libphobos/src/std/outbuffer.d - gcc - Git at Google

 // Written in the D programming language.

 /**
 Serialize data to $(D ubyte) arrays.

  * Copyright: Copyright Digital Mars 2000 - 2015.
  * License:   $(HTTP www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
  * Authors:   $(HTTP digitalmars.com, Walter Bright)
  * Source:    $(PHOBOSSRC std/_outbuffer.d)
  *
  * $(SCRIPT inhibitQuickIndex = 1;)
  */
 module std.outbuffer;

 import core.stdc.stdarg; // : va_list;

 /*********************************************
  * OutBuffer provides a way to build up an array of bytes out
  * of raw data. It is useful for things like preparing an
  * array of bytes to write out to a file.
  * OutBuffer's byte order is the format native to the computer.
  * To control the byte order (endianness), use a class derived
  * from OutBuffer.
  * OutBuffer's internal buffer is allocated with the GC. Pointers
  * stored into the buffer are scanned by the GC, but you have to
  * ensure proper alignment, e.g. by using alignSize((void*).sizeof).
  */

 class OutBuffer
 {
     ubyte[] data;
     size_t offset;

     invariant()
     {
         assert(offset <= data.length);
     }

   pure nothrow @safe
   {
     /*********************************
      * Convert to array of bytes.
      */
     ubyte[] toBytes() { return data[0 .. offset]; }

     /***********************************
      * Preallocate nbytes more to the size of the internal buffer.
      *
      * This is a
      * speed optimization, a good guess at the maximum size of the resulting
      * buffer will improve performance by eliminating reallocations and copying.
      */
     void reserve(size_t nbytes) @trusted
         in
         {
             assert(offset + nbytes >= offset);
         }
         out
         {
             assert(offset + nbytes <= data.length);
         }
         body
         {
             if (data.length < offset + nbytes)
             {
                 void[] vdata = data;
                 vdata.length = (offset + nbytes + 7) * 2; // allocates as void[] to not set BlkAttr.NO_SCAN
                 data = cast(ubyte[]) vdata;
             }
         }

     /**********************************
      * put enables OutBuffer to be used as an OutputRange.
      */
     alias put = write;

     /*************************************
      * Append data to the internal buffer.
      */

     void write(const(ubyte)[] bytes)
         {
             reserve(bytes.length);
             data[offset .. offset + bytes.length] = bytes[];
             offset += bytes.length;
         }

     void write(in wchar[] chars) @trusted
         {
         write(cast(ubyte[]) chars);
         }

     void write(const(dchar)[] chars) @trusted
         {
         write(cast(ubyte[]) chars);
         }

     void write(ubyte b)         /// ditto
         {
             reserve(ubyte.sizeof);
             this.data[offset] = b;
             offset += ubyte.sizeof;
         }

     void write(byte b) { write(cast(ubyte) b); }         /// ditto
     void write(char c) { write(cast(ubyte) c); }         /// ditto
     void write(dchar c) { write(cast(uint) c); }         /// ditto

     void write(ushort w) @trusted                /// ditto
     {
         reserve(ushort.sizeof);
         *cast(ushort *)&data[offset] = w;
         offset += ushort.sizeof;
     }

     void write(short s) { write(cast(ushort) s); }               /// ditto

     void write(wchar c) @trusted        /// ditto
     {
         reserve(wchar.sizeof);
         *cast(wchar *)&data[offset] = c;
         offset += wchar.sizeof;
     }

     void write(uint w) @trusted         /// ditto
     {
         reserve(uint.sizeof);
         *cast(uint *)&data[offset] = w;
         offset += uint.sizeof;
     }

     void write(int i) { write(cast(uint) i); }           /// ditto

     void write(ulong l) @trusted         /// ditto
     {
         reserve(ulong.sizeof);
         *cast(ulong *)&data[offset] = l;
         offset += ulong.sizeof;
     }

     void write(long l) { write(cast(ulong) l); }         /// ditto

     void write(float f) @trusted         /// ditto
     {
         reserve(float.sizeof);
         *cast(float *)&data[offset] = f;
         offset += float.sizeof;
     }

     void write(double f) @trusted               /// ditto
     {
         reserve(double.sizeof);
         *cast(double *)&data[offset] = f;
         offset += double.sizeof;
     }

     void write(real f) @trusted         /// ditto
     {
         reserve(real.sizeof);
         *cast(real *)&data[offset] = f;
         offset += real.sizeof;
     }

     void write(in char[] s) @trusted             /// ditto
     {
         write(cast(ubyte[]) s);
     }

     void write(OutBuffer buf)           /// ditto
     {
         write(buf.toBytes());
     }

     /****************************************
      * Append nbytes of 0 to the internal buffer.
      */

     void fill0(size_t nbytes)
     {
         reserve(nbytes);
         data[offset .. offset + nbytes] = 0;
         offset += nbytes;
     }

     /**********************************
      * 0-fill to align on power of 2 boundary.
      */

     void alignSize(size_t alignsize)
     in
     {
         assert(alignsize && (alignsize & (alignsize - 1)) == 0);
     }
     out
     {
         assert((offset & (alignsize - 1)) == 0);
     }
     body
     {
         auto nbytes = offset & (alignsize - 1);
         if (nbytes)
             fill0(alignsize - nbytes);
     }

     /// Clear the data in the buffer
     void clear()
     {
         offset = 0;
     }

     /****************************************
      * Optimize common special case alignSize(2)
      */

     void align2()
     {
         if (offset & 1)
             write(cast(byte) 0);
     }

     /****************************************
      * Optimize common special case alignSize(4)
      */

     void align4()
     {
         if (offset & 3)
         {   auto nbytes = (4 - offset) & 3;
             fill0(nbytes);
         }
     }

     /**************************************
      * Convert internal buffer to array of chars.
      */

     override string toString() const
     {
         //printf("OutBuffer.toString()\n");
         return cast(string) data[0 .. offset].idup;
     }
   }

     /*****************************************
      * Append output of C's vprintf() to internal buffer.
      */

     void vprintf(string format, va_list args) @trusted nothrow
     {
         import core.stdc.stdio : vsnprintf;
         import core.stdc.stdlib : alloca;
         import std.string : toStringz;

         version (unittest)
             char[3] buffer = void;      // trigger reallocation
         else
             char[128] buffer = void;
         int count;

         // Can't use `tempCString()` here as it will result in compilation error:
         // "cannot mix core.std.stdlib.alloca() and exception handling".
         auto f = toStringz(format);
         auto p = buffer.ptr;
         auto psize = buffer.length;
         for (;;)
         {
             va_list args2;
             va_copy(args2, args);
             count = vsnprintf(p, psize, f, args2);
             va_end(args2);
             if (count == -1)
             {
                 if (psize > psize.max / 2) assert(0); // overflow check
                 psize *= 2;
             }
             else if (count >= psize)
             {
                 if (count == count.max) assert(0); // overflow check
                 psize = count + 1;
             }
             else
                 break;

             p = cast(char *) alloca(psize); // buffer too small, try again with larger size
         }
         write(cast(ubyte[]) p[0 .. count]);
     }

     /*****************************************
      * Append output of C's printf() to internal buffer.
      */

     void printf(string format, ...) @trusted
     {
         va_list ap;
         va_start(ap, format);
         vprintf(format, ap);
         va_end(ap);
     }

     /**
      * Formats and writes its arguments in text format to the OutBuffer.
      *
      * Params:
      *  fmt = format string as described in $(REF formattedWrite, std,format)
      *  args = arguments to be formatted
      *
      * See_Also:
      *  $(REF _writef, std,stdio);
      *  $(REF formattedWrite, std,format);
      */
     void writef(Char, A...)(in Char[] fmt, A args)
     {
         import std.format : formattedWrite;
         formattedWrite(this, fmt, args);
     }

     ///
     @safe unittest
     {
         OutBuffer b = new OutBuffer();
         b.writef("a%sb", 16);
         assert(b.toString() == "a16b");
     }

     /**
      * Formats and writes its arguments in text format to the OutBuffer,
      * followed by a newline.
      *
      * Params:
      *  fmt = format string as described in $(REF formattedWrite, std,format)
      *  args = arguments to be formatted
      *
      * See_Also:
      *  $(REF _writefln, std,stdio);
      *  $(REF formattedWrite, std,format);
      */
     void writefln(Char, A...)(in Char[] fmt, A args)
     {
         import std.format : formattedWrite;
         formattedWrite(this, fmt, args);
         put('\n');
     }

     ///
     @safe unittest
     {
         OutBuffer b = new OutBuffer();
         b.writefln("a%sb", 16);
         assert(b.toString() == "a16b\n");
     }

     /*****************************************
      * At offset index into buffer, create nbytes of space by shifting upwards
      * all data past index.
      */

     void spread(size_t index, size_t nbytes) pure nothrow @safe
         in
         {
             assert(index <= offset);
         }
         body
         {
             reserve(nbytes);

             // This is an overlapping copy - should use memmove()
             for (size_t i = offset; i > index; )
             {
                 --i;
                 data[i + nbytes] = data[i];
             }
             offset += nbytes;
         }
 }

 ///
 @safe unittest
 {
     import std.string : cmp;

     OutBuffer buf = new OutBuffer();

     assert(buf.offset == 0);
     buf.write("hello");
     buf.write(cast(byte) 0x20);
     buf.write("world");
     buf.printf(" %d", 62665);
     assert(cmp(buf.toString(), "hello world 62665") == 0);

     buf.clear();
     assert(cmp(buf.toString(), "") == 0);
     buf.write("New data");
     assert(cmp(buf.toString(),"New data") == 0);
 }

 @safe unittest
 {
     import std.range;
     static assert(isOutputRange!(OutBuffer, char));

     import std.algorithm;
   {
     OutBuffer buf = new OutBuffer();
     "hello".copy(buf);
     assert(buf.toBytes() == "hello");
   }
   {
     OutBuffer buf = new OutBuffer();
     "hello"w.copy(buf);
     version (LittleEndian)
         assert(buf.toBytes() == "h\x00e\x00l\x00l\x00o\x00");
     version (BigEndian)
         assert(buf.toBytes() == "\x00h\x00e\x00l\x00l\x00o");
   }
   {
     OutBuffer buf = new OutBuffer();
     "hello"d.copy(buf);
     version (LittleEndian)
         assert(buf.toBytes() == "h\x00\x00\x00e\x00\x00\x00l\x00\x00\x00l\x00\x00\x00o\x00\x00\x00");
     version (BigEndian)
         assert(buf.toBytes() == "\x00\x00\x00h\x00\x00\x00e\x00\x00\x00l\x00\x00\x00l\x00\x00\x00o");
   }
 }
	// Written in the D programming language.

	/**
	Serialize data to $(D ubyte) arrays.

	* Copyright: Copyright Digital Mars 2000 - 2015.
	* License: $(HTTP www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
	* Authors: $(HTTP digitalmars.com, Walter Bright)
	* Source: $(PHOBOSSRC std/_outbuffer.d)
	*
	* $(SCRIPT inhibitQuickIndex = 1;)
	*/
	module std.outbuffer;

	import core.stdc.stdarg; // : va_list;

	/*********************************************
	* OutBuffer provides a way to build up an array of bytes out
	* of raw data. It is useful for things like preparing an
	* array of bytes to write out to a file.
	* OutBuffer's byte order is the format native to the computer.
	* To control the byte order (endianness), use a class derived
	* from OutBuffer.
	* OutBuffer's internal buffer is allocated with the GC. Pointers
	* stored into the buffer are scanned by the GC, but you have to
	* ensure proper alignment, e.g. by using alignSize((void*).sizeof).
	*/

	class OutBuffer
	{
	ubyte[] data;
	size_t offset;

	invariant()
	{
	assert(offset <= data.length);
	}

	pure nothrow @safe
	{
	/*********************************
	* Convert to array of bytes.
	*/
	ubyte[] toBytes() { return data[0 .. offset]; }

	/***********************************
	* Preallocate nbytes more to the size of the internal buffer.
	*
	* This is a
	* speed optimization, a good guess at the maximum size of the resulting
	* buffer will improve performance by eliminating reallocations and copying.
	*/
	void reserve(size_t nbytes) @trusted
	in
	{
	assert(offset + nbytes >= offset);
	}
	out
	{
	assert(offset + nbytes <= data.length);
	}
	body
	{
	if (data.length < offset + nbytes)
	{
	void[] vdata = data;
	vdata.length = (offset + nbytes + 7) * 2; // allocates as void[] to not set BlkAttr.NO_SCAN
	data = cast(ubyte[]) vdata;
	}
	}

	/**********************************
	* put enables OutBuffer to be used as an OutputRange.
	*/
	alias put = write;

	/*************************************
	* Append data to the internal buffer.
	*/

	void write(const(ubyte)[] bytes)
	{
	reserve(bytes.length);
	data[offset .. offset + bytes.length] = bytes[];
	offset += bytes.length;
	}

	void write(in wchar[] chars) @trusted
	{
	write(cast(ubyte[]) chars);
	}

	void write(const(dchar)[] chars) @trusted
	{
	write(cast(ubyte[]) chars);
	}

	void write(ubyte b) /// ditto
	{
	reserve(ubyte.sizeof);
	this.data[offset] = b;
	offset += ubyte.sizeof;
	}

	void write(byte b) { write(cast(ubyte) b); } /// ditto
	void write(char c) { write(cast(ubyte) c); } /// ditto
	void write(dchar c) { write(cast(uint) c); } /// ditto

	void write(ushort w) @trusted /// ditto
	{
	reserve(ushort.sizeof);
	cast(ushort )&data[offset] = w;
	offset += ushort.sizeof;
	}

	void write(short s) { write(cast(ushort) s); } /// ditto

	void write(wchar c) @trusted /// ditto
	{
	reserve(wchar.sizeof);
	cast(wchar )&data[offset] = c;
	offset += wchar.sizeof;
	}

	void write(uint w) @trusted /// ditto
	{
	reserve(uint.sizeof);
	cast(uint )&data[offset] = w;
	offset += uint.sizeof;
	}

	void write(int i) { write(cast(uint) i); } /// ditto

	void write(ulong l) @trusted /// ditto
	{
	reserve(ulong.sizeof);
	cast(ulong )&data[offset] = l;
	offset += ulong.sizeof;
	}

	void write(long l) { write(cast(ulong) l); } /// ditto

	void write(float f) @trusted /// ditto
	{
	reserve(float.sizeof);
	cast(float )&data[offset] = f;
	offset += float.sizeof;
	}

	void write(double f) @trusted /// ditto
	{
	reserve(double.sizeof);
	cast(double )&data[offset] = f;
	offset += double.sizeof;
	}

	void write(real f) @trusted /// ditto
	{
	reserve(real.sizeof);
	cast(real )&data[offset] = f;
	offset += real.sizeof;
	}

	void write(in char[] s) @trusted /// ditto
	{
	write(cast(ubyte[]) s);
	}

	void write(OutBuffer buf) /// ditto
	{
	write(buf.toBytes());
	}

	/****************************************
	* Append nbytes of 0 to the internal buffer.
	*/

	void fill0(size_t nbytes)
	{
	reserve(nbytes);
	data[offset .. offset + nbytes] = 0;
	offset += nbytes;
	}

	/**********************************
	* 0-fill to align on power of 2 boundary.
	*/

	void alignSize(size_t alignsize)
	in
	{
	assert(alignsize && (alignsize & (alignsize - 1)) == 0);
	}
	out
	{
	assert((offset & (alignsize - 1)) == 0);
	}
	body
	{
	auto nbytes = offset & (alignsize - 1);
	if (nbytes)
	fill0(alignsize - nbytes);
	}

	/// Clear the data in the buffer
	void clear()
	{
	offset = 0;
	}

	/****************************************
	* Optimize common special case alignSize(2)
	*/

	void align2()
	{
	if (offset & 1)
	write(cast(byte) 0);
	}

	/****************************************
	* Optimize common special case alignSize(4)
	*/

	void align4()
	{
	if (offset & 3)
	{ auto nbytes = (4 - offset) & 3;
	fill0(nbytes);
	}
	}

	/**************************************
	* Convert internal buffer to array of chars.
	*/

	override string toString() const
	{
	//printf("OutBuffer.toString()\n");
	return cast(string) data[0 .. offset].idup;
	}
	}

	/*****************************************
	* Append output of C's vprintf() to internal buffer.
	*/

	void vprintf(string format, va_list args) @trusted nothrow
	{
	import core.stdc.stdio : vsnprintf;
	import core.stdc.stdlib : alloca;
	import std.string : toStringz;

	version (unittest)
	char[3] buffer = void; // trigger reallocation
	else
	char[128] buffer = void;
	int count;

	// Can't use `tempCString()` here as it will result in compilation error:
	// "cannot mix core.std.stdlib.alloca() and exception handling".
	auto f = toStringz(format);
	auto p = buffer.ptr;
	auto psize = buffer.length;
	for (;;)
	{
	va_list args2;
	va_copy(args2, args);
	count = vsnprintf(p, psize, f, args2);
	va_end(args2);
	if (count == -1)
	{
	if (psize > psize.max / 2) assert(0); // overflow check
	psize *= 2;
	}
	else if (count >= psize)
	{
	if (count == count.max) assert(0); // overflow check
	psize = count + 1;
	}
	else
	break;

	p = cast(char *) alloca(psize); // buffer too small, try again with larger size
	}
	write(cast(ubyte[]) p[0 .. count]);
	}

	/*****************************************
	* Append output of C's printf() to internal buffer.
	*/

	void printf(string format, ...) @trusted
	{
	va_list ap;
	va_start(ap, format);
	vprintf(format, ap);
	va_end(ap);
	}

	/**
	* Formats and writes its arguments in text format to the OutBuffer.
	*
	* Params:
	* fmt = format string as described in $(REF formattedWrite, std,format)
	* args = arguments to be formatted
	*
	* See_Also:
	* $(REF _writef, std,stdio);
	* $(REF formattedWrite, std,format);
	*/
	void writef(Char, A...)(in Char[] fmt, A args)
	{
	import std.format : formattedWrite;
	formattedWrite(this, fmt, args);
	}

	///
	@safe unittest
	{
	OutBuffer b = new OutBuffer();
	b.writef("a%sb", 16);
	assert(b.toString() == "a16b");
	}

	/**
	* Formats and writes its arguments in text format to the OutBuffer,
	* followed by a newline.
	*
	* Params:
	* fmt = format string as described in $(REF formattedWrite, std,format)
	* args = arguments to be formatted
	*
	* See_Also:
	* $(REF _writefln, std,stdio);
	* $(REF formattedWrite, std,format);
	*/
	void writefln(Char, A...)(in Char[] fmt, A args)
	{
	import std.format : formattedWrite;
	formattedWrite(this, fmt, args);
	put('\n');
	}

	///
	@safe unittest
	{
	OutBuffer b = new OutBuffer();
	b.writefln("a%sb", 16);
	assert(b.toString() == "a16b\n");
	}

	/*****************************************
	* At offset index into buffer, create nbytes of space by shifting upwards
	* all data past index.
	*/

	void spread(size_t index, size_t nbytes) pure nothrow @safe
	in
	{
	assert(index <= offset);
	}
	body
	{
	reserve(nbytes);

	// This is an overlapping copy - should use memmove()
	for (size_t i = offset; i > index; )
	{
	--i;
	data[i + nbytes] = data[i];
	}
	offset += nbytes;
	}
	}

	///
	@safe unittest
	{
	import std.string : cmp;

	OutBuffer buf = new OutBuffer();

	assert(buf.offset == 0);
	buf.write("hello");
	buf.write(cast(byte) 0x20);
	buf.write("world");
	buf.printf(" %d", 62665);
	assert(cmp(buf.toString(), "hello world 62665") == 0);

	buf.clear();
	assert(cmp(buf.toString(), "") == 0);
	buf.write("New data");
	assert(cmp(buf.toString(),"New data") == 0);
	}

	@safe unittest
	{
	import std.range;
	static assert(isOutputRange!(OutBuffer, char));

	import std.algorithm;
	{
	OutBuffer buf = new OutBuffer();
	"hello".copy(buf);
	assert(buf.toBytes() == "hello");
	}
	{
	OutBuffer buf = new OutBuffer();
	"hello"w.copy(buf);
	version (LittleEndian)
	assert(buf.toBytes() == "h\x00e\x00l\x00l\x00o\x00");
	version (BigEndian)
	assert(buf.toBytes() == "\x00h\x00e\x00l\x00l\x00o");
	}
	{
	OutBuffer buf = new OutBuffer();
	"hello"d.copy(buf);
	version (LittleEndian)
	assert(buf.toBytes() == "h\x00\x00\x00e\x00\x00\x00l\x00\x00\x00l\x00\x00\x00o\x00\x00\x00");
	version (BigEndian)
	assert(buf.toBytes() == "\x00\x00\x00h\x00\x00\x00e\x00\x00\x00l\x00\x00\x00l\x00\x00\x00o");
	}
	}