/**
* Scans a pseudo attribute.
*
* @param scanningTextDecl True if scanning this pseudo-attribute for a TextDecl; false if
* scanning XMLDecl. This flag is needed to report the correct type of error.
* @param value The string to fill in with the attribute value.
* @return The name of the attribute
* <p><strong>Note:</strong> This method uses fStringBuffer2, anything in it at the time of
* calling is lost.
*/
public String scanPseudoAttribute(boolean scanningTextDecl, XMLString value)
throws IOException, XNIException {
String name = fEntityScanner.scanName();
// XMLEntityManager.print(fEntityManager.getCurrentEntity());
if (name == null) {
reportFatalError("PseudoAttrNameExpected", null);
}
fEntityScanner.skipSpaces();
if (!fEntityScanner.skipChar('=')) {
reportFatalError(
scanningTextDecl ? "EqRequiredInTextDecl" : "EqRequiredInXMLDecl", new Object[] {name});
}
fEntityScanner.skipSpaces();
int quote = fEntityScanner.peekChar();
if (quote != '\'' && quote != '"') {
reportFatalError(
scanningTextDecl ? "QuoteRequiredInTextDecl" : "QuoteRequiredInXMLDecl",
new Object[] {name});
}
fEntityScanner.scanChar();
int c = fEntityScanner.scanLiteral(quote, value);
if (c != quote) {
fStringBuffer2.clear();
do {
fStringBuffer2.append(value);
if (c != -1) {
if (c == '&' || c == '%' || c == '<' || c == ']') {
fStringBuffer2.append((char) fEntityScanner.scanChar());
} else if (XMLChar.isHighSurrogate(c)) {
scanSurrogates(fStringBuffer2);
} else if (isInvalidLiteral(c)) {
String key = scanningTextDecl ? "InvalidCharInTextDecl" : "InvalidCharInXMLDecl";
reportFatalError(key, new Object[] {Integer.toString(c, 16)});
fEntityScanner.scanChar();
}
}
c = fEntityScanner.scanLiteral(quote, value);
} while (c != quote);
fStringBuffer2.append(value);
value.setValues(fStringBuffer2);
}
if (!fEntityScanner.skipChar(quote)) {
reportFatalError(
scanningTextDecl ? "CloseQuoteMissingInTextDecl" : "CloseQuoteMissingInXMLDecl",
new Object[] {name});
}
// return
return name;
} // scanPseudoAttribute(XMLString):String
protected void scanPI(XMLStringBuffer data) throws IOException, XNIException {
// target
fReportEntity = false;
String target = fEntityScanner.scanName();
if (target == null) {
reportFatalError("PITargetRequired", null);
}
// scan data
scanPIData(target, data);
fReportEntity = true;
} // scanPI(XMLStringBuffer)
/**
* Scans a processing data. This is needed to handle the situation where a document starts with a
* processing instruction whose target name <em>starts with</em> "xml". (e.g. xmlfoo)
*
* <p><strong>Note:</strong> This method uses fStringBuffer, anything in it at the time of calling
* is lost.
*
* @param target The PI target
* @param data The string to fill in with the data
*/
protected void scanPIData(String target, XMLString data) throws IOException, XNIException {
// check target
if (target.length() == 3) {
char c0 = Character.toLowerCase(target.charAt(0));
char c1 = Character.toLowerCase(target.charAt(1));
char c2 = Character.toLowerCase(target.charAt(2));
if (c0 == 'x' && c1 == 'm' && c2 == 'l') {
reportFatalError("ReservedPITarget", null);
}
}
// spaces
if (!fEntityScanner.skipSpaces()) {
if (fEntityScanner.skipString("?>")) {
// we found the end, there is no data
data.clear();
return;
} else {
if (fNamespaces && fEntityScanner.peekChar() == ':') {
fEntityScanner.scanChar();
XMLStringBuffer colonName = new XMLStringBuffer(target);
colonName.append(":");
String str = fEntityScanner.scanName();
if (str != null) colonName.append(str);
reportFatalError("ColonNotLegalWithNS", new Object[] {colonName.toString()});
fEntityScanner.skipSpaces();
} else {
// if there is data there should be some space
reportFatalError("SpaceRequiredInPI", null);
}
}
}
fStringBuffer.clear();
// data
if (fEntityScanner.scanData("?>", fStringBuffer)) {
do {
int c = fEntityScanner.peekChar();
if (c != -1) {
if (XMLChar.isHighSurrogate(c)) {
scanSurrogates(fStringBuffer);
} else if (isInvalidLiteral(c)) {
reportFatalError("InvalidCharInPI", new Object[] {Integer.toHexString(c)});
fEntityScanner.scanChar();
}
}
} while (fEntityScanner.scanData("?>", fStringBuffer));
}
data.setValues(fStringBuffer);
} // scanPIData(String,XMLString)
/**
* Scans a processing instruction.
*
* <p>
*
* <pre>
* [16] PI ::= '<?' PITarget (S (Char* - (Char* '?>' Char*)))? '?>'
* [17] PITarget ::= Name - (('X' | 'x') ('M' | 'm') ('L' | 'l'))
* </pre>
*
* <strong>Note:</strong> This method uses fString, anything in it at the time of calling is lost.
*/
protected void scanPI() throws IOException, XNIException {
// target
fReportEntity = false;
String target = null;
if (fNamespaces) {
target = fEntityScanner.scanNCName();
} else {
target = fEntityScanner.scanName();
}
if (target == null) {
reportFatalError("PITargetRequired", null);
}
// scan data
scanPIData(target, fString);
fReportEntity = true;
} // scanPI()
/**
* Scans an attribute value and normalizes whitespace converting all whitespace characters to
* space characters.
*
* <p>[10] AttValue ::= '"' ([^<&"] | Reference)* '"' | "'" ([^<&'] | Reference)* "'"
*
* @param value The XMLString to fill in with the value.
* @param nonNormalizedValue The XMLString to fill in with the non-normalized value.
* @param atName The name of the attribute being parsed (for error msgs).
* @param checkEntities true if undeclared entities should be reported as VC violation, false if
* undeclared entities should be reported as WFC violation.
* @param eleName The name of element to which this attribute belongs.
* <p><strong>Note:</strong> This method uses fStringBuffer2, anything in it at the time of
* calling is lost.
*/
protected void scanAttributeValue(
XMLString value,
XMLString nonNormalizedValue,
String atName,
boolean checkEntities,
String eleName)
throws IOException, XNIException {
// quote
int quote = fEntityScanner.peekChar();
if (quote != '\'' && quote != '"') {
reportFatalError("OpenQuoteExpected", new Object[] {eleName, atName});
}
fEntityScanner.scanChar();
int entityDepth = fEntityDepth;
int c = fEntityScanner.scanLiteral(quote, value);
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** scanLiteral -> \"" + value.toString() + "\"");
}
fStringBuffer2.clear();
fStringBuffer2.append(value);
normalizeWhitespace(value);
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** normalizeWhitespace -> \"" + value.toString() + "\"");
}
if (c != quote) {
fScanningAttribute = true;
fStringBuffer.clear();
do {
fStringBuffer.append(value);
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** value2: \"" + fStringBuffer.toString() + "\"");
}
if (c == '&') {
fEntityScanner.skipChar('&');
if (entityDepth == fEntityDepth) {
fStringBuffer2.append('&');
}
if (fEntityScanner.skipChar('#')) {
if (entityDepth == fEntityDepth) {
fStringBuffer2.append('#');
}
int ch = scanCharReferenceValue(fStringBuffer, fStringBuffer2);
if (ch != -1) {
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** value3: \"" + fStringBuffer.toString() + "\"");
}
}
} else {
String entityName = fEntityScanner.scanName();
if (entityName == null) {
reportFatalError("NameRequiredInReference", null);
} else if (entityDepth == fEntityDepth) {
fStringBuffer2.append(entityName);
}
if (!fEntityScanner.skipChar(';')) {
reportFatalError("SemicolonRequiredInReference", new Object[] {entityName});
} else if (entityDepth == fEntityDepth) {
fStringBuffer2.append(';');
}
if (entityName == fAmpSymbol) {
fStringBuffer.append('&');
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** value5: \"" + fStringBuffer.toString() + "\"");
}
} else if (entityName == fAposSymbol) {
fStringBuffer.append('\'');
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** value7: \"" + fStringBuffer.toString() + "\"");
}
} else if (entityName == fLtSymbol) {
fStringBuffer.append('<');
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** value9: \"" + fStringBuffer.toString() + "\"");
}
} else if (entityName == fGtSymbol) {
fStringBuffer.append('>');
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** valueB: \"" + fStringBuffer.toString() + "\"");
}
} else if (entityName == fQuotSymbol) {
fStringBuffer.append('"');
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** valueD: \"" + fStringBuffer.toString() + "\"");
}
} else {
if (fEntityManager.isExternalEntity(entityName)) {
reportFatalError("ReferenceToExternalEntity", new Object[] {entityName});
} else {
if (!fEntityManager.isDeclaredEntity(entityName)) {
// WFC & VC: Entity Declared
if (checkEntities) {
if (fValidation) {
fErrorReporter.reportError(
XMLMessageFormatter.XML_DOMAIN,
"EntityNotDeclared",
new Object[] {entityName},
XMLErrorReporter.SEVERITY_ERROR);
}
} else {
reportFatalError("EntityNotDeclared", new Object[] {entityName});
}
}
fEntityManager.startEntity(entityName, true);
}
}
}
} else if (c == '<') {
reportFatalError("LessthanInAttValue", new Object[] {eleName, atName});
fEntityScanner.scanChar();
if (entityDepth == fEntityDepth) {
fStringBuffer2.append((char) c);
}
} else if (c == '%' || c == ']') {
fEntityScanner.scanChar();
fStringBuffer.append((char) c);
if (entityDepth == fEntityDepth) {
fStringBuffer2.append((char) c);
}
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** valueF: \"" + fStringBuffer.toString() + "\"");
}
} else if (c == '\n' || c == '\r') {
fEntityScanner.scanChar();
fStringBuffer.append(' ');
if (entityDepth == fEntityDepth) {
fStringBuffer2.append('\n');
}
} else if (c != -1 && XMLChar.isHighSurrogate(c)) {
fStringBuffer3.clear();
if (scanSurrogates(fStringBuffer3)) {
fStringBuffer.append(fStringBuffer3);
if (entityDepth == fEntityDepth) {
fStringBuffer2.append(fStringBuffer3);
}
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** valueI: \"" + fStringBuffer.toString() + "\"");
}
}
} else if (c != -1 && isInvalidLiteral(c)) {
reportFatalError(
"InvalidCharInAttValue", new Object[] {eleName, atName, Integer.toString(c, 16)});
fEntityScanner.scanChar();
if (entityDepth == fEntityDepth) {
fStringBuffer2.append((char) c);
}
}
c = fEntityScanner.scanLiteral(quote, value);
if (entityDepth == fEntityDepth) {
fStringBuffer2.append(value);
}
normalizeWhitespace(value);
} while (c != quote || entityDepth != fEntityDepth);
fStringBuffer.append(value);
if (DEBUG_ATTR_NORMALIZATION) {
System.out.println("** valueN: \"" + fStringBuffer.toString() + "\"");
}
value.setValues(fStringBuffer);
fScanningAttribute = false;
}
nonNormalizedValue.setValues(fStringBuffer2);
// quote
int cquote = fEntityScanner.scanChar();
if (cquote != quote) {
reportFatalError("CloseQuoteExpected", new Object[] {eleName, atName});
}
} // scanAttributeValue()
/**
* Scans a pseudo attribute.
*
* @param scanningTextDecl True if scanning this pseudo-attribute for a TextDecl; false if
* scanning XMLDecl. This flag is needed to report the correct type of error.
* @param value The string to fill in with the attribute value.
* @return The name of the attribute
* <p><strong>Note:</strong> This method uses fStringBuffer2, anything in it at the time of
* calling is lost.
*/
public String scanPseudoAttribute(boolean scanningTextDecl, XMLString value)
throws IOException, XNIException {
// REVISIT: This method is used for generic scanning of
// pseudo attributes, but since there are only three such
// attributes: version, encoding, and standalone there are
// for performant ways of scanning them. Every decl must
// have a version, and in TextDecls this version must
// be followed by an encoding declaration. Also the
// methods we invoke on the scanners allow non-ASCII
// characters to be parsed in the decls, but since
// we don't even know what the actual encoding of the
// document is until we scan the encoding declaration
// you cannot reliably read any characters outside
// of the ASCII range here. -- mrglavas
String name = fEntityScanner.scanName();
XMLEntityManager.print(fEntityManager.getCurrentEntity());
if (name == null) {
reportFatalError("PseudoAttrNameExpected", null);
}
fEntityScanner.skipDeclSpaces();
if (!fEntityScanner.skipChar('=')) {
reportFatalError(
scanningTextDecl ? "EqRequiredInTextDecl" : "EqRequiredInXMLDecl", new Object[] {name});
}
fEntityScanner.skipDeclSpaces();
int quote = fEntityScanner.peekChar();
if (quote != '\'' && quote != '"') {
reportFatalError(
scanningTextDecl ? "QuoteRequiredInTextDecl" : "QuoteRequiredInXMLDecl",
new Object[] {name});
}
fEntityScanner.scanChar();
int c = fEntityScanner.scanLiteral(quote, value);
if (c != quote) {
fStringBuffer2.clear();
do {
fStringBuffer2.append(value);
if (c != -1) {
if (c == '&' || c == '%' || c == '<' || c == ']') {
fStringBuffer2.append((char) fEntityScanner.scanChar());
}
// REVISIT: Even if you could reliably read non-ASCII chars
// why bother scanning for surrogates here? Only ASCII chars
// match the productions in XMLDecls and TextDecls. -- mrglavas
else if (XMLChar.isHighSurrogate(c)) {
scanSurrogates(fStringBuffer2);
} else if (isInvalidLiteral(c)) {
String key = scanningTextDecl ? "InvalidCharInTextDecl" : "InvalidCharInXMLDecl";
reportFatalError(key, new Object[] {Integer.toString(c, 16)});
fEntityScanner.scanChar();
}
}
c = fEntityScanner.scanLiteral(quote, value);
} while (c != quote);
fStringBuffer2.append(value);
value.setValues(fStringBuffer2);
}
if (!fEntityScanner.skipChar(quote)) {
reportFatalError(
scanningTextDecl ? "CloseQuoteMissingInTextDecl" : "CloseQuoteMissingInXMLDecl",
new Object[] {name});
}
// return
return name;
} // scanPseudoAttribute(XMLString):String