/* -*- 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 "nsCSSScanner.h" #include "nsStyleUtil.h" #include "nsTraceRefcnt.h" #include "mozilla/ArrayUtils.h" #include "mozilla/css/ErrorReporter.h" #include "mozilla/Likely.h" #include /* Character class tables and related helper functions. */ static const uint8_t IS_HEX_DIGIT = 0x01; static const uint8_t IS_IDSTART = 0x02; static const uint8_t IS_IDCHAR = 0x04; static const uint8_t IS_URL_CHAR = 0x08; static const uint8_t IS_HSPACE = 0x10; static const uint8_t IS_VSPACE = 0x20; static const uint8_t IS_SPACE = IS_HSPACE|IS_VSPACE; static const uint8_t IS_STRING = 0x40; #define H IS_HSPACE #define V IS_VSPACE #define I IS_IDCHAR #define J IS_IDSTART #define U IS_URL_CHAR #define S IS_STRING #define X IS_HEX_DIGIT #define SH S|H #define SU S|U #define SUI S|U|I #define SUIJ S|U|I|J #define SUIX S|U|I|X #define SUIJX S|U|I|J|X static const uint8_t gLexTable[] = { // 00 01 02 03 04 05 06 07 0, S, S, S, S, S, S, S, // 08 TAB LF 0B FF CR 0E 0F S, SH, V, S, V, V, S, S, // 10 11 12 13 14 15 16 17 S, S, S, S, S, S, S, S, // 18 19 1A 1B 1C 1D 1E 1F S, S, S, S, S, S, S, S, //SPC ! " # $ % & ' SH, SU, 0, SU, SU, SU, SU, 0, // ( ) * + , - . / S, S, SU, SU, SU, SUI, SU, SU, // 0 1 2 3 4 5 6 7 SUIX, SUIX, SUIX, SUIX, SUIX, SUIX, SUIX, SUIX, // 8 9 : ; < = > ? SUIX, SUIX, SU, SU, SU, SU, SU, SU, // @ A B C D E F G SU,SUIJX,SUIJX,SUIJX,SUIJX,SUIJX,SUIJX, SUIJ, // H I J K L M N O SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, // P Q R S T U V W SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, // X Y Z [ \ ] ^ _ SUIJ, SUIJ, SUIJ, SU, J, SU, SU, SUIJ, // ` a b c d e f g SU,SUIJX,SUIJX,SUIJX,SUIJX,SUIJX,SUIJX, SUIJ, // h i j k l m n o SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, // p q r s t u v w SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, SUIJ, // x y z { | } ~ 7F SUIJ, SUIJ, SUIJ, SU, SU, SU, SU, S, }; static_assert(MOZ_ARRAY_LENGTH(gLexTable) == 128, "gLexTable expected to cover all 128 ASCII characters"); #undef I #undef J #undef U #undef S #undef X #undef SH #undef SU #undef SUI #undef SUIJ #undef SUIX #undef SUIJX /** * True if 'ch' is in character class 'cls', which should be one of * the constants above or some combination of them. All characters * above U+007F are considered to be in 'cls'. EOF is never in 'cls'. */ static inline bool IsOpenCharClass(int32_t ch, uint8_t cls) { return ch >= 0 && (ch >= 128 || (gLexTable[ch] & cls) != 0); } /** * True if 'ch' is in character class 'cls', which should be one of * the constants above or some combination of them. No characters * above U+007F are considered to be in 'cls'. EOF is never in 'cls'. */ static inline bool IsClosedCharClass(int32_t ch, uint8_t cls) { return uint32_t(ch) < 128 && (gLexTable[ch] & cls) != 0; } /** * True if 'ch' is CSS whitespace, i.e. any of the ASCII characters * TAB, LF, FF, CR, or SPC. */ static inline bool IsWhitespace(int32_t ch) { return IsClosedCharClass(ch, IS_SPACE); } /** * True if 'ch' is horizontal whitespace, i.e. TAB or SPC. */ static inline bool IsHorzSpace(int32_t ch) { return IsClosedCharClass(ch, IS_HSPACE); } /** * True if 'ch' is vertical whitespace, i.e. LF, FF, or CR. Vertical * whitespace requires special handling when consumed, see AdvanceLine. */ static inline bool IsVertSpace(int32_t ch) { return IsClosedCharClass(ch, IS_VSPACE); } /** * True if 'ch' is a character that can appear in the middle of an identifier. * This includes U+0000 since it is handled as U+FFFD, but for purposes of * GatherText it should not be included in IsOpenCharClass. */ static inline bool IsIdentChar(int32_t ch) { return IsOpenCharClass(ch, IS_IDCHAR) || ch == 0; } /** * True if 'ch' is a character that by itself begins an identifier. * This includes U+0000 since it is handled as U+FFFD, but for purposes of * GatherText it should not be included in IsOpenCharClass. * (This is a subset of IsIdentChar.) */ static inline bool IsIdentStart(int32_t ch) { return IsOpenCharClass(ch, IS_IDSTART) || ch == 0; } /** * True if the two-character sequence aFirstChar+aSecondChar begins an * identifier. */ static inline bool StartsIdent(int32_t aFirstChar, int32_t aSecondChar) { return IsIdentStart(aFirstChar) || (aFirstChar == '-' && IsIdentStart(aSecondChar)); } /** * True if 'ch' is a decimal digit. */ static inline bool IsDigit(int32_t ch) { return (ch >= '0') && (ch <= '9'); } /** * True if 'ch' is a hexadecimal digit. */ static inline bool IsHexDigit(int32_t ch) { return IsClosedCharClass(ch, IS_HEX_DIGIT); } /** * Assuming that 'ch' is a decimal digit, return its numeric value. */ static inline uint32_t DecimalDigitValue(int32_t ch) { return ch - '0'; } /** * Assuming that 'ch' is a hexadecimal digit, return its numeric value. */ 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; } } /** * If 'ch' can be the first character of a two-character match operator * token, return the token type code for that token, otherwise return * eCSSToken_Symbol to indicate that it can't. */ static inline nsCSSTokenType MatchOperatorType(int32_t ch) { switch (ch) { case '~': return eCSSToken_Includes; case '|': return eCSSToken_Dashmatch; case '^': return eCSSToken_Beginsmatch; case '$': return eCSSToken_Endsmatch; case '*': return eCSSToken_Containsmatch; default: return eCSSToken_Symbol; } } /* Out-of-line nsCSSToken methods. */ /** * Append the textual representation of |this| to |aBuffer|. */ 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_Hash: 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 != char16_t(0)) { nsStyleUtil::AppendEscapedCSSString(mIdent, aBuffer, mSymbol); } else { aBuffer.Append(mIdent); } if (mType == eCSSToken_URL) { aBuffer.Append(char16_t(')')); } break; case eCSSToken_Number: if (mIntegerValid) { aBuffer.AppendInt(mInteger, 10); } else { aBuffer.AppendFloat(mNumber); } break; case eCSSToken_Percentage: aBuffer.AppendFloat(mNumber * 100.0f); aBuffer.Append(char16_t('%')); 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 methods. */ nsCSSScanner::nsCSSScanner(const nsAString& aBuffer, uint32_t aLineNumber) : mBuffer(aBuffer.BeginReading()) , mOffset(0) , mCount(aBuffer.Length()) , mLineNumber(aLineNumber) , mLineOffset(0) , mTokenLineNumber(aLineNumber) , mTokenLineOffset(0) , mTokenOffset(0) , mRecordStartOffset(0) , mEOFCharacters(eEOFCharacters_None) , mReporter(nullptr) , mSVGMode(false) , mRecording(false) , mSeenBadToken(false) , mSeenVariableReference(false) { MOZ_COUNT_CTOR(nsCSSScanner); } nsCSSScanner::~nsCSSScanner() { MOZ_COUNT_DTOR(nsCSSScanner); } void nsCSSScanner::StartRecording() { MOZ_ASSERT(!mRecording, "already started recording"); mRecording = true; mRecordStartOffset = mOffset; } void nsCSSScanner::StopRecording() { MOZ_ASSERT(mRecording, "haven't started recording"); mRecording = false; } void nsCSSScanner::StopRecording(nsString& aBuffer) { MOZ_ASSERT(mRecording, "haven't started recording"); mRecording = false; aBuffer.Append(mBuffer + mRecordStartOffset, mOffset - mRecordStartOffset); } uint32_t nsCSSScanner::RecordingLength() const { MOZ_ASSERT(mRecording, "haven't started recording"); return mOffset - mRecordStartOffset; } #ifdef DEBUG bool nsCSSScanner::IsRecording() const { return mRecording; } #endif nsDependentSubstring nsCSSScanner::GetCurrentLine() const { uint32_t end = mTokenOffset; while (end < mCount && !IsVertSpace(mBuffer[end])) { end++; } return nsDependentSubstring(mBuffer + mTokenLineOffset, mBuffer + end); } /** * Return the raw UTF-16 code unit at position |mOffset + n| within * the read buffer. If that is beyond the end of the buffer, returns * -1 to indicate end of input. */ inline int32_t nsCSSScanner::Peek(uint32_t n) { if (mOffset + n >= mCount) { return -1; } return mBuffer[mOffset + n]; } /** * Advance |mOffset| over |n| code units. Advance(0) is a no-op. * If |n| is greater than the distance to end of input, will silently * stop at the end. May not be used to advance over a line boundary; * AdvanceLine() must be used instead. */ inline void nsCSSScanner::Advance(uint32_t n) { #ifdef DEBUG while (mOffset < mCount && n > 0) { MOZ_ASSERT(!IsVertSpace(mBuffer[mOffset]), "may not Advance() over a line boundary"); mOffset++; n--; } #else if (mOffset + n >= mCount || mOffset + n < mOffset) mOffset = mCount; else mOffset += n; #endif } /** * Advance |mOffset| over a line boundary. */ void nsCSSScanner::AdvanceLine() { MOZ_ASSERT(IsVertSpace(mBuffer[mOffset]), "may not AdvanceLine() over a horizontal character"); // Advance over \r\n as a unit. if (mBuffer[mOffset] == '\r' && mOffset + 1 < mCount && mBuffer[mOffset+1] == '\n') mOffset += 2; else mOffset += 1; // 0 is a magical line number meaning that we don't know (i.e., script) if (mLineNumber != 0) mLineNumber++; mLineOffset = mOffset; } /** * Back up |mOffset| over |n| code units. Backup(0) is a no-op. * If |n| is greater than the distance to beginning of input, will * silently stop at the beginning. May not be used to back up over a * line boundary. */ void nsCSSScanner::Backup(uint32_t n) { #ifdef DEBUG while (mOffset > 0 && n > 0) { MOZ_ASSERT(!IsVertSpace(mBuffer[mOffset-1]), "may not Backup() over a line boundary"); mOffset--; n--; } #else if (mOffset < n) mOffset = 0; else mOffset -= n; #endif } void nsCSSScanner::SavePosition(nsCSSScannerPosition& aState) { aState.mOffset = mOffset; aState.mLineNumber = mLineNumber; aState.mLineOffset = mLineOffset; aState.mTokenLineNumber = mTokenLineNumber; aState.mTokenLineOffset = mTokenLineOffset; aState.mTokenOffset = mTokenOffset; aState.mInitialized = true; } void nsCSSScanner::RestoreSavedPosition(const nsCSSScannerPosition& aState) { MOZ_ASSERT(aState.mInitialized, "have not saved state"); if (aState.mInitialized) { mOffset = aState.mOffset; mLineNumber = aState.mLineNumber; mLineOffset = aState.mLineOffset; mTokenLineNumber = aState.mTokenLineNumber; mTokenLineOffset = aState.mTokenLineOffset; mTokenOffset = aState.mTokenOffset; } } /** * Skip over a sequence of whitespace characters (vertical or * horizontal) starting at the current read position. */ void nsCSSScanner::SkipWhitespace() { for (;;) { int32_t ch = Peek(); if (!IsWhitespace(ch)) { // EOF counts as non-whitespace break; } if (IsVertSpace(ch)) { AdvanceLine(); } else { Advance(); } } } /** * Skip over one CSS comment starting at the current read position. */ void nsCSSScanner::SkipComment() { MOZ_ASSERT(Peek() == '/' && Peek(1) == '*', "should not have been called"); Advance(2); for (;;) { int32_t ch = Peek(); if (ch < 0) { mReporter->ReportUnexpectedEOF("PECommentEOF"); SetEOFCharacters(eEOFCharacters_Asterisk | eEOFCharacters_Slash); return; } if (ch == '*') { Advance(); ch = Peek(); if (ch < 0) { mReporter->ReportUnexpectedEOF("PECommentEOF"); SetEOFCharacters(eEOFCharacters_Slash); return; } if (ch == '/') { Advance(); return; } } else if (IsVertSpace(ch)) { AdvanceLine(); } else { Advance(); } } } /** * If there is a valid escape sequence starting at the current read * position, consume it, decode it, append the result to |aOutput|, * and return true. Otherwise, consume nothing, leave |aOutput| * unmodified, and return false. If |aInString| is true, accept the * additional form of escape sequence allowed within string-like tokens. */ bool nsCSSScanner::GatherEscape(nsString& aOutput, bool aInString) { MOZ_ASSERT(Peek() == '\\', "should not have been called"); int32_t ch = Peek(1); if (ch < 0) { // If we are in a string (or a url() containing a string), we want to drop // the backslash on the floor. Otherwise, we want to treat it as a U+FFFD // character. Advance(); if (aInString) { SetEOFCharacters(eEOFCharacters_DropBackslash); } else { aOutput.Append(UCS2_REPLACEMENT_CHAR); SetEOFCharacters(eEOFCharacters_ReplacementChar); } return true; } if (IsVertSpace(ch)) { if (aInString) { // In strings (and in url() containing a string), escaped // newlines are completely removed, to allow splitting over // multiple lines. Advance(); AdvanceLine(); return true; } // Outside of strings, backslash followed by a newline is not an escape. return false; } if (!IsHexDigit(ch)) { // "Any character (except a hexadecimal digit, linefeed, carriage // return, or form feed) can be escaped with a backslash to remove // its special meaning." -- CSS2.1 section 4.1.3 Advance(2); if (ch == 0) { aOutput.Append(UCS2_REPLACEMENT_CHAR); } else { aOutput.Append(ch); } return true; } // "[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 // At this point we know we have \ followed by at least one // hexadecimal digit, therefore the escape sequence is valid and we // can go ahead and consume the backslash. Advance(); uint32_t val = 0; int i = 0; do { val = val * 16 + HexDigitValue(ch); i++; Advance(); ch = Peek(); } while (i < 6 && IsHexDigit(ch)); // "Interpret the hex digits as a hexadecimal number. If this number is zero, // or is greater than the maximum allowed codepoint, return U+FFFD // REPLACEMENT CHARACTER" -- CSS Syntax Level 3 if (MOZ_UNLIKELY(val == 0)) { aOutput.Append(UCS2_REPLACEMENT_CHAR); } else { AppendUCS4ToUTF16(ENSURE_VALID_CHAR(val), aOutput); } // Consume exactly one whitespace character after a // hexadecimal escape sequence. if (IsVertSpace(ch)) { AdvanceLine(); } else if (IsHorzSpace(ch)) { Advance(); } return true; } /** * Consume a run of "text" beginning with the current read position, * consisting of characters in the class |aClass| (which must be a * suitable argument to IsOpenCharClass) plus escape sequences. * Append the text to |aText|, after decoding escape sequences. * * Returns true if at least one character was appended to |aText|, * false otherwise. */ bool nsCSSScanner::GatherText(uint8_t aClass, nsString& aText) { // This is all of the character classes currently used with // GatherText. If you have a need to use this function with a // different class, go ahead and add it. MOZ_ASSERT(aClass == IS_STRING || aClass == IS_IDCHAR || aClass == IS_URL_CHAR, "possibly-inappropriate character class"); uint32_t start = mOffset; bool inString = aClass == IS_STRING; for (;;) { // Consume runs of unescaped characters in one go. uint32_t n = mOffset; while (n < mCount && IsOpenCharClass(mBuffer[n], aClass)) { n++; } if (n > mOffset) { aText.Append(&mBuffer[mOffset], n - mOffset); mOffset = n; } if (n == mCount) { break; } int32_t ch = Peek(); MOZ_ASSERT(!IsOpenCharClass(ch, aClass), "should not have exited the inner loop"); if (ch == 0) { Advance(); aText.Append(UCS2_REPLACEMENT_CHAR); continue; } if (ch != '\\') { break; } if (!GatherEscape(aText, inString)) { break; } } return mOffset > start; } /** * Scan an Ident token. This also handles Function and URL tokens, * both of which begin indistinguishably from an identifier. It can * produce a Symbol token when an apparent identifier actually led * into an invalid escape sequence. */ bool nsCSSScanner::ScanIdent(nsCSSToken& aToken) { if (MOZ_UNLIKELY(!GatherText(IS_IDCHAR, aToken.mIdent))) { MOZ_ASSERT(Peek() == '\\', "unexpected IsIdentStart character that did not begin an ident"); aToken.mSymbol = Peek(); Advance(); return true; } if (MOZ_LIKELY(Peek() != '(')) { aToken.mType = eCSSToken_Ident; return true; } Advance(); aToken.mType = eCSSToken_Function; if (aToken.mIdent.LowerCaseEqualsLiteral("url")) { NextURL(aToken); } else if (aToken.mIdent.LowerCaseEqualsLiteral("var")) { mSeenVariableReference = true; } return true; } /** * Scan an AtKeyword token. Also handles production of Symbol when * an '@' is not followed by an identifier. */ bool nsCSSScanner::ScanAtKeyword(nsCSSToken& aToken) { MOZ_ASSERT(Peek() == '@', "should not have been called"); // Fall back for when '@' isn't followed by an identifier. aToken.mSymbol = '@'; Advance(); int32_t ch = Peek(); if (StartsIdent(ch, Peek(1))) { if (GatherText(IS_IDCHAR, aToken.mIdent)) { aToken.mType = eCSSToken_AtKeyword; } } return true; } /** * Scan a Hash token. Handles the distinction between eCSSToken_ID * and eCSSToken_Hash, and handles production of Symbol when a '#' * is not followed by identifier characters. */ bool nsCSSScanner::ScanHash(nsCSSToken& aToken) { MOZ_ASSERT(Peek() == '#', "should not have been called"); // Fall back for when '#' isn't followed by identifier characters. aToken.mSymbol = '#'; Advance(); int32_t ch = Peek(); if (IsIdentChar(ch) || ch == '\\') { nsCSSTokenType type = StartsIdent(ch, Peek(1)) ? eCSSToken_ID : eCSSToken_Hash; aToken.mIdent.SetLength(0); if (GatherText(IS_IDCHAR, aToken.mIdent)) { aToken.mType = type; } } return true; } /** * Scan a Number, Percentage, or Dimension token (all of which begin * like a Number). Can produce a Symbol when a '.' is not followed by * digits, or when '+' or '-' are not followed by either a digit or a * '.' and then a digit. Can also produce a HTMLComment when it * encounters '-->'. */ bool nsCSSScanner::ScanNumber(nsCSSToken& aToken) { int32_t c = Peek(); #ifdef DEBUG { int32_t c2 = Peek(1); int32_t c3 = Peek(2); MOZ_ASSERT(IsDigit(c) || (IsDigit(c2) && (c == '.' || c == '+' || c == '-')) || (IsDigit(c3) && (c == '+' || c == '-') && c2 == '.'), "should not have been called"); } #endif // Sign of the mantissa (-1 or 1). 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; aToken.mHasSign = (c == '+' || c == '-'); if (aToken.mHasSign) { Advance(); c = Peek(); } bool gotDot = (c == '.'); if (!gotDot) { // Scan the integer part of the mantissa. MOZ_ASSERT(IsDigit(c), "should have been excluded by logic above"); do { intPart = 10*intPart + DecimalDigitValue(c); Advance(); c = Peek(); } while (IsDigit(c)); gotDot = (c == '.') && IsDigit(Peek(1)); } if (gotDot) { // Scan the fractional part of the mantissa. Advance(); c = Peek(); MOZ_ASSERT(IsDigit(c), "should have been excluded by logic above"); // Power of ten by which we need to divide our next digit double divisor = 10; do { fracPart += DecimalDigitValue(c) / divisor; divisor *= 10; Advance(); c = Peek(); } while (IsDigit(c)); } bool gotE = false; if (c == 'e' || c == 'E') { int32_t expSignChar = Peek(1); int32_t nextChar = Peek(2); if (IsDigit(expSignChar) || ((expSignChar == '-' || expSignChar == '+') && IsDigit(nextChar))) { gotE = true; if (expSignChar == '-') { expSign = -1; } Advance(); // consumes the E if (expSignChar == '-' || expSignChar == '+') { Advance(); c = nextChar; } else { c = expSignChar; } MOZ_ASSERT(IsDigit(c), "should have been excluded by logic above"); do { exponent = 10*exponent + DecimalDigitValue(c); Advance(); c = Peek(); } while (IsDigit(c)); } } 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. // Do all the math in double precision so it's truncated only once. double value = sign * (intPart + fracPart); if (gotE) { // Explicitly cast expSign*exponent to double 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(std::min(intPart, double(INT32_MAX))); } else { aToken.mInteger = int32_t(std::max(-intPart, double(INT32_MIN))); } aToken.mIntegerValid = true; } nsString& ident = aToken.mIdent; // Check for Dimension and Percentage tokens. if (c >= 0) { if (StartsIdent(c, Peek(1))) { if (GatherText(IS_IDCHAR, ident)) { type = eCSSToken_Dimension; } } else if (c == '%') { Advance(); type = eCSSToken_Percentage; value = value / 100.0f; aToken.mIntegerValid = false; } } aToken.mNumber = value; aToken.mType = type; return true; } /** * Scan a string constant ('foo' or "foo"). Will always produce * either a String or a Bad_String token; the latter occurs when the * close quote is missing. Always returns true (for convenience in Next()). */ bool nsCSSScanner::ScanString(nsCSSToken& aToken) { int32_t aStop = Peek(); MOZ_ASSERT(aStop == '"' || aStop == '\'', "should not have been called"); aToken.mType = eCSSToken_String; aToken.mSymbol = char16_t(aStop); // Remember how it's quoted. Advance(); for (;;) { GatherText(IS_STRING, aToken.mIdent); int32_t ch = Peek(); if (ch == -1) { AddEOFCharacters(aStop == '"' ? eEOFCharacters_DoubleQuote : eEOFCharacters_SingleQuote); break; // EOF ends a string token with no error. } if (ch == aStop) { Advance(); break; } // Both " and ' are excluded from IS_STRING. if (ch == '"' || ch == '\'') { aToken.mIdent.Append(ch); Advance(); continue; } mSeenBadToken = true; aToken.mType = eCSSToken_Bad_String; mReporter->ReportUnexpected("SEUnterminatedString", aToken); break; } return true; } /** * Scan a unicode-range token. These 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. * Note that this does not validate the numeric range, only the syntactic * form. */ bool nsCSSScanner::ScanURange(nsCSSToken& aResult) { int32_t intro1 = Peek(); int32_t intro2 = Peek(1); int32_t ch = Peek(2); MOZ_ASSERT((intro1 == 'u' || intro1 == 'U') && intro2 == '+' && (IsHexDigit(ch) || ch == '?'), "should not have been called"); aResult.mIdent.Append(intro1); aResult.mIdent.Append(intro2); Advance(2); bool valid = true; bool haveQues = false; uint32_t low = 0; uint32_t high = 0; int i = 0; do { 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; } i++; Advance(); ch = Peek(); } while (i < 6 && (IsHexDigit(ch) || ch == '?')); if (ch == '-' && IsHexDigit(Peek(1))) { if (haveQues) { valid = false; } aResult.mIdent.Append(ch); Advance(); ch = Peek(); high = 0; i = 0; do { aResult.mIdent.Append(ch); high = high*16 + HexDigitValue(ch); i++; Advance(); ch = Peek(); } while (i < 6 && IsHexDigit(ch)); } aResult.mInteger = low; aResult.mInteger2 = high; aResult.mIntegerValid = valid; aResult.mType = eCSSToken_URange; return true; } #ifdef DEBUG /* static */ void nsCSSScanner::AssertEOFCharactersValid(uint32_t c) { MOZ_ASSERT(c == eEOFCharacters_None || c == eEOFCharacters_ReplacementChar || c == eEOFCharacters_Slash || c == (eEOFCharacters_Asterisk | eEOFCharacters_Slash) || c == eEOFCharacters_DoubleQuote || c == eEOFCharacters_SingleQuote || c == (eEOFCharacters_DropBackslash | eEOFCharacters_DoubleQuote) || c == (eEOFCharacters_DropBackslash | eEOFCharacters_SingleQuote) || c == eEOFCharacters_CloseParen || c == (eEOFCharacters_ReplacementChar | eEOFCharacters_CloseParen) || c == (eEOFCharacters_DoubleQuote | eEOFCharacters_CloseParen) || c == (eEOFCharacters_SingleQuote | eEOFCharacters_CloseParen) || c == (eEOFCharacters_DropBackslash | eEOFCharacters_DoubleQuote | eEOFCharacters_CloseParen) || c == (eEOFCharacters_DropBackslash | eEOFCharacters_SingleQuote | eEOFCharacters_CloseParen), "invalid EOFCharacters value"); } #endif void nsCSSScanner::SetEOFCharacters(uint32_t aEOFCharacters) { mEOFCharacters = EOFCharacters(aEOFCharacters); } void nsCSSScanner::AddEOFCharacters(uint32_t aEOFCharacters) { mEOFCharacters = EOFCharacters(mEOFCharacters | aEOFCharacters); } static const char16_t kImpliedEOFCharacters[] = { UCS2_REPLACEMENT_CHAR, '*', '/', '"', '\'', ')', 0 }; /* static */ void nsCSSScanner::AppendImpliedEOFCharacters(EOFCharacters aEOFCharacters, nsAString& aResult) { // First, ignore eEOFCharacters_DropBackslash. uint32_t c = aEOFCharacters >> 1; // All of the remaining EOFCharacters bits represent appended characters, // and the bits are in the order that they need appending. for (const char16_t* p = kImpliedEOFCharacters; *p && c; p++, c >>= 1) { if (c & 1) { aResult.Append(*p); } } MOZ_ASSERT(c == 0, "too many bits in mEOFCharacters"); } /** * Consume the part of an URL token after the initial 'url('. Caller * is assumed to have consumed 'url(' already. Will always produce * either an URL or a Bad_URL token. * * Exposed for use by nsCSSParser::ParseMozDocumentRule, which applies * the special lexical rules for URL tokens in a nonstandard context. */ bool nsCSSScanner::NextURL(nsCSSToken& aToken) { SkipWhitespace(); int32_t ch = Peek(); if (ch < 0) { return false; } // aToken.mIdent may be "url" at this point; clear that out aToken.mIdent.Truncate(); // Do we have a string? if (ch == '"' || ch == '\'') { ScanString(aToken); if (MOZ_UNLIKELY(aToken.mType == eCSSToken_Bad_String)) { aToken.mType = eCSSToken_Bad_URL; return true; } MOZ_ASSERT(aToken.mType == eCSSToken_String, "unexpected token type"); } else { // Otherwise, this is the start of a non-quoted url (which may be empty). aToken.mSymbol = char16_t(0); GatherText(IS_URL_CHAR, aToken.mIdent); } // Consume trailing whitespace and then look for a close parenthesis. SkipWhitespace(); ch = Peek(); if (MOZ_LIKELY(ch < 0 || ch == ')')) { Advance(); aToken.mType = eCSSToken_URL; if (ch < 0) { AddEOFCharacters(eEOFCharacters_CloseParen); } } else { mSeenBadToken = true; aToken.mType = eCSSToken_Bad_URL; } return true; } /** * Primary scanner entry point. Consume one token and fill in * |aToken| accordingly. Will skip over any number of comments first, * and will also skip over rather than return whitespace tokens if * |aSkipWS| is true. * * Returns true if it successfully consumed a token, false if EOF has * been reached. Will always advance the current read position by at * least one character unless called when already at EOF. */ bool nsCSSScanner::Next(nsCSSToken& aToken, bool aSkipWS) { int32_t ch; // do this here so we don't have to do it in dozens of other places aToken.mIdent.Truncate(); aToken.mType = eCSSToken_Symbol; for (;;) { // Consume any number of comments, and possibly also whitespace tokens, // in between other tokens. mTokenOffset = mOffset; mTokenLineOffset = mLineOffset; mTokenLineNumber = mLineNumber; ch = Peek(); if (IsWhitespace(ch)) { SkipWhitespace(); if (!aSkipWS) { aToken.mType = eCSSToken_Whitespace; return true; } continue; // start again at the beginning } if (ch == '/' && !IsSVGMode() && Peek(1) == '*') { // FIXME: Editor wants comments to be preserved (bug 60290). SkipComment(); continue; // start again at the beginning } break; } // EOF if (ch < 0) { return false; } // 'u' could be UNICODE-RANGE or an identifier-family token if (ch == 'u' || ch == 'U') { int32_t c2 = Peek(1); int32_t c3 = Peek(2); if (c2 == '+' && (IsHexDigit(c3) || c3 == '?')) { return ScanURange(aToken); } return ScanIdent(aToken); } // identifier family if (IsIdentStart(ch)) { return ScanIdent(aToken); } // number family if (IsDigit(ch)) { return ScanNumber(aToken); } if (ch == '.' && IsDigit(Peek(1))) { return ScanNumber(aToken); } if (ch == '+') { int32_t c2 = Peek(1); if (IsDigit(c2) || (c2 == '.' && IsDigit(Peek(2)))) { return ScanNumber(aToken); } } // '-' can start an identifier-family token, a number-family token, // or an HTML-comment if (ch == '-') { int32_t c2 = Peek(1); int32_t c3 = Peek(2); if (IsIdentStart(c2)) { return ScanIdent(aToken); } if (IsDigit(c2) || (c2 == '.' && IsDigit(c3))) { return ScanNumber(aToken); } if (c2 == '-' && c3 == '>') { Advance(3); aToken.mType = eCSSToken_HTMLComment; aToken.mIdent.AssignLiteral("-->"); return true; } } // the other HTML-comment token if (ch == '<' && Peek(1) == '!' && Peek(2) == '-' && Peek(3) == '-') { Advance(4); aToken.mType = eCSSToken_HTMLComment; aToken.mIdent.AssignLiteral("