/// <summary>
/// Encodes according to the CSS encoding rules.
/// </summary>
/// <param name="input">The string to encode.</param>
/// <returns>The encoded string.</returns>
internal static string Encode(string input)
{
if (string.IsNullOrEmpty(input))
{
return(input);
}
char[][] characterValues = characterValuesLazy.Value;
// Setup a new StringBuilder for output.
// Worse case scenario - CSS encoding wants \XXXXXX for encoded characters.
StringBuilder builder = EncoderUtil.GetOutputStringBuilder(input.Length, 7 /* worstCaseOutputCharsPerInputChar */);
Utf16StringReader stringReader = new Utf16StringReader(input);
while (true)
{
int currentCodePoint = stringReader.ReadNextScalarValue();
if (currentCodePoint < 0)
{
break; // EOF
}
if (currentCodePoint >= characterValues.Length)
{
// We don't have a pre-generated mapping of characters beyond the U+00FF, so we need
// to generate these encodings on-the-fly. We should encode the code point rather
// than the surrogate code units that make up this code point.
// See: http://www.w3.org/International/questions/qa-escapes#cssescapes
char[] encodedCharacter = SafeList.SlashThenSixDigitHexValueGenerator(currentCodePoint);
builder.Append(encodedCharacter);
}
else if (characterValues[currentCodePoint] != null)
{
// character needs to be encoded
char[] encodedCharacter = characterValues[currentCodePoint];
builder.Append(encodedCharacter);
}
else
{
// character does not need encoding
builder.Append((char)currentCodePoint);
}
}
return(builder.ToString());
}
/// <summary>
/// Encodes according to the CSS encoding rules.
/// </summary>
/// <param name="input">The string to encode.</param>
/// <returns>The encoded string.</returns>
internal static string Encode(string input) {
if (string.IsNullOrEmpty(input)) {
return input;
}
char[][] characterValues = characterValuesLazy.Value;
// Setup a new StringBuilder for output.
// Worse case scenario - CSS encoding wants \XXXXXX for encoded characters.
StringBuilder builder = EncoderUtil.GetOutputStringBuilder(input.Length, 7 /* worstCaseOutputCharsPerInputChar */);
Utf16StringReader stringReader = new Utf16StringReader(input);
while (true) {
int currentCodePoint = stringReader.ReadNextScalarValue();
if (currentCodePoint < 0) {
break; // EOF
}
if (currentCodePoint >= characterValues.Length) {
// We don't have a pre-generated mapping of characters beyond the U+00FF, so we need
// to generate these encodings on-the-fly. We should encode the code point rather
// than the surrogate code units that make up this code point.
// See: http://www.w3.org/International/questions/qa-escapes#cssescapes
char[] encodedCharacter = SafeList.SlashThenSixDigitHexValueGenerator(currentCodePoint);
builder.Append(encodedCharacter);
}
else if (characterValues[currentCodePoint] != null) {
// character needs to be encoded
char[] encodedCharacter = characterValues[currentCodePoint];
builder.Append(encodedCharacter);
}
else {
// character does not need encoding
builder.Append((char)currentCodePoint);
}
}
return builder.ToString();
}
/// <summary>
/// Encodes input strings for use in HTML.
/// </summary>
/// <param name="input">String to be encoded</param>
/// <param name="useNamedEntities">Value indicating if the HTML 4.0 named entities should be used.</param>
/// <param name="encoderTweak">A <see cref="MethodSpecificEncoder"/> function, if needed.</param>
/// <returns>
/// Encoded string for use in HTML.
/// </returns>
private static string HtmlEncode(string input, bool useNamedEntities, MethodSpecificEncoder encoderTweak) {
if (string.IsNullOrEmpty(input)) {
return input;
}
if (characterValues == null) {
InitialiseSafeList();
}
char[][] namedEntities = null;
if (useNamedEntities) {
namedEntities = namedEntitiesLazy.Value;
}
// Setup a new StringBuilder for output.
// Worse case scenario - the longest entity name, thetasym is 10 characters, including the & and ;.
StringBuilder builder = EncoderUtil.GetOutputStringBuilder(input.Length, 10 /* worstCaseOutputCharsPerInputChar */);
SyncLock.EnterReadLock();
try {
Utf16StringReader stringReader = new Utf16StringReader(input);
while (true) {
int currentCodePoint = stringReader.ReadNextScalarValue();
if (currentCodePoint < 0) {
break; // EOF
}
if (currentCodePoint > Char.MaxValue) {
// We don't have a pre-generated mapping of characters beyond the Basic Multilingual
// Plane (BMP), so we need to generate these encodings on-the-fly. We should encode
// the code point rather than the surrogate code units that make up this code point.
// See: http://www.w3.org/International/questions/qa-escapes#bytheway
char[] encodedCharacter = SafeList.HashThenValueGenerator(currentCodePoint);
builder.Append('&');
builder.Append(encodedCharacter);
builder.Append(';');
}
else {
// If we reached this point, the code point is within the BMP.
char currentCharacter = (char)currentCodePoint;
char[] tweekedValue;
if (encoderTweak != null && encoderTweak(currentCharacter, out tweekedValue)) {
builder.Append(tweekedValue);
}
else if (useNamedEntities && namedEntities[currentCodePoint] != null) {
char[] encodedCharacter = namedEntities[currentCodePoint];
builder.Append('&');
builder.Append(encodedCharacter);
builder.Append(';');
}
else if (characterValues[currentCodePoint] != null) {
// character needs to be encoded
char[] encodedCharacter = characterValues[currentCodePoint];
builder.Append('&');
builder.Append(encodedCharacter);
builder.Append(';');
}
else {
// character does not need encoding
builder.Append(currentCharacter);
}
}
}
}
finally {
SyncLock.ExitReadLock();
}
return builder.ToString();
}
/// <summary>
/// Encodes input strings for use in HTML.
/// </summary>
/// <param name="input">String to be encoded</param>
/// <param name="useNamedEntities">Value indicating if the HTML 4.0 named entities should be used.</param>
/// <param name="encoderTweak">A <see cref="MethodSpecificEncoder"/> function, if needed.</param>
/// <returns>
/// Encoded string for use in HTML.
/// </returns>
private static string HtmlEncode(string input, bool useNamedEntities, MethodSpecificEncoder encoderTweak)
{
if (string.IsNullOrEmpty(input))
{
return(input);
}
if (characterValues == null)
{
InitialiseSafeList();
}
char[][] namedEntities = null;
if (useNamedEntities)
{
namedEntities = namedEntitiesLazy.Value;
}
// Setup a new StringBuilder for output.
// Worse case scenario - the longest entity name, thetasym is 10 characters, including the & and ;.
StringBuilder builder = EncoderUtil.GetOutputStringBuilder(input.Length, 10 /* worstCaseOutputCharsPerInputChar */);
SyncLock.EnterReadLock();
try {
Utf16StringReader stringReader = new Utf16StringReader(input);
while (true)
{
int currentCodePoint = stringReader.ReadNextScalarValue();
if (currentCodePoint < 0)
{
break; // EOF
}
if (currentCodePoint > Char.MaxValue)
{
// We don't have a pre-generated mapping of characters beyond the Basic Multilingual
// Plane (BMP), so we need to generate these encodings on-the-fly. We should encode
// the code point rather than the surrogate code units that make up this code point.
// See: http://www.w3.org/International/questions/qa-escapes#bytheway
char[] encodedCharacter = SafeList.HashThenValueGenerator(currentCodePoint);
builder.Append('&');
builder.Append(encodedCharacter);
builder.Append(';');
}
else
{
// If we reached this point, the code point is within the BMP.
char currentCharacter = (char)currentCodePoint;
char[] tweekedValue;
if (encoderTweak != null && encoderTweak(currentCharacter, out tweekedValue))
{
builder.Append(tweekedValue);
}
else if (useNamedEntities && namedEntities[currentCodePoint] != null)
{
char[] encodedCharacter = namedEntities[currentCodePoint];
builder.Append('&');
builder.Append(encodedCharacter);
builder.Append(';');
}
else if (characterValues[currentCodePoint] != null)
{
// character needs to be encoded
char[] encodedCharacter = characterValues[currentCodePoint];
builder.Append('&');
builder.Append(encodedCharacter);
builder.Append(';');
}
else
{
// character does not need encoding
builder.Append(currentCharacter);
}
}
}
}
finally {
SyncLock.ExitReadLock();
}
return(builder.ToString());
}