#include "config.h"
#include "StringBuilder.h"
#include "IntegerToStringConversion.h"
#include "WTFString.h"
#include <wtf/dtoa.h>
namespace WTF {
static unsigned expandedCapacity(unsigned capacity, unsigned requiredLength)
{
static const unsigned minimumCapacity = 16;
return std::max(requiredLength, std::max(minimumCapacity, capacity * 2));
}
void StringBuilder::reifyString() const
{
if (!m_string.isNull()) {
ASSERT(m_string.length() == m_length);
return;
}
if (!m_length) {
m_string = StringImpl::empty();
return;
}
ASSERT(m_buffer && m_length <= m_buffer->length());
if (m_length == m_buffer->length())
m_string = m_buffer.get();
else
m_string = StringImpl::createSubstringSharingImpl(m_buffer, 0, m_length);
}
void StringBuilder::resize(unsigned newSize)
{
ASSERT(newSize <= m_length);
if (newSize == m_length)
return;
ASSERT(m_length);
if (m_buffer) {
m_string = String(); 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;
}
ASSERT(!m_string.isEmpty());
ASSERT(m_length == m_string.length());
ASSERT(newSize < m_string.length());
m_length = newSize;
m_string = StringImpl::createSubstringSharingImpl(m_string.impl(), 0, newSize);
}
void StringBuilder::allocateBuffer(const LChar* currentCharacters, unsigned requiredLength)
{
ASSERT(m_is8Bit);
RefPtr<StringImpl> buffer = StringImpl::createUninitialized(requiredLength, m_bufferCharacters8);
memcpy(m_bufferCharacters8, currentCharacters, static_cast<size_t>(m_length) * sizeof(LChar));
m_buffer = buffer.release();
m_string = String();
}
void StringBuilder::allocateBuffer(const UChar* currentCharacters, unsigned requiredLength)
{
ASSERT(!m_is8Bit);
RefPtr<StringImpl> buffer = StringImpl::createUninitialized(requiredLength, m_bufferCharacters16);
memcpy(m_bufferCharacters16, currentCharacters, static_cast<size_t>(m_length) * sizeof(UChar));
m_buffer = buffer.release();
m_string = String();
}
void StringBuilder::allocateBufferUpConvert(const LChar* currentCharacters, unsigned requiredLength)
{
ASSERT(m_is8Bit);
RefPtr<StringImpl> buffer = StringImpl::createUninitialized(requiredLength, m_bufferCharacters16);
for (unsigned i = 0; i < m_length; ++i)
m_bufferCharacters16[i] = currentCharacters[i];
m_is8Bit = false;
m_buffer = buffer.release();
m_string = String();
}
template <>
void StringBuilder::reallocateBuffer<LChar>(unsigned requiredLength)
{
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)
{
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 (newCapacity > m_buffer->length()) {
if (m_buffer->is8Bit())
reallocateBuffer<LChar>(newCapacity);
else
reallocateBuffer<UChar>(newCapacity);
}
} else {
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);
}
}
}
template <typename CharType>
ALWAYS_INLINE CharType* StringBuilder::appendUninitialized(unsigned length)
{
ASSERT(length);
unsigned requiredLength = length + m_length;
if (requiredLength < length)
CRASH();
if ((m_buffer) && (requiredLength <= m_buffer->length())) {
ASSERT(m_buffer->length() >= m_length);
unsigned currentLength = m_length;
m_string = String();
m_length = requiredLength;
return getBufferCharacters<CharType>() + currentLength;
}
return appendUninitializedSlow<CharType>(requiredLength);
}
template <typename CharType>
CharType* StringBuilder::appendUninitializedSlow(unsigned requiredLength)
{
ASSERT(requiredLength);
if (m_buffer) {
ASSERT(m_buffer->length() >= m_length);
reallocateBuffer<CharType>(expandedCapacity(capacity(), requiredLength));
} else {
ASSERT(m_string.length() == m_length);
allocateBuffer(m_length ? m_string.characters<CharType>() : 0, expandedCapacity(capacity(), requiredLength));
}
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)) {
LChar lChar = static_cast<LChar>(*characters);
append(&lChar, 1);
return;
}
unsigned requiredLength = length + m_length;
if (requiredLength < length)
CRASH();
if (m_buffer) {
ASSERT(m_buffer->length() >= m_length);
allocateBufferUpConvert(m_buffer->characters8(), expandedCapacity(capacity(), requiredLength));
} else {
ASSERT(m_string.length() == m_length);
allocateBufferUpConvert(m_string.isNull() ? 0 : m_string.characters8(), expandedCapacity(capacity(), requiredLength));
}
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);
}
void StringBuilder::appendNumber(double number, unsigned precision, TrailingZerosTruncatingPolicy trailingZerosTruncatingPolicy)
{
NumberToStringBuffer buffer;
append(numberToFixedPrecisionString(number, precision, buffer, trailingZerosTruncatingPolicy == TruncateTrailingZeros));
}
void StringBuilder::appendECMAScriptNumber(double number)
{
NumberToStringBuffer buffer;
append(numberToString(number, buffer));
}
void StringBuilder::appendFixedWidthNumber(double number, unsigned decimalPlaces)
{
NumberToStringBuffer buffer;
append(numberToFixedWidthString(number, decimalPlaces, buffer));
}
bool StringBuilder::canShrink() const
{
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.release();
}
}
}