme, "r");
foreach (ubyte[] line; chunks(f, 4))
{
assert(false);
}
f.close();
// test looping with a file with three lines
std.file.write(deleteme, "Line one\nline two\nline three\n");
f = File(deleteme, "r");
uint i = 0;
foreach (ubyte[] line; chunks(f, 3))
{
if (i == 0) assert(cast(char[]) line == "Lin");
else if (i == 1) assert(cast(char[]) line == "e o");
else if (i == 2) assert(cast(char[]) line == "ne\n");
else break;
++i;
}
f.close();
}
/*********************
* Thrown if I/O errors happen.
*/
class StdioException : Exception
{
/// Operating system error code.
uint errno;
/**
Initialize with a message and an error code. */
this(string message, uint e = .errno)
{
import std.conv : to;
errno = e;
version (Posix)
{
import std.c.string : strerror_r;
char[256] buf = void;
version (linux)
{
auto s = std.c.string.strerror_r(errno, buf.ptr, buf.length);
}
else
{
std.c.string.strerror_r(errno, buf.ptr, buf.length);
auto s = buf.ptr;
}
}
else
{
auto s = core.stdc.string.strerror(errno);
}
auto sysmsg = to!string(s);
// If e is 0, we don't use the system error message. (The message
// is "Success", which is rather pointless for an exception.)
super(e == 0 ? message
: (message.ptr ? message ~ " (" ~ sysmsg ~ ")" : sysmsg));
}
/** Convenience functions that throw an $(D StdioException). */
static void opCall(string msg)
{
throw new StdioException(msg);
}
/// ditto
static void opCall()
{
throw new StdioException(null, .errno);
}
}
extern(C) void std_stdio_static_this()
{
//Bind stdin, stdout, stderr
__gshared File.Impl stdinImpl;
stdinImpl.handle = core.stdc.stdio.stdin;
.stdin._p = &stdinImpl;
// stdout
__gshared File.Impl stdoutImpl;
stdoutImpl.handle = core.stdc.stdio.stdout;
.stdout._p = &stdoutImpl;
// stderr
__gshared File.Impl stderrImpl;
stderrImpl.handle = core.stdc.stdio.stderr;
.stderr._p = &stderrImpl;
}
//---------
__gshared
{
File stdin; /// The standard input stream.
File stdout; /// The standard output stream.
File stderr; /// The standard error stream.
}
unittest
{
static import std.file;
import std.typecons : tuple;
scope(failure) printf("Failed test at line %d\n", __LINE__);
auto deleteme = testFilename();
std.file.write(deleteme, "1 2\n4 1\n5 100");
scope(exit) std.file.remove(deleteme);
{
File f = File(deleteme);
scope(exit) f.close();
auto t = [ tuple(1, 2), tuple(4, 1), tuple(5, 100) ];
uint i;
foreach (e; f.byRecord!(int, int)("%s %s"))
{
//writeln(e);
assert(e == t[i++]);
}
assert(i == 3);
}
}
// Private implementation of readln
version (DIGITAL_MARS_STDIO)
private size_t readlnImpl(FILE* fps, ref char[] buf, dchar terminator = '\n')
{
FLOCK(fps);
scope(exit) FUNLOCK(fps);
/* Since fps is now locked, we can create an "unshared" version
* of fp.
*/
auto fp = cast(_iobuf*)fps;
if (__fhnd_info[fp._file] & FHND_WCHAR)
{ /* Stream is in wide characters.
* Read them and convert to chars.
*/
static assert(wchar_t.sizeof == 2);
auto app = appender(buf);
app.clear();
for (int c = void; (c = FGETWC(fp)) != -1; )
{
if ((c & ~0x7F) == 0)
{ app.put(cast(char) c);
if (c == terminator)
break;
}
else
{
if (c >= 0xD800 && c <= 0xDBFF)
{
int c2 = void;
if ((c2 = FGETWC(fp)) != -1 ||
c2 < 0xDC00 && c2 > 0xDFFF)
{
StdioException("unpaired UTF-16 surrogate");
}
c = ((c - 0xD7C0) << 10) + (c2 - 0xDC00);
}
//std.utf.encode(buf, c);
app.put(cast(dchar)c);
}
}
if (ferror(fps))
StdioException();
buf = app.data;
return buf.length;
}
auto sz = GC.sizeOf(buf.ptr);
//auto sz = buf.length;
buf = buf.ptr[0 .. sz];
if (fp._flag & _IONBF)
{
/* Use this for unbuffered I/O, when running
* across buffer boundaries, or for any but the common
* cases.
*/
L1:
auto app = appender(buf);
app.clear();
if(app.capacity == 0)
app.reserve(128); // get at least 128 bytes available
int c;
while((c = FGETC(fp)) != -1) {
app.put(cast(char) c);
if(c == terminator) {
buf = app.data;
return buf.length;
}
}
if (ferror(fps))
StdioException();
buf = app.data;
return buf.length;
}
else
{
int u = fp._cnt;
char* p = fp._ptr;
int i;
if (fp._flag & _IOTRAN)
{ /* Translated mode ignores \r and treats ^Z as end-of-file
*/
char c;
while (1)
{
if (i == u) // if end of buffer
goto L1; // give up
c = p[i];
i++;
if (c != '\r')
{
if (c == terminator)
break;
if (c != 0x1A)
continue;
goto L1;
}
else
{ if (i != u && p[i] == terminator)
break;
goto L1;
}
}
if (i > sz)
{
buf = uninitializedArray!(char[])(i);
}
if (i - 1)
memcpy(buf.ptr, p, i - 1);
buf[i - 1] = cast(char)terminator;
buf = buf[0 .. i];
if (terminator == '\n' && c == '\r')
i++;
}
else
{
while (1)
{
if (i == u) // if end of buffer
goto L1; // give up
auto c = p[i];
i++;
if (c == terminator)
break;
}
if (i > sz)
{
buf = uninitializedArray!(char[])(i);
}
memcpy(buf.ptr, p, i);
buf = buf[0 .. i];
}
fp._cnt -= i;
fp._ptr += i;
return i;
}
}
version (MICROSOFT_STDIO)
private size_t readlnImpl(FILE* fps, ref char[] buf, dchar terminator = '\n')
{
FLOCK(fps);
scope(exit) FUNLOCK(fps);
/* Since fps is now locked, we can create an "unshared" version
* of fp.
*/
auto fp = cast(_iobuf*)fps;
auto sz = GC.sizeOf(buf.ptr);
//auto sz = buf.length;
buf = buf.ptr[0 .. sz];
auto app = appender(buf);
app.clear();
if(app.capacity == 0)
app.reserve(128); // get at least 128 bytes available
int c;
while((c = FGETC(fp)) != -1) {
app.put(cast(char) c);
if(c == terminator) {
buf = app.data;
return buf.length;
}
}
if (ferror(fps))
StdioException();
buf = app.data;
return buf.length;
}
version (MINGW_IO)
private size_t readlnImpl(FILE* fps, ref char[] buf, dchar terminator = '\n')
{
FLOCK(fps);
scope(exit) FUNLOCK(fps);
auto fp = cast(_iobuf*)fps;
if (fwide(fps, 0) > 0)
{ /* Stream is in wide characters
* Read them and convert to chars.
*/
version (Windows)
{
buf.length = 0;
for (int c; (c = FGETWC(fp)) != -1; )
{
if ((c & ~0x7F) == 0)
{ buf ~= c;
if (c == terminator)
break;
}
else
{
if (c >= 0xD800 && c <= 0xDBFF)
{
int c2 = void;
if ((c2 = FGETWC(fp)) != -1 ||
c2 < 0xDC00 && c2 > 0xDFFF)
{
StdioException("unpaired UTF-16 surrogate");
}
c = ((c - 0xD7C0) << 10) + (c2 - 0xDC00);
}
std.utf.encode(buf, c);
}
}
if (ferror(cast(shared)fp))
StdioException();
return buf.length;
}
else version (Posix)
{
buf.length = 0;
for (int c; (c = FGETWC(fp)) != -1; )
{
if ((c & ~0x7F) == 0)
buf ~= cast(char)c;
else
std.utf.encode(buf, cast(dchar)c);
if (c == terminator)
break;
}
if (ferror(fps))
StdioException();
return buf.length;
}
else
{
static assert(0);
}
}
// Narrow stream
buf.length = 0;
for (int c; (c = FGETC(fp)) != -1; )
{
buf ~= cast(char)c;
if (c == terminator)
break;
}
if (ferror(fps))
StdioException();
return buf.length;
}
version (GCC_IO)
private size_t readlnImpl(FILE* fps, ref char[] buf, dchar terminator = '\n')
{
if (fwide(fps, 0) > 0)
{ /* Stream is in wide characters.
* Read them and convert to chars.
*/
FLOCK(fps);
scope(exit) FUNLOCK(fps);
auto fp = cast(_iobuf*)fps;
version (Windows)
{
buf.length = 0;
for (int c = void; (c = FGETWC(fp)) != -1; )
{
if ((c & ~0x7F) == 0)
{ buf ~= c;
if (c == terminator)
break;
}
else
{
if (c >= 0xD800 && c <= 0xDBFF)
{
int c2 = void;
if ((c2 = FGETWC(fp)) != -1 ||
c2 < 0xDC00 && c2 > 0xDFFF)
{
StdioException("unpaired UTF-16 surrogate");
}
c = ((c - 0xD7C0) << 10) + (c2 - 0xDC00);
}
std.utf.encode(buf, c);
}
}
if (ferror(fp))
StdioException();
return buf.length;
}
else version (Posix)
{
buf.length = 0;
for (int c; (c = FGETWC(fp)) != -1; )
{
if ((c & ~0x7F) == 0)
buf ~= cast(char)c;
else
std.utf.encode(buf, cast(dchar)c);
if (c == terminator)
break;
}
if (ferror(fps))
StdioException();
return buf.length;
}
else
{
static assert(0);
}
}
char *lineptr = null;
size_t n = 0;
auto s = getdelim(&lineptr, &n, terminator, fps);
scope(exit) free(lineptr);
if (s < 0)
{
if (ferror(fps))
StdioException();
buf.length = 0; // end of file
return 0;
}
buf = buf.ptr[0 .. GC.sizeOf(buf.ptr)];
if (s <= buf.length)
{
buf.length = s;
buf[] = lineptr[0 .. s];
}
else
{
buf = lineptr[0 .. s].dup;
}
return s;
}
version (GENERIC_IO)
private size_t readlnImpl(FILE* fps, ref char[] buf, dchar terminator = '\n')
{
import std.utf : encode;
FLOCK(fps);
scope(exit) FUNLOCK(fps);
auto fp = cast(_iobuf*)fps;
if (fwide(fps, 0) > 0)
{
/* Stream is in wide characters.
* Read them and convert to chars.
*/
version (Windows)
{
buf.length = 0;
for (int c; (c = FGETWC(fp)) != -1; )
{
if ((c & ~0x7F) == 0)
{ buf ~= c;
if (c == terminator)
break;
}
else
{
if (c >= 0xD800 && c <= 0xDBFF)
{
int c2 = void;
if ((c2 = FGETWC(fp)) != -1 ||
c2 < 0xDC00 && c2 > 0xDFFF)
{
StdioException("unpaired UTF-16 surrogate");
}
c = ((c - 0xD7C0) << 10) + (c2 - 0xDC00);
}
std.utf.encode(buf, c);
}
}
if (ferror(fp))
StdioException();
return buf.length;
}
else version (Posix)
{
buf.length = 0;
for (int c; (c = FGETWC(fp)) != -1; )
{
if ((c & ~0x7F) == 0)
buf ~= cast(char)c;
else
std.utf.encode(buf, cast(dchar)c);
if (c == terminator)
break;
}
if (ferror(fps))
StdioException();
return buf.length;
}
else
{
static assert(0);
}
}
// Narrow stream
// First, fill the existing buffer
for (size_t bufPos = 0; bufPos < buf.length; )
{
immutable c = FGETC(fp);
if (c == -1)
{
buf.length = bufPos;
goto endGame;
}
buf.ptr[bufPos++] = cast(char) c;
if (c == terminator)
{
// No need to test for errors in file
buf.length = bufPos;
return bufPos;
}
}
// Then, append to it
for (int c; (c = FGETC(fp)) != -1; )
{
buf ~= cast(char)c;
if (c == terminator)
{
// No need to test for errors in file
return buf.length;
}
}
endGame:
if (ferror(fps))
StdioException();
return buf.length;
}
/** Experimental network access via the File interface
Opens 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. Ruppe
Bugs:
Only works on Linux
*/
version(linux)
{
static import linux = std.c.linux.linux;
static import sock = std.c.linux.socket;
import core.stdc.string : memcpy;
File openNetwork(string host, ushort port)
{
import std.conv : to;
import std.exception : enforce;
auto h = enforce( sock.gethostbyname(std.string.toStringz(host)),
new StdioException("gethostbyname"));
int s = sock.socket(sock.AF_INET, sock.SOCK_STREAM, 0);
enforce(s != -1, new StdioException("socket"));
scope(failure)
{
linux.close(s); // want to make sure it doesn't dangle if
// something throws. Upon normal exit, the
// File struct's reference counting takes
// care of closing, so we don't need to
// worry about success
}
sock.sockaddr_in addr;
addr.sin_family = sock.AF_INET;
addr.sin_port = sock.htons(port);
core.stdc.string.memcpy(&addr.sin_addr.s_addr, h.h_addr, h.h_length);
enforce(sock.connect(s, cast(sock.sockaddr*) &addr, addr.sizeof) != -1,
new StdioException("Connect failed"));
return File(enforce(fdopen(s, "w+".ptr)),
host ~ ":" ~ to!string(port));
}
}
version(unittest) string testFilename(string file = __FILE__, size_t line = __LINE__)
{
import std.conv : text;
import std.path : baseName;
// Non-ASCII characters can't be used because of snn.lib @@@BUG8643@@@
version(DIGITAL_MARS_STDIO)
return text("deleteme-.", baseName(file), ".", line);
else
// filename intentionally contains non-ASCII (Russian) characters
return text("deleteme-детка.", baseName(file), ".", line);
}
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