libphobos/libdruntime/core/internal/string.d - gcc - Git at Google

 /**
  * String manipulation and comparison utilities.
  *
  * Copyright: Copyright Sean Kelly 2005 - 2009.
  * License:   $(WEB www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
  * Authors:   Sean Kelly, Walter Bright
  * Source: $(DRUNTIMESRC src/rt/util/_string.d)
  */

 module core.internal.string;

 pure:
 nothrow:
 @nogc:

 alias UnsignedStringBuf = char[20];

 char[] unsignedToTempString(ulong value, return char[] buf, uint radix = 10) @safe
 {
     size_t i = buf.length;
     do
     {
         ubyte x = cast(ubyte)(value % radix);
         value = value / radix;
         buf[--i] = cast(char)((x < 10) ? x + '0' : x - 10 + 'a');
     } while (value);
     return buf[i .. $];
 }

 private struct TempStringNoAlloc
 {
     // need to handle 65 bytes for radix of 2 with negative sign.
     private char[65] _buf;
     private ubyte _len;
     auto get() return
     {
         return _buf[$-_len..$];
     }
     alias get this;
 }

 auto unsignedToTempString(ulong value, uint radix) @safe
 {
     TempStringNoAlloc result = void;
     result._len = unsignedToTempString(value, result._buf, radix).length & 0xff;
     return result;
 }

 unittest
 {
     UnsignedStringBuf buf;
     assert(0.unsignedToTempString(buf, 10) == "0");
     assert(1.unsignedToTempString(buf, 10) == "1");
     assert(12.unsignedToTempString(buf, 10) == "12");
     assert(0x12ABCF .unsignedToTempString(buf, 16) == "12abcf");
     assert(long.sizeof.unsignedToTempString(buf, 10) == "8");
     assert(uint.max.unsignedToTempString(buf, 10) == "4294967295");
     assert(ulong.max.unsignedToTempString(buf, 10) == "18446744073709551615");

     // use stack allocated struct version
     assert(0.unsignedToTempString(10) == "0");
     assert(1.unsignedToTempString(10) == "1");
     assert(12.unsignedToTempString(10) == "12");
     assert(0x12ABCF .unsignedToTempString(16) == "12abcf");
     assert(long.sizeof.unsignedToTempString(10) == "8");
     assert(uint.max.unsignedToTempString(10) == "4294967295");
     assert(ulong.max.unsignedToTempString(10) == "18446744073709551615");
 }

 alias SignedStringBuf = char[20];

 char[] signedToTempString(long value, return char[] buf, uint radix) @safe
 {
     bool neg = value < 0;
     if (neg)
         value = cast(ulong)-value;
     auto r = unsignedToTempString(value, buf, radix);
     if (neg)
     {
         // about to do a slice without a bounds check
         auto trustedSlice(return char[] r) @trusted { assert(r.ptr > buf.ptr); return (r.ptr-1)[0..r.length+1]; }
         r = trustedSlice(r);
         r[0] = '-';
     }
     return r;
 }

 auto signedToTempString(long value, uint radix) @safe
 {
     bool neg = value < 0;
     if (neg)
         value = cast(ulong)-value;
     auto r = unsignedToTempString(value, radix);
     if (neg)
     {
         r._len++;
         r.get()[0] = '-';
     }
     return r;
 }

 unittest
 {
     SignedStringBuf buf;
     assert(0.signedToTempString(buf, 10) == "0");
     assert(1.signedToTempString(buf, 10) == "1");
     assert((-1).signedToTempString(buf, 10) == "-1");
     assert(12.signedToTempString(buf, 10) == "12");
     assert((-12).signedToTempString(buf, 10) == "-12");
     assert(0x12ABCF .signedToTempString(buf, 16) == "12abcf");
     assert((-0x12ABCF) .signedToTempString(buf, 16) == "-12abcf");
     assert(long.sizeof.signedToTempString(buf, 10) == "8");
     assert(int.max.signedToTempString(buf, 10) == "2147483647");
     assert(int.min.signedToTempString(buf, 10) == "-2147483648");
     assert(long.max.signedToTempString(buf, 10) == "9223372036854775807");
     assert(long.min.signedToTempString(buf, 10) == "-9223372036854775808");

     // use stack allocated struct version
     assert(0.signedToTempString(10) == "0");
     assert(1.signedToTempString(10) == "1");
     assert((-1).signedToTempString(10) == "-1");
     assert(12.signedToTempString(10) == "12");
     assert((-12).signedToTempString(10) == "-12");
     assert(0x12ABCF .signedToTempString(16) == "12abcf");
     assert((-0x12ABCF) .signedToTempString(16) == "-12abcf");
     assert(long.sizeof.signedToTempString(10) == "8");
     assert(int.max.signedToTempString(10) == "2147483647");
     assert(int.min.signedToTempString(10) == "-2147483648");
     assert(long.max.signedToTempString(10) == "9223372036854775807");
     assert(long.min.signedToTempString(10) == "-9223372036854775808");
     assert(long.max.signedToTempString(2) == "111111111111111111111111111111111111111111111111111111111111111");
     assert(long.min.signedToTempString(2) == "-1000000000000000000000000000000000000000000000000000000000000000");
 }


 /********************************
  * Determine number of digits that will result from a
  * conversion of value to a string.
  * Params:
  *      value = number to convert
  *      radix = radix
  * Returns:
  *      number of digits
  */
 int numDigits(uint radix = 10)(ulong value) @safe
 {
      int n = 1;
      while (1)
      {
         if (value <= uint.max)
         {
             uint v = cast(uint)value;
             while (1)
             {
                 if (v < radix)
                     return n;
                 if (v < radix * radix)
                     return n + 1;
                 if (v < radix * radix * radix)
                     return n + 2;
                 if (v < radix * radix * radix * radix)
                     return n + 3;
                 n += 4;
                 v /= radix * radix * radix * radix;
             }
         }
         n += 4;
         value /= radix * radix * radix * radix;
      }
 }

 unittest
 {
     assert(0.numDigits == 1);
     assert(9.numDigits == 1);
     assert(10.numDigits == 2);
     assert(99.numDigits == 2);
     assert(100.numDigits == 3);
     assert(999.numDigits == 3);
     assert(1000.numDigits == 4);
     assert(9999.numDigits == 4);
     assert(10000.numDigits == 5);
     assert(99999.numDigits == 5);
     assert(uint.max.numDigits == 10);
     assert(ulong.max.numDigits == 20);

     assert(0.numDigits!2 == 1);
     assert(1.numDigits!2 == 1);
     assert(2.numDigits!2 == 2);
     assert(3.numDigits!2 == 2);
 }

 int dstrcmp( scope const char[] s1, scope const char[] s2 ) @trusted
 {
     immutable len = s1.length <= s2.length ? s1.length : s2.length;
     if (__ctfe)
     {
         foreach (const u; 0 .. len)
         {
             if (s1[u] != s2[u])
                 return s1[u] > s2[u] ? 1 : -1;
         }
     }
     else
     {
         import core.stdc.string : memcmp;

         const ret = memcmp( s1.ptr, s2.ptr, len );
         if ( ret )
             return ret;
     }
     return s1.length < s2.length ? -1 : (s1.length > s2.length);
 }
	/**
	* String manipulation and comparison utilities.
	*
	* Copyright: Copyright Sean Kelly 2005 - 2009.
	* License: $(WEB www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
	* Authors: Sean Kelly, Walter Bright
	* Source: $(DRUNTIMESRC src/rt/util/_string.d)
	*/

	module core.internal.string;

	pure:
	nothrow:
	@nogc:

	alias UnsignedStringBuf = char[20];

	char[] unsignedToTempString(ulong value, return char[] buf, uint radix = 10) @safe
	{
	size_t i = buf.length;
	do
	{
	ubyte x = cast(ubyte)(value % radix);
	value = value / radix;
	buf[--i] = cast(char)((x < 10) ? x + '0' : x - 10 + 'a');
	} while (value);
	return buf[i .. $];
	}

	private struct TempStringNoAlloc
	{
	// need to handle 65 bytes for radix of 2 with negative sign.
	private char[65] _buf;
	private ubyte _len;
	auto get() return
	{
	return _buf[$-_len..$];
	}
	alias get this;
	}

	auto unsignedToTempString(ulong value, uint radix) @safe
	{
	TempStringNoAlloc result = void;
	result._len = unsignedToTempString(value, result._buf, radix).length & 0xff;
	return result;
	}

	unittest
	{
	UnsignedStringBuf buf;
	assert(0.unsignedToTempString(buf, 10) == "0");
	assert(1.unsignedToTempString(buf, 10) == "1");
	assert(12.unsignedToTempString(buf, 10) == "12");
	assert(0x12ABCF .unsignedToTempString(buf, 16) == "12abcf");
	assert(long.sizeof.unsignedToTempString(buf, 10) == "8");
	assert(uint.max.unsignedToTempString(buf, 10) == "4294967295");
	assert(ulong.max.unsignedToTempString(buf, 10) == "18446744073709551615");

	// use stack allocated struct version
	assert(0.unsignedToTempString(10) == "0");
	assert(1.unsignedToTempString(10) == "1");
	assert(12.unsignedToTempString(10) == "12");
	assert(0x12ABCF .unsignedToTempString(16) == "12abcf");
	assert(long.sizeof.unsignedToTempString(10) == "8");
	assert(uint.max.unsignedToTempString(10) == "4294967295");
	assert(ulong.max.unsignedToTempString(10) == "18446744073709551615");
	}

	alias SignedStringBuf = char[20];

	char[] signedToTempString(long value, return char[] buf, uint radix) @safe
	{
	bool neg = value < 0;
	if (neg)
	value = cast(ulong)-value;
	auto r = unsignedToTempString(value, buf, radix);
	if (neg)
	{
	// about to do a slice without a bounds check
	auto trustedSlice(return char[] r) @trusted { assert(r.ptr > buf.ptr); return (r.ptr-1)[0..r.length+1]; }
	r = trustedSlice(r);
	r[0] = '-';
	}
	return r;
	}

	auto signedToTempString(long value, uint radix) @safe
	{
	bool neg = value < 0;
	if (neg)
	value = cast(ulong)-value;
	auto r = unsignedToTempString(value, radix);
	if (neg)
	{
	r._len++;
	r.get()[0] = '-';
	}
	return r;
	}

	unittest
	{
	SignedStringBuf buf;
	assert(0.signedToTempString(buf, 10) == "0");
	assert(1.signedToTempString(buf, 10) == "1");
	assert((-1).signedToTempString(buf, 10) == "-1");
	assert(12.signedToTempString(buf, 10) == "12");
	assert((-12).signedToTempString(buf, 10) == "-12");
	assert(0x12ABCF .signedToTempString(buf, 16) == "12abcf");
	assert((-0x12ABCF) .signedToTempString(buf, 16) == "-12abcf");
	assert(long.sizeof.signedToTempString(buf, 10) == "8");
	assert(int.max.signedToTempString(buf, 10) == "2147483647");
	assert(int.min.signedToTempString(buf, 10) == "-2147483648");
	assert(long.max.signedToTempString(buf, 10) == "9223372036854775807");
	assert(long.min.signedToTempString(buf, 10) == "-9223372036854775808");

	// use stack allocated struct version
	assert(0.signedToTempString(10) == "0");
	assert(1.signedToTempString(10) == "1");
	assert((-1).signedToTempString(10) == "-1");
	assert(12.signedToTempString(10) == "12");
	assert((-12).signedToTempString(10) == "-12");
	assert(0x12ABCF .signedToTempString(16) == "12abcf");
	assert((-0x12ABCF) .signedToTempString(16) == "-12abcf");
	assert(long.sizeof.signedToTempString(10) == "8");
	assert(int.max.signedToTempString(10) == "2147483647");
	assert(int.min.signedToTempString(10) == "-2147483648");
	assert(long.max.signedToTempString(10) == "9223372036854775807");
	assert(long.min.signedToTempString(10) == "-9223372036854775808");
	assert(long.max.signedToTempString(2) == "111111111111111111111111111111111111111111111111111111111111111");
	assert(long.min.signedToTempString(2) == "-1000000000000000000000000000000000000000000000000000000000000000");
	}


	/********************************
	* Determine number of digits that will result from a
	* conversion of value to a string.
	* Params:
	* value = number to convert
	* radix = radix
	* Returns:
	* number of digits
	*/
	int numDigits(uint radix = 10)(ulong value) @safe
	{
	int n = 1;
	while (1)
	{
	if (value <= uint.max)
	{
	uint v = cast(uint)value;
	while (1)
	{
	if (v < radix)
	return n;
	if (v < radix * radix)
	return n + 1;
	if (v < radix * radix * radix)
	return n + 2;
	if (v < radix * radix * radix * radix)
	return n + 3;
	n += 4;
	v /= radix * radix * radix * radix;
	}
	}
	n += 4;
	value /= radix * radix * radix * radix;
	}
	}

	unittest
	{
	assert(0.numDigits == 1);
	assert(9.numDigits == 1);
	assert(10.numDigits == 2);
	assert(99.numDigits == 2);
	assert(100.numDigits == 3);
	assert(999.numDigits == 3);
	assert(1000.numDigits == 4);
	assert(9999.numDigits == 4);
	assert(10000.numDigits == 5);
	assert(99999.numDigits == 5);
	assert(uint.max.numDigits == 10);
	assert(ulong.max.numDigits == 20);

	assert(0.numDigits!2 == 1);
	assert(1.numDigits!2 == 1);
	assert(2.numDigits!2 == 2);
	assert(3.numDigits!2 == 2);
	}

	int dstrcmp( scope const char[] s1, scope const char[] s2 ) @trusted
	{
	immutable len = s1.length <= s2.length ? s1.length : s2.length;
	if (__ctfe)
	{
	foreach (const u; 0 .. len)
	{
	if (s1[u] != s2[u])
	return s1[u] > s2[u] ? 1 : -1;
	}
	}
	else
	{
	import core.stdc.string : memcmp;

	const ret = memcmp( s1.ptr, s2.ptr, len );
	if ( ret )
	return ret;
	}
	return s1.length < s2.length ? -1 : (s1.length > s2.length);
	}