/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* 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/. */ /* tokenization of CSS style sheets */ #include // must be first due to symbol conflicts #include "nsCSSScanner.h" #include "nsStyleUtil.h" #include "mozilla/css/ErrorReporter.h" #include "mozilla/Likely.h" #include "mozilla/Util.h" using mozilla::ArrayLength; static const uint8_t IS_HEX_DIGIT = 0x01; static const uint8_t START_IDENT = 0x02; static const uint8_t IS_IDENT = 0x04; static const uint8_t IS_WHITESPACE = 0x08; static const uint8_t IS_URL_CHAR = 0x10; #define W IS_WHITESPACE #define I IS_IDENT #define U IS_URL_CHAR #define S START_IDENT #define UI IS_IDENT |IS_URL_CHAR #define USI IS_IDENT|START_IDENT |IS_URL_CHAR #define UXI IS_IDENT |IS_HEX_DIGIT|IS_URL_CHAR #define UXSI IS_IDENT|START_IDENT|IS_HEX_DIGIT|IS_URL_CHAR static const uint8_t gLexTable[] = { // TAB LF FF CR 0, 0, 0, 0, 0, 0, 0, 0, 0, W, W, 0, W, W, 0, 0, // 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // SPC ! " # $ % & ' ( ) * + , - . / W, U, 0, U, U, U, U, 0, 0, 0, U, U, U, UI, U, U, // 0 1 2 3 4 5 6 7 8 9 : ; < = > ? UXI,UXI,UXI,UXI,UXI,UXI,UXI,UXI,UXI,UXI,U, U, U, U, U, U, // @ A B C D E F G H I J K L M N O U,UXSI,UXSI,UXSI,UXSI,UXSI,UXSI,USI,USI,USI,USI,USI,USI,USI,USI,USI, // P Q R S T U V W X Y Z [ \ ] ^ _ USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,U, S, U, U, USI, // ` a b c d e f g h i j k l m n o U,UXSI,UXSI,UXSI,UXSI,UXSI,UXSI,USI,USI,USI,USI,USI,USI,USI,USI,USI, // p q r s t u v w x y z { | } ~ USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,U, U, U, U, 0, // U+008* 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // U+009* 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // U+00A* USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI, // U+00B* USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI, // U+00C* USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI, // U+00D* USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI, // U+00E* USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI, // U+00F* USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI,USI }; MOZ_STATIC_ASSERT(NS_ARRAY_LENGTH(gLexTable) == 256, "gLexTable expected to cover all 2^8 possible PRUint8s"); #undef W #undef S #undef I #undef U #undef UI #undef USI #undef UXI #undef UXSI static inline bool IsIdentStart(int32_t aChar) { return aChar >= 0 && (aChar >= 256 || (gLexTable[aChar] & START_IDENT) != 0); } static inline bool StartsIdent(int32_t aFirstChar, int32_t aSecondChar) { return IsIdentStart(aFirstChar) || (aFirstChar == '-' && IsIdentStart(aSecondChar)); } static inline bool IsWhitespace(int32_t ch) { return uint32_t(ch) < 256 && (gLexTable[ch] & IS_WHITESPACE) != 0; } static inline bool IsDigit(int32_t ch) { return (ch >= '0') && (ch <= '9'); } static inline bool IsHexDigit(int32_t ch) { return uint32_t(ch) < 256 && (gLexTable[ch] & IS_HEX_DIGIT) != 0; } static inline bool IsIdent(int32_t ch) { return ch >= 0 && (ch >= 256 || (gLexTable[ch] & IS_IDENT) != 0); } static inline bool IsURLChar(int32_t ch) { return ch >= 0 && (ch >= 256 || (gLexTable[ch] & IS_URL_CHAR) != 0); } static inline uint32_t DecimalDigitValue(int32_t ch) { return ch - '0'; } static inline uint32_t HexDigitValue(int32_t ch) { if (IsDigit(ch)) { return DecimalDigitValue(ch); } else { // Note: c&7 just keeps the low three bits which causes // upper and lower case alphabetics to both yield their // "relative to 10" value for computing the hex value. return (ch & 0x7) + 9; } } nsCSSToken::nsCSSToken() { mType = eCSSToken_Symbol; } void nsCSSToken::AppendToString(nsString& aBuffer) const { switch (mType) { case eCSSToken_Ident: nsStyleUtil::AppendEscapedCSSIdent(mIdent, aBuffer); break; case eCSSToken_AtKeyword: aBuffer.Append('@'); nsStyleUtil::AppendEscapedCSSIdent(mIdent, aBuffer); break; case eCSSToken_ID: case eCSSToken_Ref: aBuffer.Append('#'); nsStyleUtil::AppendEscapedCSSIdent(mIdent, aBuffer); break; case eCSSToken_Function: nsStyleUtil::AppendEscapedCSSIdent(mIdent, aBuffer); aBuffer.Append('('); break; case eCSSToken_URL: case eCSSToken_Bad_URL: aBuffer.AppendLiteral("url("); if (mSymbol != PRUnichar(0)) { nsStyleUtil::AppendEscapedCSSString(mIdent, aBuffer, mSymbol); } else { aBuffer.Append(mIdent); } if (mType == eCSSToken_URL) { aBuffer.Append(PRUnichar(')')); } break; case eCSSToken_Number: if (mIntegerValid) { aBuffer.AppendInt(mInteger, 10); } else { aBuffer.AppendFloat(mNumber); } break; case eCSSToken_Percentage: NS_ASSERTION(!mIntegerValid, "How did a percentage token get this set?"); aBuffer.AppendFloat(mNumber * 100.0f); aBuffer.Append(PRUnichar('%')); break; case eCSSToken_Dimension: if (mIntegerValid) { aBuffer.AppendInt(mInteger, 10); } else { aBuffer.AppendFloat(mNumber); } nsStyleUtil::AppendEscapedCSSIdent(mIdent, aBuffer); break; case eCSSToken_Bad_String: nsStyleUtil::AppendEscapedCSSString(mIdent, aBuffer, mSymbol); // remove the trailing quote character aBuffer.Truncate(aBuffer.Length() - 1); break; case eCSSToken_String: nsStyleUtil::AppendEscapedCSSString(mIdent, aBuffer, mSymbol); break; case eCSSToken_Symbol: aBuffer.Append(mSymbol); break; case eCSSToken_WhiteSpace: aBuffer.Append(' '); break; case eCSSToken_HTMLComment: case eCSSToken_URange: aBuffer.Append(mIdent); break; case eCSSToken_Includes: aBuffer.AppendLiteral("~="); break; case eCSSToken_Dashmatch: aBuffer.AppendLiteral("|="); break; case eCSSToken_Beginsmatch: aBuffer.AppendLiteral("^="); break; case eCSSToken_Endsmatch: aBuffer.AppendLiteral("$="); break; case eCSSToken_Containsmatch: aBuffer.AppendLiteral("*="); break; default: NS_ERROR("invalid token type"); break; } } nsCSSScanner::nsCSSScanner(const nsAString& aBuffer, uint32_t aLineNumber) : mReadPointer(aBuffer.BeginReading()) , mOffset(0) , mCount(aBuffer.Length()) , mPushback(mLocalPushback) , mPushbackCount(0) , mPushbackSize(ArrayLength(mLocalPushback)) , mLineNumber(aLineNumber) , mLineOffset(0) , mRecordStartOffset(0) , mReporter(nullptr) , mSVGMode(false) , mRecording(false) { MOZ_COUNT_CTOR(nsCSSScanner); } nsCSSScanner::~nsCSSScanner() { MOZ_COUNT_DTOR(nsCSSScanner); if (mLocalPushback != mPushback) { delete [] mPushback; } } // Returns -1 on error or eof int32_t nsCSSScanner::Read() { int32_t rv; if (0 < mPushbackCount) { rv = int32_t(mPushback[--mPushbackCount]); } else { if (mOffset == mCount) { return -1; } rv = int32_t(mReadPointer[mOffset++]); // There are four types of newlines in CSS: "\r", "\n", "\r\n", and "\f". // To simplify dealing with newlines, they are all normalized to "\n" here if (rv == '\r') { if (mOffset < mCount && mReadPointer[mOffset] == '\n') { mOffset++; } rv = '\n'; } else if (rv == '\f') { rv = '\n'; } if (rv == '\n') { // 0 is a magical line number meaning that we don't know (i.e., script) if (mLineNumber != 0) ++mLineNumber; mLineOffset = 0; } } return rv; } int32_t nsCSSScanner::Peek() { if (0 == mPushbackCount) { int32_t ch = Read(); if (ch < 0) { return -1; } mPushback[0] = PRUnichar(ch); mPushbackCount++; } return int32_t(mPushback[mPushbackCount - 1]); } void nsCSSScanner::Pushback(PRUnichar aChar) { if (mPushbackCount == mPushbackSize) { // grow buffer PRUnichar* newPushback = new PRUnichar[mPushbackSize + 4]; if (nullptr == newPushback) { return; } mPushbackSize += 4; memcpy(newPushback, mPushback, sizeof(PRUnichar) * mPushbackCount); if (mPushback != mLocalPushback) { delete [] mPushback; } mPushback = newPushback; } mPushback[mPushbackCount++] = aChar; } void nsCSSScanner::StartRecording() { NS_ASSERTION(!mRecording, "already started recording"); mRecording = true; mRecordStartOffset = mOffset - mPushbackCount; } void nsCSSScanner::StopRecording() { NS_ASSERTION(mRecording, "haven't started recording"); mRecording = false; } void nsCSSScanner::StopRecording(nsString& aBuffer) { NS_ASSERTION(mRecording, "haven't started recording"); mRecording = false; aBuffer.Append(mReadPointer + mRecordStartOffset, mOffset - mPushbackCount - mRecordStartOffset); } bool nsCSSScanner::LookAhead(PRUnichar aChar) { int32_t ch = Read(); if (ch < 0) { return false; } if (ch == aChar) { return true; } Pushback(ch); return false; } bool nsCSSScanner::LookAheadOrEOF(PRUnichar aChar) { int32_t ch = Read(); if (ch < 0) { return true; } if (ch == aChar) { return true; } Pushback(ch); return false; } void nsCSSScanner::EatWhiteSpace() { for (;;) { int32_t ch = Read(); if (ch < 0) { break; } if ((ch != ' ') && (ch != '\n') && (ch != '\t')) { Pushback(ch); break; } } } bool nsCSSScanner::Next(nsCSSToken& aToken) { for (;;) { // Infinite loop so we can restart after comments. int32_t ch = Read(); if (ch < 0) { return false; } // UNICODE-RANGE if ((ch == 'u' || ch == 'U') && Peek() == '+') return ParseURange(ch, aToken); // IDENT if (StartsIdent(ch, Peek())) return ParseIdent(ch, aToken); // AT_KEYWORD if (ch == '@') { return ParseAtKeyword(aToken); } // NUMBER or DIM if ((ch == '.') || (ch == '+') || (ch == '-')) { int32_t nextChar = Peek(); if (IsDigit(nextChar)) { return ParseNumber(ch, aToken); } else if (('.' == nextChar) && ('.' != ch)) { nextChar = Read(); int32_t followingChar = Peek(); Pushback(nextChar); if (IsDigit(followingChar)) return ParseNumber(ch, aToken); } } if (IsDigit(ch)) { return ParseNumber(ch, aToken); } // ID if (ch == '#') { return ParseRef(ch, aToken); } // STRING if ((ch == '"') || (ch == '\'')) { return ParseString(ch, aToken); } // WS if (IsWhitespace(ch)) { aToken.mType = eCSSToken_WhiteSpace; aToken.mIdent.Assign(PRUnichar(ch)); EatWhiteSpace(); return true; } if (ch == '/' && !IsSVGMode()) { int32_t nextChar = Peek(); if (nextChar == '*') { Read(); // FIXME: Editor wants comments to be preserved (bug 60290). if (!SkipCComment()) { return false; } continue; // start again at the beginning } } if (ch == '<') { // consume HTML comment tags if (LookAhead('!')) { if (LookAhead('-')) { if (LookAhead('-')) { aToken.mType = eCSSToken_HTMLComment; aToken.mIdent.AssignLiteral(""); return true; } Pushback('-'); } } // INCLUDES ("~=") and DASHMATCH ("|=") if (( ch == '|' ) || ( ch == '~' ) || ( ch == '^' ) || ( ch == '$' ) || ( ch == '*' )) { int32_t nextChar = Read(); if ( nextChar == '=' ) { if (ch == '~') { aToken.mType = eCSSToken_Includes; } else if (ch == '|') { aToken.mType = eCSSToken_Dashmatch; } else if (ch == '^') { aToken.mType = eCSSToken_Beginsmatch; } else if (ch == '$') { aToken.mType = eCSSToken_Endsmatch; } else if (ch == '*') { aToken.mType = eCSSToken_Containsmatch; } return true; } else if (nextChar >= 0) { Pushback(nextChar); } } aToken.mType = eCSSToken_Symbol; aToken.mSymbol = ch; return true; } } bool nsCSSScanner::NextURL(nsCSSToken& aToken) { EatWhiteSpace(); int32_t ch = Read(); if (ch < 0) { return false; } // STRING if ((ch == '"') || (ch == '\'')) { #ifdef DEBUG bool ok = #endif ParseString(ch, aToken); NS_ABORT_IF_FALSE(ok, "ParseString should never fail, " "since there's always something read"); NS_ABORT_IF_FALSE(aToken.mType == eCSSToken_String || aToken.mType == eCSSToken_Bad_String, "unexpected token type"); if (MOZ_LIKELY(aToken.mType == eCSSToken_String)) { EatWhiteSpace(); if (LookAheadOrEOF(')')) { aToken.mType = eCSSToken_URL; } else { aToken.mType = eCSSToken_Bad_URL; } } else { aToken.mType = eCSSToken_Bad_URL; } return true; } // Process a url lexical token. A CSS1 url token can contain // characters beyond identifier characters (e.g. '/', ':', etc.) // Because of this the normal rules for tokenizing the input don't // apply very well. To simplify the parser and relax some of the // requirements on the scanner we parse url's here. If we find a // malformed URL then we emit a token of type "Bad_URL" so that // the CSS1 parser can ignore the invalid input. The parser must // treat a Bad_URL token like a Function token, and process // tokens until a matching parenthesis. aToken.mType = eCSSToken_Bad_URL; aToken.mSymbol = PRUnichar(0); nsString& ident = aToken.mIdent; ident.SetLength(0); // start of a non-quoted url (which may be empty) bool ok = true; for (;;) { if (IsURLChar(ch)) { // A regular url character. ident.Append(PRUnichar(ch)); } else if (ch == ')') { // All done break; } else if (IsWhitespace(ch)) { // Whitespace is allowed at the end of the URL EatWhiteSpace(); // Consume the close paren if we have it; if not we're an invalid URL. ok = LookAheadOrEOF(')'); break; } else if (ch == '\\') { if (!ParseAndAppendEscape(ident, false)) { ok = false; Pushback(ch); break; } } else { // This is an invalid URL spec ok = false; Pushback(ch); // push it back so the parser can match tokens and // then closing parenthesis break; } ch = Read(); if (ch < 0) { break; } } // If the result of the above scanning is ok then change the token // type to a useful one. if (ok) { aToken.mType = eCSSToken_URL; } return true; } /** * Returns whether an escape was succesfully parsed; if it was not, * the backslash needs to be its own symbol token. */ bool nsCSSScanner::ParseAndAppendEscape(nsString& aOutput, bool aInString) { int32_t ch = Read(); if (ch < 0) { return false; } if (IsHexDigit(ch)) { int32_t rv = 0; int i; Pushback(ch); for (i = 0; i < 6; i++) { // up to six digits ch = Read(); if (ch < 0) { // Whoops: error or premature eof break; } if (!IsHexDigit(ch) && !IsWhitespace(ch)) { Pushback(ch); break; } else if (IsHexDigit(ch)) { rv = rv * 16 + HexDigitValue(ch); } else { NS_ASSERTION(IsWhitespace(ch), "bad control flow"); // single space ends escape break; } } if (6 == i) { // look for trailing whitespace and eat it ch = Peek(); if (IsWhitespace(ch)) { (void) Read(); } } NS_ASSERTION(rv >= 0, "How did rv become negative?"); // "[at most six hexadecimal digits following a backslash] stand // for the ISO 10646 character with that number, which must not be // zero. (It is undefined in CSS 2.1 what happens if a style sheet // does contain a character with Unicode codepoint zero.)" // -- CSS2.1 section 4.1.3 // // Silently deleting \0 opens a content-filtration loophole (see // bug 228856), so what we do instead is pretend the "cancels the // meaning of special characters" rule applied. if (rv > 0) { AppendUCS4ToUTF16(ENSURE_VALID_CHAR(rv), aOutput); } else { while (i--) aOutput.Append('0'); if (IsWhitespace(ch)) Pushback(ch); } return true; } // "Any character except a hexadecimal digit can be escaped to // remove its special meaning by putting a backslash in front" // -- CSS1 spec section 7.1 if (ch == '\n') { if (!aInString) { // Outside of strings (which includes url() that contains a // string), escaped newlines aren't special, and just tokenize as // eCSSToken_Symbol (DELIM). Pushback(ch); return false; } // In strings (and in url() containing a string), escaped newlines // are just dropped to allow splitting over multiple lines. } else { aOutput.Append(ch); } return true; } /** * Gather up the characters in an identifier. The identfier was * started by "aChar" which will be appended to aIdent. The result * will be aIdent with all of the identifier characters appended * until the first non-identifier character is seen. The termination * character is unread for the future re-reading. * * Returns failure when the character sequence does not form an ident at * all, in which case the caller is responsible for pushing back or * otherwise handling aChar. (This occurs only when aChar is '\'.) */ bool nsCSSScanner::GatherIdent(int32_t aChar, nsString& aIdent) { if (aChar == '\\') { if (!ParseAndAppendEscape(aIdent, false)) { return false; } } else { MOZ_ASSERT(aChar > 0); aIdent.Append(aChar); } for (;;) { // If nothing in pushback, first try to get as much as possible in one go if (!mPushbackCount && mOffset < mCount) { // See how much we can consume and append in one go uint32_t n = mOffset; // Count number of Ident characters that can be processed while (n < mCount && IsIdent(mReadPointer[n])) { ++n; } // Add to the token what we have so far if (n > mOffset) { aIdent.Append(&mReadPointer[mOffset], n - mOffset); mOffset = n; } } aChar = Read(); if (aChar < 0) break; if (aChar == '\\') { if (!ParseAndAppendEscape(aIdent, false)) { Pushback(aChar); break; } } else if (IsIdent(aChar)) { aIdent.Append(PRUnichar(aChar)); } else { Pushback(aChar); break; } } MOZ_ASSERT(aIdent.Length() > 0); return true; } bool nsCSSScanner::ParseRef(int32_t aChar, nsCSSToken& aToken) { // Fall back for when we don't have name characters following: aToken.mType = eCSSToken_Symbol; aToken.mSymbol = aChar; int32_t ch = Read(); if (ch < 0) { return true; } if (IsIdent(ch) || ch == '\\') { // First char after the '#' is a valid ident char (or an escape), // so it makes sense to keep going nsCSSTokenType type = StartsIdent(ch, Peek()) ? eCSSToken_ID : eCSSToken_Ref; aToken.mIdent.SetLength(0); if (GatherIdent(ch, aToken.mIdent)) { aToken.mType = type; return true; } } // No ident chars after the '#'. Just unread |ch| and get out of here. Pushback(ch); return true; } bool nsCSSScanner::ParseIdent(int32_t aChar, nsCSSToken& aToken) { nsString& ident = aToken.mIdent; ident.SetLength(0); if (!GatherIdent(aChar, ident)) { aToken.mType = eCSSToken_Symbol; aToken.mSymbol = aChar; return true; } nsCSSTokenType tokenType = eCSSToken_Ident; // look for functions (ie: "ident(") if (Peek() == PRUnichar('(')) { Read(); tokenType = eCSSToken_Function; if (ident.LowerCaseEqualsLiteral("url")) { NextURL(aToken); // ignore return value, since *we* read something return true; } } aToken.mType = tokenType; return true; } bool nsCSSScanner::ParseAtKeyword(nsCSSToken& aToken) { int32_t ch = Read(); if (StartsIdent(ch, Peek())) { aToken.mIdent.SetLength(0); aToken.mType = eCSSToken_AtKeyword; if (GatherIdent(ch, aToken.mIdent)) { return true; } } if (ch >= 0) { Pushback(ch); } aToken.mType = eCSSToken_Symbol; aToken.mSymbol = PRUnichar('@'); return true; } bool nsCSSScanner::ParseNumber(int32_t c, nsCSSToken& aToken) { NS_PRECONDITION(c == '.' || c == '+' || c == '-' || IsDigit(c), "Why did we get called?"); aToken.mHasSign = (c == '+' || c == '-'); // Our sign. int32_t sign = c == '-' ? -1 : 1; // Absolute value of the integer part of the mantissa. This is a double so // we don't run into overflow issues for consumers that only care about our // floating-point value while still being able to express the full int32_t // range for consumers who want integers. double intPart = 0; // Fractional part of the mantissa. This is a double so that when we convert // to float at the end we'll end up rounding to nearest float instead of // truncating down (as we would if fracPart were a float and we just // effectively lost the last several digits). double fracPart = 0; // Absolute value of the power of 10 that we should multiply by (only // relevant for numbers in scientific notation). Has to be a signed integer, // because multiplication of signed by unsigned converts the unsigned to // signed, so if we plan to actually multiply by expSign... int32_t exponent = 0; // Sign of the exponent. int32_t expSign = 1; if (aToken.mHasSign) { NS_ASSERTION(c != '.', "How did that happen?"); c = Read(); } bool gotDot = (c == '.'); if (!gotDot) { // Parse the integer part of the mantisssa NS_ASSERTION(IsDigit(c), "Why did we get called?"); do { intPart = 10*intPart + DecimalDigitValue(c); c = Read(); // The IsDigit check will do the right thing even if Read() returns < 0 } while (IsDigit(c)); gotDot = (c == '.') && IsDigit(Peek()); } if (gotDot) { // Parse the fractional part of the mantissa. c = Read(); NS_ASSERTION(IsDigit(c), "How did we get here?"); // Power of ten by which we need to divide our next digit float divisor = 10; do { fracPart += DecimalDigitValue(c) / divisor; divisor *= 10; c = Read(); // The IsDigit check will do the right thing even if Read() returns < 0 } while (IsDigit(c)); } bool gotE = false; if (IsSVGMode() && (c == 'e' || c == 'E')) { int32_t nextChar = Peek(); int32_t expSignChar = 0; if (nextChar == '-' || nextChar == '+') { expSignChar = Read(); nextChar = Peek(); } if (IsDigit(nextChar)) { gotE = true; if (expSignChar == '-') { expSign = -1; } c = Read(); NS_ASSERTION(IsDigit(c), "Peek() must have lied"); do { exponent = 10*exponent + DecimalDigitValue(c); c = Read(); // The IsDigit check will do the right thing even if Read() returns < 0 } while (IsDigit(c)); } else { if (expSignChar) { Pushback(expSignChar); } } } nsCSSTokenType type = eCSSToken_Number; // Set mIntegerValid for all cases (except %, below) because we need // it for the "2n" in :nth-child(2n). aToken.mIntegerValid = false; // Time to reassemble our number. float value = float(sign * (intPart + fracPart)); if (gotE) { // pow(), not powf(), because at least wince doesn't have the latter. // And explicitly cast everything to doubles to avoid issues with // overloaded pow() on Windows. value *= pow(10.0, double(expSign * exponent)); } else if (!gotDot) { // Clamp values outside of integer range. if (sign > 0) { aToken.mInteger = int32_t(NS_MIN(intPart, double(INT32_MAX))); } else { aToken.mInteger = int32_t(NS_MAX(-intPart, double(INT32_MIN))); } aToken.mIntegerValid = true; } nsString& ident = aToken.mIdent; ident.Truncate(); // Look at character that terminated the number if (c >= 0) { if (StartsIdent(c, Peek())) { if (GatherIdent(c, ident)) { type = eCSSToken_Dimension; } } else if ('%' == c) { type = eCSSToken_Percentage; value = value / 100.0f; aToken.mIntegerValid = false; } else { // Put back character that stopped numeric scan Pushback(c); } } aToken.mNumber = value; aToken.mType = type; return true; } bool nsCSSScanner::SkipCComment() { for (;;) { int32_t ch = Read(); if (ch < 0) break; if (ch == '*') { if (LookAhead('/')) { return true; } } } mReporter->ReportUnexpectedEOF("PECommentEOF"); return false; } bool nsCSSScanner::ParseString(int32_t aStop, nsCSSToken& aToken) { aToken.mIdent.SetLength(0); aToken.mType = eCSSToken_String; aToken.mSymbol = PRUnichar(aStop); // remember how it's quoted for (;;) { // If nothing in pushback, first try to get as much as possible in one go if (!mPushbackCount && mOffset < mCount) { // See how much we can consume and append in one go uint32_t n = mOffset; // Count number of characters that can be processed for (;n < mCount; ++n) { PRUnichar nextChar = mReadPointer[n]; if ((nextChar == aStop) || (nextChar == '\\') || (nextChar == '\n') || (nextChar == '\r') || (nextChar == '\f')) { break; } } // Add to the token what we have so far if (n > mOffset) { aToken.mIdent.Append(&mReadPointer[mOffset], n - mOffset); mOffset = n; } } int32_t ch = Read(); if (ch < 0 || ch == aStop) { break; } if (ch == '\n') { aToken.mType = eCSSToken_Bad_String; mReporter->ReportUnexpected("SEUnterminatedString", aToken); break; } if (ch == '\\') { if (!ParseAndAppendEscape(aToken.mIdent, true)) { aToken.mType = eCSSToken_Bad_String; Pushback(ch); // For strings, the only case where ParseAndAppendEscape will // return false is when there's a backslash to start an escape // immediately followed by end-of-stream. In that case, the // correct tokenization is badstring *followed* by a DELIM for // the backslash, but as far as the author is concerned, it // works pretty much the same as an unterminated string, so we // use the same error message. mReporter->ReportUnexpected("SEUnterminatedString", aToken); break; } } else { aToken.mIdent.Append(ch); } } return true; } // UNICODE-RANGE tokens match the regular expression // // u\+[0-9a-f?]{1,6}(-[0-9a-f]{1,6})? // // However, some such tokens are "invalid". There are three valid forms: // // u+[0-9a-f]{x} 1 <= x <= 6 // u+[0-9a-f]{x}\?{y} 1 <= x+y <= 6 // u+[0-9a-f]{x}-[0-9a-f]{y} 1 <= x <= 6, 1 <= y <= 6 // // All unicode-range tokens have their text recorded in mIdent; valid ones // are also decoded into mInteger and mInteger2, and mIntegerValid is set. bool nsCSSScanner::ParseURange(int32_t aChar, nsCSSToken& aResult) { int32_t intro2 = Read(); int32_t ch = Peek(); // We should only ever be called if these things are true. NS_ASSERTION(aChar == 'u' || aChar == 'U', "unicode-range called with improper introducer (U)"); NS_ASSERTION(intro2 == '+', "unicode-range called with improper introducer (+)"); // If the character immediately after the '+' is not a hex digit or // '?', this is not really a unicode-range token; push everything // back and scan the U as an ident. if (!IsHexDigit(ch) && ch != '?') { Pushback(intro2); Pushback(aChar); return ParseIdent(aChar, aResult); } aResult.mIdent.Truncate(); aResult.mIdent.Append(aChar); aResult.mIdent.Append(intro2); bool valid = true; bool haveQues = false; uint32_t low = 0; uint32_t high = 0; int i = 0; for (;;) { ch = Read(); i++; if (i == 7 || !(IsHexDigit(ch) || ch == '?')) { break; } aResult.mIdent.Append(ch); if (IsHexDigit(ch)) { if (haveQues) { valid = false; // all question marks should be at the end } low = low*16 + HexDigitValue(ch); high = high*16 + HexDigitValue(ch); } else { haveQues = true; low = low*16 + 0x0; high = high*16 + 0xF; } } if (ch == '-' && IsHexDigit(Peek())) { if (haveQues) { valid = false; } aResult.mIdent.Append(ch); high = 0; i = 0; for (;;) { ch = Read(); i++; if (i == 7 || !IsHexDigit(ch)) { break; } aResult.mIdent.Append(ch); high = high*16 + HexDigitValue(ch); } } Pushback(ch); aResult.mInteger = low; aResult.mInteger2 = high; aResult.mIntegerValid = valid; aResult.mType = eCSSToken_URange; return true; }