src/third_party/WebKit/Source/WTF/wtf/text/StringBuilder.cpp - cobalt - Git at Google

 /*
  * Copyright (C) 2010 Apple Inc. All rights reserved.
  * Copyright (C) 2012 Google Inc. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL APPLE INC. OR
  * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
  * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #include "config.h"
 #include "StringBuilder.h"

 #include "IntegerToStringConversion.h"
 #include "WTFString.h"

 namespace WTF {

 static const unsigned minimumCapacity = 16;

 void StringBuilder::reifyString() const
 {
     // Check if the string already exists.
     if (!m_string.isNull()) {
         ASSERT(m_string.length() == m_length);
         return;
     }

     // Check for empty.
     if (!m_length) {
         m_string = StringImpl::empty();
         return;
     }

     // Must be valid in the buffer, take a substring (unless string fills the buffer).
     ASSERT(m_buffer && m_length <= m_buffer->length());
     m_string = (m_length == m_buffer->length())
         ? m_buffer.get()
         : StringImpl::create(m_buffer, 0, m_length);

     if (m_buffer->has16BitShadow() && m_valid16BitShadowLength < m_length)
         m_buffer->upconvertCharacters(m_valid16BitShadowLength, m_length);

     m_valid16BitShadowLength = m_length;
 }

 void StringBuilder::resize(unsigned newSize)
 {
     // Check newSize < m_length, hence m_length > 0.
     ASSERT(newSize <= m_length);
     if (newSize == m_length)
         return;
     ASSERT(m_length);

     // If there is a buffer, we only need to duplicate it if it has more than one ref.
     if (m_buffer) {
         m_string = String(); // Clear the string to remove the reference to m_buffer if any before checking the reference count of m_buffer.
         if (!m_buffer->hasOneRef()) {
             if (m_buffer->is8Bit())
                 allocateBuffer(m_buffer->characters8(), m_buffer->length());
             else
                 allocateBuffer(m_buffer->characters16(), m_buffer->length());
         }
         m_length = newSize;
         return;
     }

     // Since m_length && !m_buffer, the string must be valid in m_string, and m_string.length() > 0.
     ASSERT(!m_string.isEmpty());
     ASSERT(m_length == m_string.length());
     ASSERT(newSize < m_string.length());
     m_length = newSize;
     m_string = StringImpl::create(m_string.impl(), 0, newSize);
 }

 // Allocate a new 8 bit buffer, copying in currentCharacters (these may come from either m_string
 // or m_buffer, neither will be reassigned until the copy has completed).
 void StringBuilder::allocateBuffer(const LChar* currentCharacters, unsigned requiredLength)
 {
     ASSERT(m_is8Bit);
     // Copy the existing data into a new buffer, set result to point to the end of the existing data.
     RefPtr<StringImpl> buffer = StringImpl::createUninitialized(requiredLength, m_bufferCharacters8);
     memcpy(m_bufferCharacters8, currentCharacters, static_cast<size_t>(m_length) * sizeof(LChar)); // This can't overflow.

     // Update the builder state.
     m_buffer = buffer.release();
     m_string = String();
 }

 // Allocate a new 16 bit buffer, copying in currentCharacters (these may come from either m_string
 // or m_buffer,  neither will be reassigned until the copy has completed).
 void StringBuilder::allocateBuffer(const UChar* currentCharacters, unsigned requiredLength)
 {
     ASSERT(!m_is8Bit);
     // Copy the existing data into a new buffer, set result to point to the end of the existing data.
     RefPtr<StringImpl> buffer = StringImpl::createUninitialized(requiredLength, m_bufferCharacters16);
     memcpy(m_bufferCharacters16, currentCharacters, static_cast<size_t>(m_length) * sizeof(UChar)); // This can't overflow.

     // Update the builder state.
     m_buffer = buffer.release();
     m_string = String();
 }

 // Allocate a new 16 bit buffer, copying in currentCharacters (which is 8 bit and may come
 // from either m_string or m_buffer, neither will be reassigned until the copy has completed).
 void StringBuilder::allocateBufferUpConvert(const LChar* currentCharacters, unsigned requiredLength)
 {
     ASSERT(m_is8Bit);
     // Copy the existing data into a new buffer, set result to point to the end of the existing data.
     RefPtr<StringImpl> buffer = StringImpl::createUninitialized(requiredLength, m_bufferCharacters16);
     for (unsigned i = 0; i < m_length; ++i)
         m_bufferCharacters16[i] = currentCharacters[i];

     m_is8Bit = false;

     // Update the builder state.
     m_buffer = buffer.release();
     m_string = String();
 }

 template <>
 void StringBuilder::reallocateBuffer<LChar>(unsigned requiredLength)
 {
     // If the buffer has only one ref (by this StringBuilder), reallocate it,
     // otherwise fall back to "allocate and copy" method.
     m_string = String();

     ASSERT(m_is8Bit);
     ASSERT(m_buffer->is8Bit());

     if (m_buffer->hasOneRef())
         m_buffer = StringImpl::reallocate(m_buffer.release(), requiredLength, m_bufferCharacters8);
     else
         allocateBuffer(m_buffer->characters8(), requiredLength);
 }

 template <>
 void StringBuilder::reallocateBuffer<UChar>(unsigned requiredLength)
 {
     // If the buffer has only one ref (by this StringBuilder), reallocate it,
     // otherwise fall back to "allocate and copy" method.
     m_string = String();

     if (m_buffer->is8Bit())
         allocateBufferUpConvert(m_buffer->characters8(), requiredLength);
     else if (m_buffer->hasOneRef())
         m_buffer = StringImpl::reallocate(m_buffer.release(), requiredLength, m_bufferCharacters16);
     else
         allocateBuffer(m_buffer->characters16(), requiredLength);
 }

 void StringBuilder::reserveCapacity(unsigned newCapacity)
 {
     if (m_buffer) {
         // If there is already a buffer, then grow if necessary.
         if (newCapacity > m_buffer->length()) {
             if (m_buffer->is8Bit())
                 reallocateBuffer<LChar>(newCapacity);
             else
                 reallocateBuffer<UChar>(newCapacity);
         }
     } else {
         // Grow the string, if necessary.
         if (newCapacity > m_length) {
             if (!m_length) {
                 LChar* nullPlaceholder = 0;
                 allocateBuffer(nullPlaceholder, newCapacity);
             } else if (m_string.is8Bit())
                 allocateBuffer(m_string.characters8(), newCapacity);
             else
                 allocateBuffer(m_string.characters16(), newCapacity);
         }
     }
 }

 // Make 'length' additional capacity be available in m_buffer, update m_string & m_length,
 // return a pointer to the newly allocated storage.
 template <typename CharType>
 ALWAYS_INLINE CharType* StringBuilder::appendUninitialized(unsigned length)
 {
     ASSERT(length);

     // Calculate the new size of the builder after appending.
     unsigned requiredLength = length + m_length;
     if (requiredLength < length)
         CRASH();

     if ((m_buffer) && (requiredLength <= m_buffer->length())) {
         // If the buffer is valid it must be at least as long as the current builder contents!
         ASSERT(m_buffer->length() >= m_length);
         unsigned currentLength = m_length;
         m_string = String();
         m_length = requiredLength;
         return getBufferCharacters<CharType>() + currentLength;
     }

     return appendUninitializedSlow<CharType>(requiredLength);
 }

 // Make 'length' additional capacity be available in m_buffer, update m_string & m_length,
 // return a pointer to the newly allocated storage.
 template <typename CharType>
 CharType* StringBuilder::appendUninitializedSlow(unsigned requiredLength)
 {
     ASSERT(requiredLength);

     if (m_buffer) {
         // If the buffer is valid it must be at least as long as the current builder contents!
         ASSERT(m_buffer->length() >= m_length);

         reallocateBuffer<CharType>(std::max(requiredLength, std::max(minimumCapacity, m_buffer->length() * 2)));
     } else {
         ASSERT(m_string.length() == m_length);
         allocateBuffer(m_length ? m_string.getCharacters<CharType>() : 0, std::max(requiredLength, std::max(minimumCapacity, m_length * 2)));
     }

     CharType* result = getBufferCharacters<CharType>() + m_length;
     m_length = requiredLength;
     return result;
 }

 void StringBuilder::append(const UChar* characters, unsigned length)
 {
     if (!length)
         return;

     ASSERT(characters);

     if (m_is8Bit) {
         if (length == 1 && !(*characters & ~0xff)) {
             // Append as 8 bit character
             LChar lChar = static_cast<LChar>(*characters);
             append(&lChar, 1);
             return;
         }

         // Calculate the new size of the builder after appending.
         unsigned requiredLength = length + m_length;
         if (requiredLength < length)
             CRASH();

         if (m_buffer) {
             // If the buffer is valid it must be at least as long as the current builder contents!
             ASSERT(m_buffer->length() >= m_length);

             allocateBufferUpConvert(m_buffer->characters8(), requiredLength);
         } else {
             ASSERT(m_string.length() == m_length);
             allocateBufferUpConvert(m_string.isNull() ? 0 : m_string.characters8(), std::max(requiredLength, std::max(minimumCapacity, m_length * 2)));
         }

         memcpy(m_bufferCharacters16 + m_length, characters, static_cast<size_t>(length) * sizeof(UChar));
         m_length = requiredLength;
     } else
         memcpy(appendUninitialized<UChar>(length), characters, static_cast<size_t>(length) * sizeof(UChar));
 }

 void StringBuilder::append(const LChar* characters, unsigned length)
 {
     if (!length)
         return;
     ASSERT(characters);

     if (m_is8Bit) {
         LChar* dest = appendUninitialized<LChar>(length);
         if (length > 8)
             memcpy(dest, characters, static_cast<size_t>(length) * sizeof(LChar));
         else {
             const LChar* end = characters + length;
             while (characters < end)
                 *(dest++) = *(characters++);
         }
     } else {
         UChar* dest = appendUninitialized<UChar>(length);
         const LChar* end = characters + length;
         while (characters < end)
             *(dest++) = *(characters++);
     }
 }

 void StringBuilder::appendNumber(int number)
 {
     numberToStringSigned<StringBuilder>(number, this);
 }

 void StringBuilder::appendNumber(unsigned int number)
 {
     numberToStringUnsigned<StringBuilder>(number, this);
 }

 void StringBuilder::appendNumber(long number)
 {
     numberToStringSigned<StringBuilder>(number, this);
 }

 void StringBuilder::appendNumber(unsigned long number)
 {
     numberToStringUnsigned<StringBuilder>(number, this);
 }

 void StringBuilder::appendNumber(long long number)
 {
     numberToStringSigned<StringBuilder>(number, this);
 }

 void StringBuilder::appendNumber(unsigned long long number)
 {
     numberToStringUnsigned<StringBuilder>(number, this);
 }

 bool StringBuilder::canShrink() const
 {
     // Only shrink the buffer if it's less than 80% full. Need to tune this heuristic!
     return m_buffer && m_buffer->length() > (m_length + (m_length >> 2));
 }

 void StringBuilder::shrinkToFit()
 {
     if (canShrink()) {
         if (m_is8Bit)
             reallocateBuffer<LChar>(m_length);
         else
             reallocateBuffer<UChar>(m_length);
         m_string = m_buffer;
         m_buffer = 0;
     }
 }

 } // namespace WTF
	/*
	* Copyright (C) 2010 Apple Inc. All rights reserved.
	* Copyright (C) 2012 Google Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
	* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
	* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
	* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
	* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
	* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#include "config.h"
	#include "StringBuilder.h"

	#include "IntegerToStringConversion.h"
	#include "WTFString.h"

	namespace WTF {

	static const unsigned minimumCapacity = 16;

	void StringBuilder::reifyString() const
	{
	// Check if the string already exists.
	if (!m_string.isNull()) {
	ASSERT(m_string.length() == m_length);
	return;
	}

	// Check for empty.
	if (!m_length) {
	m_string = StringImpl::empty();
	return;
	}

	// Must be valid in the buffer, take a substring (unless string fills the buffer).
	ASSERT(m_buffer && m_length <= m_buffer->length());
	m_string = (m_length == m_buffer->length())
	? m_buffer.get()
	: StringImpl::create(m_buffer, 0, m_length);

	if (m_buffer->has16BitShadow() && m_valid16BitShadowLength < m_length)
	m_buffer->upconvertCharacters(m_valid16BitShadowLength, m_length);

	m_valid16BitShadowLength = m_length;
	}

	void StringBuilder::resize(unsigned newSize)
	{
	// Check newSize < m_length, hence m_length > 0.
	ASSERT(newSize <= m_length);
	if (newSize == m_length)
	return;
	ASSERT(m_length);

	// If there is a buffer, we only need to duplicate it if it has more than one ref.
	if (m_buffer) {
	m_string = String(); // Clear the string to remove the reference to m_buffer if any before checking the reference count of m_buffer.
	if (!m_buffer->hasOneRef()) {
	if (m_buffer->is8Bit())
	allocateBuffer(m_buffer->characters8(), m_buffer->length());
	else
	allocateBuffer(m_buffer->characters16(), m_buffer->length());
	}
	m_length = newSize;
	return;
	}

	// Since m_length && !m_buffer, the string must be valid in m_string, and m_string.length() > 0.
	ASSERT(!m_string.isEmpty());
	ASSERT(m_length == m_string.length());
	ASSERT(newSize < m_string.length());
	m_length = newSize;
	m_string = StringImpl::create(m_string.impl(), 0, newSize);
	}

	// Allocate a new 8 bit buffer, copying in currentCharacters (these may come from either m_string
	// or m_buffer, neither will be reassigned until the copy has completed).
	void StringBuilder::allocateBuffer(const LChar* currentCharacters, unsigned requiredLength)
	{
	ASSERT(m_is8Bit);
	// Copy the existing data into a new buffer, set result to point to the end of the existing data.
	RefPtr<StringImpl> buffer = StringImpl::createUninitialized(requiredLength, m_bufferCharacters8);
	memcpy(m_bufferCharacters8, currentCharacters, static_cast<size_t>(m_length) * sizeof(LChar)); // This can't overflow.

	// Update the builder state.
	m_buffer = buffer.release();
	m_string = String();
	}

	// Allocate a new 16 bit buffer, copying in currentCharacters (these may come from either m_string
	// or m_buffer, neither will be reassigned until the copy has completed).
	void StringBuilder::allocateBuffer(const UChar* currentCharacters, unsigned requiredLength)
	{
	ASSERT(!m_is8Bit);
	// Copy the existing data into a new buffer, set result to point to the end of the existing data.
	RefPtr<StringImpl> buffer = StringImpl::createUninitialized(requiredLength, m_bufferCharacters16);
	memcpy(m_bufferCharacters16, currentCharacters, static_cast<size_t>(m_length) * sizeof(UChar)); // This can't overflow.

	// Update the builder state.
	m_buffer = buffer.release();
	m_string = String();
	}

	// Allocate a new 16 bit buffer, copying in currentCharacters (which is 8 bit and may come
	// from either m_string or m_buffer, neither will be reassigned until the copy has completed).
	void StringBuilder::allocateBufferUpConvert(const LChar* currentCharacters, unsigned requiredLength)
	{
	ASSERT(m_is8Bit);
	// Copy the existing data into a new buffer, set result to point to the end of the existing data.
	RefPtr<StringImpl> buffer = StringImpl::createUninitialized(requiredLength, m_bufferCharacters16);
	for (unsigned i = 0; i < m_length; ++i)
	m_bufferCharacters16[i] = currentCharacters[i];

	m_is8Bit = false;

	// Update the builder state.
	m_buffer = buffer.release();
	m_string = String();
	}

	template <>
	void StringBuilder::reallocateBuffer<LChar>(unsigned requiredLength)
	{
	// If the buffer has only one ref (by this StringBuilder), reallocate it,
	// otherwise fall back to "allocate and copy" method.
	m_string = String();

	ASSERT(m_is8Bit);
	ASSERT(m_buffer->is8Bit());

	if (m_buffer->hasOneRef())
	m_buffer = StringImpl::reallocate(m_buffer.release(), requiredLength, m_bufferCharacters8);
	else
	allocateBuffer(m_buffer->characters8(), requiredLength);
	}

	template <>
	void StringBuilder::reallocateBuffer<UChar>(unsigned requiredLength)
	{
	// If the buffer has only one ref (by this StringBuilder), reallocate it,
	// otherwise fall back to "allocate and copy" method.
	m_string = String();

	if (m_buffer->is8Bit())
	allocateBufferUpConvert(m_buffer->characters8(), requiredLength);
	else if (m_buffer->hasOneRef())
	m_buffer = StringImpl::reallocate(m_buffer.release(), requiredLength, m_bufferCharacters16);
	else
	allocateBuffer(m_buffer->characters16(), requiredLength);
	}

	void StringBuilder::reserveCapacity(unsigned newCapacity)
	{
	if (m_buffer) {
	// If there is already a buffer, then grow if necessary.
	if (newCapacity > m_buffer->length()) {
	if (m_buffer->is8Bit())
	reallocateBuffer<LChar>(newCapacity);
	else
	reallocateBuffer<UChar>(newCapacity);
	}
	} else {
	// Grow the string, if necessary.
	if (newCapacity > m_length) {
	if (!m_length) {
	LChar* nullPlaceholder = 0;
	allocateBuffer(nullPlaceholder, newCapacity);
	} else if (m_string.is8Bit())
	allocateBuffer(m_string.characters8(), newCapacity);
	else
	allocateBuffer(m_string.characters16(), newCapacity);
	}
	}
	}

	// Make 'length' additional capacity be available in m_buffer, update m_string & m_length,
	// return a pointer to the newly allocated storage.
	template <typename CharType>
	ALWAYS_INLINE CharType* StringBuilder::appendUninitialized(unsigned length)
	{
	ASSERT(length);

	// Calculate the new size of the builder after appending.
	unsigned requiredLength = length + m_length;
	if (requiredLength < length)
	CRASH();

	if ((m_buffer) && (requiredLength <= m_buffer->length())) {
	// If the buffer is valid it must be at least as long as the current builder contents!
	ASSERT(m_buffer->length() >= m_length);
	unsigned currentLength = m_length;
	m_string = String();
	m_length = requiredLength;
	return getBufferCharacters<CharType>() + currentLength;
	}

	return appendUninitializedSlow<CharType>(requiredLength);
	}

	// Make 'length' additional capacity be available in m_buffer, update m_string & m_length,
	// return a pointer to the newly allocated storage.
	template <typename CharType>
	CharType* StringBuilder::appendUninitializedSlow(unsigned requiredLength)
	{
	ASSERT(requiredLength);

	if (m_buffer) {
	// If the buffer is valid it must be at least as long as the current builder contents!
	ASSERT(m_buffer->length() >= m_length);

	reallocateBuffer<CharType>(std::max(requiredLength, std::max(minimumCapacity, m_buffer->length() * 2)));
	} else {
	ASSERT(m_string.length() == m_length);
	allocateBuffer(m_length ? m_string.getCharacters<CharType>() : 0, std::max(requiredLength, std::max(minimumCapacity, m_length * 2)));
	}

	CharType* result = getBufferCharacters<CharType>() + m_length;
	m_length = requiredLength;
	return result;
	}

	void StringBuilder::append(const UChar* characters, unsigned length)
	{
	if (!length)
	return;

	ASSERT(characters);

	if (m_is8Bit) {
	if (length == 1 && !(*characters & ~0xff)) {
	// Append as 8 bit character
	LChar lChar = static_cast<LChar>(*characters);
	append(&lChar, 1);
	return;
	}

	// Calculate the new size of the builder after appending.
	unsigned requiredLength = length + m_length;
	if (requiredLength < length)
	CRASH();

	if (m_buffer) {
	// If the buffer is valid it must be at least as long as the current builder contents!
	ASSERT(m_buffer->length() >= m_length);

	allocateBufferUpConvert(m_buffer->characters8(), requiredLength);
	} else {
	ASSERT(m_string.length() == m_length);
	allocateBufferUpConvert(m_string.isNull() ? 0 : m_string.characters8(), std::max(requiredLength, std::max(minimumCapacity, m_length * 2)));
	}

	memcpy(m_bufferCharacters16 + m_length, characters, static_cast<size_t>(length) * sizeof(UChar));
	m_length = requiredLength;
	} else
	memcpy(appendUninitialized<UChar>(length), characters, static_cast<size_t>(length) * sizeof(UChar));
	}

	void StringBuilder::append(const LChar* characters, unsigned length)
	{
	if (!length)
	return;
	ASSERT(characters);

	if (m_is8Bit) {
	LChar* dest = appendUninitialized<LChar>(length);
	if (length > 8)
	memcpy(dest, characters, static_cast<size_t>(length) * sizeof(LChar));
	else {
	const LChar* end = characters + length;
	while (characters < end)
	(dest++) = (characters++);
	}
	} else {
	UChar* dest = appendUninitialized<UChar>(length);
	const LChar* end = characters + length;
	while (characters < end)
	(dest++) = (characters++);
	}
	}

	void StringBuilder::appendNumber(int number)
	{
	numberToStringSigned<StringBuilder>(number, this);
	}

	void StringBuilder::appendNumber(unsigned int number)
	{
	numberToStringUnsigned<StringBuilder>(number, this);
	}

	void StringBuilder::appendNumber(long number)
	{
	numberToStringSigned<StringBuilder>(number, this);
	}

	void StringBuilder::appendNumber(unsigned long number)
	{
	numberToStringUnsigned<StringBuilder>(number, this);
	}

	void StringBuilder::appendNumber(long long number)
	{
	numberToStringSigned<StringBuilder>(number, this);
	}

	void StringBuilder::appendNumber(unsigned long long number)
	{
	numberToStringUnsigned<StringBuilder>(number, this);
	}

	bool StringBuilder::canShrink() const
	{
	// Only shrink the buffer if it's less than 80% full. Need to tune this heuristic!
	return m_buffer && m_buffer->length() > (m_length + (m_length >> 2));
	}

	void StringBuilder::shrinkToFit()
	{
	if (canShrink()) {
	if (m_is8Bit)
	reallocateBuffer<LChar>(m_length);
	else
	reallocateBuffer<UChar>(m_length);
	m_string = m_buffer;
	m_buffer = 0;
	}
	}

	} // namespace WTF