/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=2 sw=2 et tw=78: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ //#define __INCREMENTAL 1 #include "nsScanner.h" #include "nsDebug.h" #include "nsIServiceManager.h" #include "nsICharsetConverterManager.h" #include "nsCharsetAlias.h" #include "nsReadableUtils.h" #include "nsIInputStream.h" #include "nsIFile.h" #include "nsNetUtil.h" #include "nsUTF8Utils.h" // for LossyConvertEncoding #include "nsCRT.h" #include "nsParser.h" #include "nsCharsetSource.h" // We replace NUL characters with this character. static PRUnichar sInvalid = UCS2_REPLACEMENT_CHAR; nsReadEndCondition::nsReadEndCondition(const PRUnichar* aTerminateChars) : mChars(aTerminateChars), mFilter(PRUnichar(~0)) // All bits set { // Build filter that will be used to filter out characters with // bits that none of the terminal chars have. This works very well // because terminal chars often have only the last 4-6 bits set and // normal ascii letters have bit 7 set. Other letters have even higher // bits set. // Calculate filter const PRUnichar *current = aTerminateChars; PRUnichar terminalChar = *current; while (terminalChar) { mFilter &= ~terminalChar; ++current; terminalChar = *current; } } #ifdef __INCREMENTAL const int kBufsize=1; #else const int kBufsize=64; #endif /** * Use this constructor if you want i/o to be based on * a single string you hand in during construction. * This short cut was added for Javascript. * * @update gess 5/12/98 * @param aMode represents the parser mode (nav, other) * @return */ nsScanner::nsScanner(const nsAString& anHTMLString) { MOZ_COUNT_CTOR(nsScanner); mSlidingBuffer = nullptr; mCountRemaining = 0; mFirstNonWhitespacePosition = -1; if (AppendToBuffer(anHTMLString)) { mSlidingBuffer->BeginReading(mCurrentPosition); } else { /* XXX see hack below, re: bug 182067 */ memset(&mCurrentPosition, 0, sizeof(mCurrentPosition)); mEndPosition = mCurrentPosition; } mMarkPosition = mCurrentPosition; mIncremental = false; mUnicodeDecoder = 0; mCharsetSource = kCharsetUninitialized; mHasInvalidCharacter = false; mReplacementCharacter = PRUnichar(0x0); } /** * Use this constructor if you want i/o to be based on strings * the scanner receives. If you pass a null filename, you * can still provide data to the scanner via append. */ nsScanner::nsScanner(nsString& aFilename, bool aCreateStream) : mFilename(aFilename) { MOZ_COUNT_CTOR(nsScanner); NS_ASSERTION(!aCreateStream, "This is always true."); mSlidingBuffer = nullptr; // XXX This is a big hack. We need to initialize the iterators to something. // What matters is that mCurrentPosition == mEndPosition, so that our methods // believe that we are at EOF (see bug 182067). We null out mCurrentPosition // so that we have some hope of catching null pointer dereferences associated // with this hack. --darin memset(&mCurrentPosition, 0, sizeof(mCurrentPosition)); mMarkPosition = mCurrentPosition; mEndPosition = mCurrentPosition; mIncremental = true; mFirstNonWhitespacePosition = -1; mCountRemaining = 0; mUnicodeDecoder = 0; mCharsetSource = kCharsetUninitialized; mHasInvalidCharacter = false; mReplacementCharacter = PRUnichar(0x0); // XML defaults to UTF-8 and about:blank is UTF-8, too. SetDocumentCharset(NS_LITERAL_CSTRING("UTF-8"), kCharsetFromDocTypeDefault); } nsresult nsScanner::SetDocumentCharset(const nsACString& aCharset , int32_t aSource) { if (aSource < mCharsetSource) // priority is lower the the current one , just return NS_OK; nsresult res = NS_OK; if (!mCharset.IsEmpty()) { bool same; res = nsCharsetAlias::Equals(aCharset, mCharset, &same); if(NS_SUCCEEDED(res) && same) { mCharsetSource = aSource; return NS_OK; // no difference, don't change it } } // different, need to change it nsCString charsetName; res = nsCharsetAlias::GetPreferred(aCharset, charsetName); MOZ_ASSERT(NS_SUCCEEDED(res), "Should never call with a bogus aCharset."); mCharset.Assign(charsetName); mCharsetSource = aSource; NS_ASSERTION(nsParser::GetCharsetConverterManager(), "Must have the charset converter manager!"); res = nsParser::GetCharsetConverterManager()-> GetUnicodeDecoderRaw(mCharset.get(), getter_AddRefs(mUnicodeDecoder)); if (NS_SUCCEEDED(res) && mUnicodeDecoder) { // We need to detect conversion error of character to support XML // encoding error. mUnicodeDecoder->SetInputErrorBehavior(nsIUnicodeDecoder::kOnError_Signal); } return res; } /** * default destructor * * @update gess 3/25/98 * @param * @return */ nsScanner::~nsScanner() { delete mSlidingBuffer; MOZ_COUNT_DTOR(nsScanner); } /** * Resets current offset position of input stream to marked position. * This allows us to back up to this point if the need should arise, * such as when tokenization gets interrupted. * NOTE: IT IS REALLY BAD FORM TO CALL RELEASE WITHOUT CALLING MARK FIRST! * * @update gess 5/12/98 * @param * @return */ void nsScanner::RewindToMark(void){ if (mSlidingBuffer) { mCountRemaining += (Distance(mMarkPosition, mCurrentPosition)); mCurrentPosition = mMarkPosition; } } /** * Records current offset position in input stream. This allows us * to back up to this point if the need should arise, such as when * tokenization gets interrupted. * * @update gess 7/29/98 * @param * @return */ int32_t nsScanner::Mark() { int32_t distance = 0; if (mSlidingBuffer) { nsScannerIterator oldStart; mSlidingBuffer->BeginReading(oldStart); distance = Distance(oldStart, mCurrentPosition); mSlidingBuffer->DiscardPrefix(mCurrentPosition); mSlidingBuffer->BeginReading(mCurrentPosition); mMarkPosition = mCurrentPosition; } return distance; } /** * Insert data to our underlying input buffer as * if it were read from an input stream. * * @update harishd 01/12/99 * @return error code */ bool nsScanner::UngetReadable(const nsAString& aBuffer) { if (!mSlidingBuffer) { return false; } mSlidingBuffer->UngetReadable(aBuffer,mCurrentPosition); mSlidingBuffer->BeginReading(mCurrentPosition); // Insertion invalidated our iterators mSlidingBuffer->EndReading(mEndPosition); uint32_t length = aBuffer.Length(); mCountRemaining += length; // Ref. bug 117441 return true; } /** * Append data to our underlying input buffer as * if it were read from an input stream. * * @update gess4/3/98 * @return error code */ nsresult nsScanner::Append(const nsAString& aBuffer) { if (!AppendToBuffer(aBuffer)) return NS_ERROR_OUT_OF_MEMORY; return NS_OK; } /** * * * @update gess 5/21/98 * @param * @return */ nsresult nsScanner::Append(const char* aBuffer, uint32_t aLen, nsIRequest *aRequest) { nsresult res = NS_OK; if (mUnicodeDecoder) { int32_t unicharBufLen = 0; mUnicodeDecoder->GetMaxLength(aBuffer, aLen, &unicharBufLen); nsScannerString::Buffer* buffer = nsScannerString::AllocBuffer(unicharBufLen + 1); NS_ENSURE_TRUE(buffer,NS_ERROR_OUT_OF_MEMORY); PRUnichar *unichars = buffer->DataStart(); int32_t totalChars = 0; int32_t unicharLength = unicharBufLen; int32_t errorPos = -1; do { int32_t srcLength = aLen; res = mUnicodeDecoder->Convert(aBuffer, &srcLength, unichars, &unicharLength); totalChars += unicharLength; // Continuation of failure case if(NS_FAILED(res)) { // if we failed, we consume one byte, replace it with the replacement // character and try the conversion again. // This is only needed because some decoders don't follow the // nsIUnicodeDecoder contract: they return a failure when *aDestLength // is 0 rather than the correct NS_OK_UDEC_MOREOUTPUT. See bug 244177 if ((unichars + unicharLength) >= buffer->DataEnd()) { NS_ERROR("Unexpected end of destination buffer"); break; } if (mReplacementCharacter == 0x0 && errorPos == -1) { errorPos = totalChars; } unichars[unicharLength++] = mReplacementCharacter == 0x0 ? mUnicodeDecoder->GetCharacterForUnMapped() : mReplacementCharacter; unichars = unichars + unicharLength; unicharLength = unicharBufLen - (++totalChars); mUnicodeDecoder->Reset(); if(((uint32_t) (srcLength + 1)) > aLen) { srcLength = aLen; } else { ++srcLength; } aBuffer += srcLength; aLen -= srcLength; } } while (NS_FAILED(res) && (aLen > 0)); buffer->SetDataLength(totalChars); // Don't propagate return code of unicode decoder // since it doesn't reflect on our success or failure // - Ref. bug 87110 res = NS_OK; if (!AppendToBuffer(buffer, aRequest, errorPos)) res = NS_ERROR_OUT_OF_MEMORY; } else { NS_WARNING("No decoder found."); res = NS_ERROR_FAILURE; } return res; } /** * retrieve next char from scanners internal input stream * * @update gess 3/25/98 * @param * @return error code reflecting read status */ nsresult nsScanner::GetChar(PRUnichar& aChar) { if (!mSlidingBuffer || mCurrentPosition == mEndPosition) { aChar = 0; return kEOF; } aChar = *mCurrentPosition++; --mCountRemaining; return NS_OK; } /** * peek ahead to consume next char from scanner's internal * input buffer * * @update gess 3/25/98 * @param * @return */ nsresult nsScanner::Peek(PRUnichar& aChar, uint32_t aOffset) { aChar = 0; if (!mSlidingBuffer || mCurrentPosition == mEndPosition) { return kEOF; } if (aOffset > 0) { if (mCountRemaining <= aOffset) return kEOF; nsScannerIterator pos = mCurrentPosition; pos.advance(aOffset); aChar=*pos; } else { aChar=*mCurrentPosition; } return NS_OK; } nsresult nsScanner::Peek(nsAString& aStr, int32_t aNumChars, int32_t aOffset) { if (!mSlidingBuffer || mCurrentPosition == mEndPosition) { return kEOF; } nsScannerIterator start, end; start = mCurrentPosition; if ((int32_t)mCountRemaining <= aOffset) { return kEOF; } if (aOffset > 0) { start.advance(aOffset); } if (mCountRemaining < uint32_t(aNumChars + aOffset)) { end = mEndPosition; } else { end = start; end.advance(aNumChars); } CopyUnicodeTo(start, end, aStr); return NS_OK; } /** * Skip whitespace on scanner input stream * * @update gess 3/25/98 * @param * @return error status */ nsresult nsScanner::SkipWhitespace(int32_t& aNewlinesSkipped) { if (!mSlidingBuffer) { return kEOF; } PRUnichar theChar = 0; nsresult result = Peek(theChar); if (NS_FAILED(result)) { return result; } nsScannerIterator current = mCurrentPosition; bool done = false; bool skipped = false; while (!done && current != mEndPosition) { switch(theChar) { case '\n': case '\r': ++aNewlinesSkipped; case ' ' : case '\t': { skipped = true; PRUnichar thePrevChar = theChar; theChar = (++current != mEndPosition) ? *current : '\0'; if ((thePrevChar == '\r' && theChar == '\n') || (thePrevChar == '\n' && theChar == '\r')) { theChar = (++current != mEndPosition) ? *current : '\0'; // CRLF == LFCR => LF } } break; default: done = true; break; } } if (skipped) { SetPosition(current); if (current == mEndPosition) { result = kEOF; } } return result; } /** * Skip over chars as long as they equal given char * * @update gess 3/25/98 * @param * @return error code */ nsresult nsScanner::SkipOver(PRUnichar aSkipChar){ if (!mSlidingBuffer) { return kEOF; } PRUnichar ch=0; nsresult result=NS_OK; while(NS_OK==result) { result=Peek(ch); if(NS_OK == result) { if(ch!=aSkipChar) { break; } GetChar(ch); } else break; } //while return result; } #if 0 void DoErrTest(nsString& aString) { int32_t pos=aString.FindChar(0); if(kNotFound', or a '/'. * * @param aString - receives new data from stream * @return error code */ nsresult nsScanner::ReadTagIdentifier(nsScannerSharedSubstring& aString) { if (!mSlidingBuffer) { return kEOF; } PRUnichar theChar=0; nsresult result=Peek(theChar); nsScannerIterator current, end; bool found=false; current = mCurrentPosition; end = mEndPosition; // Loop until we find an illegal character. Everything is then appended // later. while(current != end && !found) { theChar=*current; switch(theChar) { case '\n': case '\r': case ' ' : case '\t': case '\v': case '\f': case '<': case '>': case '/': found = true; break; case '\0': ReplaceCharacter(current, sInvalid); break; default: break; } if (!found) { ++current; } } // Don't bother appending nothing. if (current != mCurrentPosition) { AppendUnicodeTo(mCurrentPosition, current, aString); } SetPosition(current); if (current == end) { result = kEOF; } //DoErrTest(aString); return result; } /** * Consume characters until you run into a char that's not valid in an * entity name * * @param aString - receives new data from stream * @return error code */ nsresult nsScanner::ReadEntityIdentifier(nsString& aString) { if (!mSlidingBuffer) { return kEOF; } PRUnichar theChar=0; nsresult result=Peek(theChar); nsScannerIterator origin, current, end; bool found=false; origin = mCurrentPosition; current = mCurrentPosition; end = mEndPosition; while(current != end) { theChar=*current; if(theChar) { found=false; switch(theChar) { case '_': case '-': case '.': // Don't allow ':' in entity names. See bug 23791 found = true; break; default: found = ('a'<=theChar && theChar<='z') || ('A'<=theChar && theChar<='Z') || ('0'<=theChar && theChar<='9'); break; } if(!found) { AppendUnicodeTo(mCurrentPosition, current, aString); break; } } ++current; } SetPosition(current); if (current == end) { AppendUnicodeTo(origin, current, aString); return kEOF; } //DoErrTest(aString); return result; } /** * Consume digits * * @param aString - should contain digits * @return error code */ nsresult nsScanner::ReadNumber(nsString& aString,int32_t aBase) { if (!mSlidingBuffer) { return kEOF; } NS_ASSERTION(aBase == 10 || aBase == 16,"base value not supported"); PRUnichar theChar=0; nsresult result=Peek(theChar); nsScannerIterator origin, current, end; origin = mCurrentPosition; current = origin; end = mEndPosition; bool done = false; while(current != end) { theChar=*current; if(theChar) { done = (theChar < '0' || theChar > '9') && ((aBase == 16)? (theChar < 'A' || theChar > 'F') && (theChar < 'a' || theChar > 'f') :true); if(done) { AppendUnicodeTo(origin, current, aString); break; } } ++current; } SetPosition(current); if (current == end) { AppendUnicodeTo(origin, current, aString); return kEOF; } //DoErrTest(aString); return result; } /** * Consume characters until you find the terminal char * * @update gess 3/25/98 * @param aString receives new data from stream * @param addTerminal tells us whether to append terminal to aString * @return error code */ nsresult nsScanner::ReadWhitespace(nsScannerSharedSubstring& aString, int32_t& aNewlinesSkipped, bool& aHaveCR) { aHaveCR = false; if (!mSlidingBuffer) { return kEOF; } PRUnichar theChar = 0; nsresult result = Peek(theChar); if (NS_FAILED(result)) { return result; } nsScannerIterator origin, current, end; bool done = false; origin = mCurrentPosition; current = origin; end = mEndPosition; bool haveCR = false; while(!done && current != end) { switch(theChar) { case '\n': case '\r': { ++aNewlinesSkipped; PRUnichar thePrevChar = theChar; theChar = (++current != end) ? *current : '\0'; if ((thePrevChar == '\r' && theChar == '\n') || (thePrevChar == '\n' && theChar == '\r')) { theChar = (++current != end) ? *current : '\0'; // CRLF == LFCR => LF haveCR = true; } else if (thePrevChar == '\r') { // Lone CR becomes CRLF; callers should know to remove extra CRs AppendUnicodeTo(origin, current, aString); aString.writable().Append(PRUnichar('\n')); origin = current; haveCR = true; } } break; case ' ' : case '\t': theChar = (++current != end) ? *current : '\0'; break; default: done = true; AppendUnicodeTo(origin, current, aString); break; } } SetPosition(current); if (current == end) { AppendUnicodeTo(origin, current, aString); result = kEOF; } aHaveCR = haveCR; return result; } //XXXbz callers of this have to manage their lone '\r' themselves if they want //it to work. Good thing they're all in view-source and it deals. nsresult nsScanner::ReadWhitespace(nsScannerIterator& aStart, nsScannerIterator& aEnd, int32_t& aNewlinesSkipped) { if (!mSlidingBuffer) { return kEOF; } PRUnichar theChar = 0; nsresult result = Peek(theChar); if (NS_FAILED(result)) { return result; } nsScannerIterator origin, current, end; bool done = false; origin = mCurrentPosition; current = origin; end = mEndPosition; while(!done && current != end) { switch(theChar) { case '\n': case '\r': ++aNewlinesSkipped; case ' ' : case '\t': { PRUnichar thePrevChar = theChar; theChar = (++current != end) ? *current : '\0'; if ((thePrevChar == '\r' && theChar == '\n') || (thePrevChar == '\n' && theChar == '\r')) { theChar = (++current != end) ? *current : '\0'; // CRLF == LFCR => LF } } break; default: done = true; aStart = origin; aEnd = current; break; } } SetPosition(current); if (current == end) { aStart = origin; aEnd = current; result = kEOF; } return result; } /** * Consume characters until you encounter one contained in given * input set. * * @update gess 3/25/98 * @param aString will contain the result of this method * @param aTerminalSet is an ordered string that contains * the set of INVALID characters * @return error code */ nsresult nsScanner::ReadUntil(nsAString& aString, const nsReadEndCondition& aEndCondition, bool addTerminal) { if (!mSlidingBuffer) { return kEOF; } nsScannerIterator origin, current; const PRUnichar* setstart = aEndCondition.mChars; const PRUnichar* setcurrent; origin = mCurrentPosition; current = origin; PRUnichar theChar=0; nsresult result=Peek(theChar); if (NS_FAILED(result)) { return result; } while (current != mEndPosition) { theChar = *current; if (theChar == '\0') { ReplaceCharacter(current, sInvalid); theChar = sInvalid; } // Filter out completely wrong characters // Check if all bits are in the required area if(!(theChar & aEndCondition.mFilter)) { // They were. Do a thorough check. setcurrent = setstart; while (*setcurrent) { if (*setcurrent == theChar) { if(addTerminal) ++current; AppendUnicodeTo(origin, current, aString); SetPosition(current); //DoErrTest(aString); return NS_OK; } ++setcurrent; } } ++current; } // If we are here, we didn't find any terminator in the string and // current = mEndPosition SetPosition(current); AppendUnicodeTo(origin, current, aString); return kEOF; } nsresult nsScanner::ReadUntil(nsScannerSharedSubstring& aString, const nsReadEndCondition& aEndCondition, bool addTerminal) { if (!mSlidingBuffer) { return kEOF; } nsScannerIterator origin, current; const PRUnichar* setstart = aEndCondition.mChars; const PRUnichar* setcurrent; origin = mCurrentPosition; current = origin; PRUnichar theChar=0; nsresult result=Peek(theChar); if (NS_FAILED(result)) { return result; } while (current != mEndPosition) { theChar = *current; if (theChar == '\0') { ReplaceCharacter(current, sInvalid); theChar = sInvalid; } // Filter out completely wrong characters // Check if all bits are in the required area if(!(theChar & aEndCondition.mFilter)) { // They were. Do a thorough check. setcurrent = setstart; while (*setcurrent) { if (*setcurrent == theChar) { if(addTerminal) ++current; AppendUnicodeTo(origin, current, aString); SetPosition(current); //DoErrTest(aString); return NS_OK; } ++setcurrent; } } ++current; } // If we are here, we didn't find any terminator in the string and // current = mEndPosition SetPosition(current); AppendUnicodeTo(origin, current, aString); return kEOF; } nsresult nsScanner::ReadUntil(nsScannerIterator& aStart, nsScannerIterator& aEnd, const nsReadEndCondition &aEndCondition, bool addTerminal) { if (!mSlidingBuffer) { return kEOF; } nsScannerIterator origin, current; const PRUnichar* setstart = aEndCondition.mChars; const PRUnichar* setcurrent; origin = mCurrentPosition; current = origin; PRUnichar theChar=0; nsresult result=Peek(theChar); if (NS_FAILED(result)) { aStart = aEnd = current; return result; } while (current != mEndPosition) { theChar = *current; if (theChar == '\0') { ReplaceCharacter(current, sInvalid); theChar = sInvalid; } // Filter out completely wrong characters // Check if all bits are in the required area if(!(theChar & aEndCondition.mFilter)) { // They were. Do a thorough check. setcurrent = setstart; while (*setcurrent) { if (*setcurrent == theChar) { if(addTerminal) ++current; aStart = origin; aEnd = current; SetPosition(current); return NS_OK; } ++setcurrent; } } ++current; } // If we are here, we didn't find any terminator in the string and // current = mEndPosition SetPosition(current); aStart = origin; aEnd = current; return kEOF; } /** * Consumes chars until you see the given terminalChar * * @update gess 3/25/98 * @param * @return error code */ nsresult nsScanner::ReadUntil(nsAString& aString, PRUnichar aTerminalChar, bool addTerminal) { if (!mSlidingBuffer) { return kEOF; } nsScannerIterator origin, current; origin = mCurrentPosition; current = origin; PRUnichar theChar; nsresult result = Peek(theChar); if (NS_FAILED(result)) { return result; } while (current != mEndPosition) { theChar = *current; if (theChar == '\0') { ReplaceCharacter(current, sInvalid); theChar = sInvalid; } if (aTerminalChar == theChar) { if(addTerminal) ++current; AppendUnicodeTo(origin, current, aString); SetPosition(current); return NS_OK; } ++current; } // If we are here, we didn't find any terminator in the string and // current = mEndPosition AppendUnicodeTo(origin, current, aString); SetPosition(current); return kEOF; } void nsScanner::BindSubstring(nsScannerSubstring& aSubstring, const nsScannerIterator& aStart, const nsScannerIterator& aEnd) { aSubstring.Rebind(*mSlidingBuffer, aStart, aEnd); } void nsScanner::CurrentPosition(nsScannerIterator& aPosition) { aPosition = mCurrentPosition; } void nsScanner::EndReading(nsScannerIterator& aPosition) { aPosition = mEndPosition; } void nsScanner::SetPosition(nsScannerIterator& aPosition, bool aTerminate, bool aReverse) { if (mSlidingBuffer) { #ifdef DEBUG uint32_t origRemaining = mCountRemaining; #endif if (aReverse) { mCountRemaining += (Distance(aPosition, mCurrentPosition)); } else { mCountRemaining -= (Distance(mCurrentPosition, aPosition)); } NS_ASSERTION((mCountRemaining >= origRemaining && aReverse) || (mCountRemaining <= origRemaining && !aReverse), "Improper use of nsScanner::SetPosition. Make sure to set the" " aReverse parameter correctly"); mCurrentPosition = aPosition; if (aTerminate && (mCurrentPosition == mEndPosition)) { mMarkPosition = mCurrentPosition; mSlidingBuffer->DiscardPrefix(mCurrentPosition); } } } void nsScanner::ReplaceCharacter(nsScannerIterator& aPosition, PRUnichar aChar) { if (mSlidingBuffer) { mSlidingBuffer->ReplaceCharacter(aPosition, aChar); } } bool nsScanner::AppendToBuffer(nsScannerString::Buffer* aBuf, nsIRequest *aRequest, int32_t aErrorPos) { uint32_t countRemaining = mCountRemaining; if (!mSlidingBuffer) { mSlidingBuffer = new nsScannerString(aBuf); if (!mSlidingBuffer) return false; mSlidingBuffer->BeginReading(mCurrentPosition); mMarkPosition = mCurrentPosition; mSlidingBuffer->EndReading(mEndPosition); mCountRemaining = aBuf->DataLength(); } else { mSlidingBuffer->AppendBuffer(aBuf); if (mCurrentPosition == mEndPosition) { mSlidingBuffer->BeginReading(mCurrentPosition); } mSlidingBuffer->EndReading(mEndPosition); mCountRemaining += aBuf->DataLength(); } if (aErrorPos != -1 && !mHasInvalidCharacter) { mHasInvalidCharacter = true; mFirstInvalidPosition = mCurrentPosition; mFirstInvalidPosition.advance(countRemaining + aErrorPos); } if (mFirstNonWhitespacePosition == -1) { nsScannerIterator iter(mCurrentPosition); nsScannerIterator end(mEndPosition); while (iter != end) { if (!nsCRT::IsAsciiSpace(*iter)) { mFirstNonWhitespacePosition = Distance(mCurrentPosition, iter); break; } ++iter; } } return true; } /** * call this to copy bytes out of the scanner that have not yet been consumed * by the tokenization process. * * @update gess 5/12/98 * @param aCopyBuffer is where the scanner buffer will be copied to * @return nada */ void nsScanner::CopyUnusedData(nsString& aCopyBuffer) { if (!mSlidingBuffer) { aCopyBuffer.Truncate(); return; } nsScannerIterator start, end; start = mCurrentPosition; end = mEndPosition; CopyUnicodeTo(start, end, aCopyBuffer); } /** * Retrieve the name of the file that the scanner is reading from. * In some cases, it's just a given name, because the scanner isn't * really reading from a file. * * @update gess 5/12/98 * @return */ nsString& nsScanner::GetFilename(void) { return mFilename; } /** * Conduct self test. Actually, selftesting for this class * occurs in the parser selftest. * * @update gess 3/25/98 * @param * @return */ void nsScanner::SelfTest(void) { #ifdef _DEBUG #endif } void nsScanner::OverrideReplacementCharacter(PRUnichar aReplacementCharacter) { mReplacementCharacter = aReplacementCharacter; if (mHasInvalidCharacter) { ReplaceCharacter(mFirstInvalidPosition, mReplacementCharacter); } }