#include "config.h"
#include "TextEncoding.h"
#include "CString.h"
#include "PlatformString.h"
#include "TextCodec.h"
#include "TextDecoder.h"
#include "TextEncodingRegistry.h"
#if USE(ICU_UNICODE)
#include <unicode/unorm.h>
#elif USE(QT4_UNICODE)
#include <QString>
#endif
#include <wtf/HashSet.h>
#include <wtf/OwnPtr.h>
#include <wtf/StdLibExtras.h>
namespace WebCore {
static void addEncodingName(HashSet<const char*>& set, const char* name)
{
const char* atomicName = atomicCanonicalTextEncodingName(name);
if (atomicName)
set.add(atomicName);
}
static const TextEncoding& UTF7Encoding()
{
static TextEncoding globalUTF7Encoding("UTF-7");
return globalUTF7Encoding;
}
TextEncoding::TextEncoding(const char* name)
: m_name(atomicCanonicalTextEncodingName(name))
, m_backslashAsCurrencySymbol(backslashAsCurrencySymbol())
{
}
TextEncoding::TextEncoding(const String& name)
: m_name(atomicCanonicalTextEncodingName(name.characters(), name.length()))
, m_backslashAsCurrencySymbol(backslashAsCurrencySymbol())
{
}
String TextEncoding::decode(const char* data, size_t length, bool stopOnError, bool& sawError) const
{
if (!m_name)
return String();
return TextDecoder(*this).decode(data, length, true, stopOnError, sawError);
}
CString TextEncoding::encode(const UChar* characters, size_t length, UnencodableHandling handling) const
{
if (!m_name)
return CString();
if (!length)
return "";
#if USE(ICU_UNICODE)
const UChar* source = characters;
size_t sourceLength = length;
Vector<UChar> normalizedCharacters;
UErrorCode err = U_ZERO_ERROR;
if (unorm_quickCheck(source, sourceLength, UNORM_NFC, &err) != UNORM_YES) {
normalizedCharacters.grow(sourceLength);
int32_t normalizedLength = unorm_normalize(source, length, UNORM_NFC, 0, normalizedCharacters.data(), length, &err);
if (err == U_BUFFER_OVERFLOW_ERROR) {
err = U_ZERO_ERROR;
normalizedCharacters.resize(normalizedLength);
normalizedLength = unorm_normalize(source, length, UNORM_NFC, 0, normalizedCharacters.data(), normalizedLength, &err);
}
ASSERT(U_SUCCESS(err));
source = normalizedCharacters.data();
sourceLength = normalizedLength;
}
return newTextCodec(*this)->encode(source, sourceLength, handling);
#elif USE(QT4_UNICODE)
QString str(reinterpret_cast<const QChar*>(characters), length);
str = str.normalized(QString::NormalizationForm_C);
return newTextCodec(*this)->encode(reinterpret_cast<const UChar *>(str.utf16()), str.length(), handling);
#endif
}
bool TextEncoding::usesVisualOrdering() const
{
if (noExtendedTextEncodingNameUsed())
return false;
static const char* const a = atomicCanonicalTextEncodingName("ISO-8859-8");
return m_name == a;
}
bool TextEncoding::isJapanese() const
{
if (noExtendedTextEncodingNameUsed())
return false;
DEFINE_STATIC_LOCAL(HashSet<const char*>, set, ());
if (set.isEmpty()) {
addEncodingName(set, "x-mac-japanese");
addEncodingName(set, "cp932");
addEncodingName(set, "JIS_X0201");
addEncodingName(set, "JIS_X0208-1983");
addEncodingName(set, "JIS_X0208-1990");
addEncodingName(set, "JIS_X0212-1990");
addEncodingName(set, "JIS_C6226-1978");
addEncodingName(set, "Shift_JIS_X0213-2000");
addEncodingName(set, "ISO-2022-JP");
addEncodingName(set, "ISO-2022-JP-2");
addEncodingName(set, "ISO-2022-JP-1");
addEncodingName(set, "ISO-2022-JP-3");
addEncodingName(set, "EUC-JP");
addEncodingName(set, "Shift_JIS");
}
return m_name && set.contains(m_name);
}
UChar TextEncoding::backslashAsCurrencySymbol() const
{
if (noExtendedTextEncodingNameUsed())
return '\\';
static const char* const a = atomicCanonicalTextEncodingName("Shift_JIS_X0213-2000");
static const char* const b = atomicCanonicalTextEncodingName("EUC-JP");
return (m_name == a || m_name == b) ? 0x00A5 : '\\';
}
bool TextEncoding::isNonByteBasedEncoding() const
{
if (noExtendedTextEncodingNameUsed()) {
return *this == UTF16LittleEndianEncoding()
|| *this == UTF16BigEndianEncoding();
}
return *this == UTF16LittleEndianEncoding()
|| *this == UTF16BigEndianEncoding()
|| *this == UTF32BigEndianEncoding()
|| *this == UTF32LittleEndianEncoding();
}
bool TextEncoding::isUTF7Encoding() const
{
if (noExtendedTextEncodingNameUsed())
return false;
return *this == UTF7Encoding();
}
const TextEncoding& TextEncoding::closestByteBasedEquivalent() const
{
if (isNonByteBasedEncoding())
return UTF8Encoding();
return *this;
}
const TextEncoding& TextEncoding::encodingForFormSubmission() const
{
if (isNonByteBasedEncoding() || isUTF7Encoding())
return UTF8Encoding();
return *this;
}
const TextEncoding& ASCIIEncoding()
{
static TextEncoding globalASCIIEncoding("ASCII");
return globalASCIIEncoding;
}
const TextEncoding& Latin1Encoding()
{
static TextEncoding globalLatin1Encoding("Latin-1");
return globalLatin1Encoding;
}
const TextEncoding& UTF16BigEndianEncoding()
{
static TextEncoding globalUTF16BigEndianEncoding("UTF-16BE");
return globalUTF16BigEndianEncoding;
}
const TextEncoding& UTF16LittleEndianEncoding()
{
static TextEncoding globalUTF16LittleEndianEncoding("UTF-16LE");
return globalUTF16LittleEndianEncoding;
}
const TextEncoding& UTF32BigEndianEncoding()
{
static TextEncoding globalUTF32BigEndianEncoding("UTF-32BE");
return globalUTF32BigEndianEncoding;
}
const TextEncoding& UTF32LittleEndianEncoding()
{
static TextEncoding globalUTF32LittleEndianEncoding("UTF-32LE");
return globalUTF32LittleEndianEncoding;
}
const TextEncoding& UTF8Encoding()
{
static TextEncoding globalUTF8Encoding("UTF-8");
return globalUTF8Encoding;
}
const TextEncoding& WindowsLatin1Encoding()
{
static TextEncoding globalWindowsLatin1Encoding("WinLatin-1");
return globalWindowsLatin1Encoding;
}
}