javafx.css.CssLexer Maven / Gradle / Ivy
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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package javafx.css;
import java.io.IOException;
import java.io.Reader;
import java.util.HashMap;
import java.util.Map;
import com.sun.javafx.css.parser.LexerState;
import com.sun.javafx.css.parser.Recognizer;
import com.sun.javafx.css.parser.Token;
final class CssLexer {
final static int STRING = 10;
final static int IDENT = 11;
final static int FUNCTION = 12;
final static int NUMBER = 13;
final static int CM = 14;
final static int EMS = 15;
final static int EXS = 16;
final static int IN = 17;
final static int MM = 18;
final static int PC = 19;
final static int PT = 20;
final static int PX = 21;
final static int PERCENTAGE = 22;
final static int DEG = 23;
final static int GRAD = 24;
final static int RAD = 25;
final static int TURN = 26;
final static int GREATER = 27;
final static int LBRACE = 28;
final static int RBRACE = 29;
final static int SEMI = 30;
final static int COLON = 31;
final static int SOLIDUS = 32;
final static int STAR = 33;
final static int LPAREN = 34;
final static int RPAREN = 35;
final static int COMMA = 36;
final static int HASH = 37;
final static int DOT = 38;
final static int IMPORTANT_SYM = 39;
final static int WS = 40;
final static int NL = 41;
final static int FONT_FACE = 42;
final static int URL = 43;
final static int IMPORT = 44;
final static int SECONDS = 45;
final static int MS = 46;
final static int AT_KEYWORD = 47;
private final Recognizer A = (c) -> c == 'a' || c == 'A';
private final Recognizer B = (c) -> c == 'b' || c == 'B';
private final Recognizer C = (c) -> c == 'c' || c == 'C';
private final Recognizer D = (c) -> c == 'd' || c == 'D';
private final Recognizer E = (c) -> c == 'e' || c == 'E';
private final Recognizer F = (c) -> c == 'f' || c == 'F';
private final Recognizer G = (c) -> c == 'g' || c == 'G';
private final Recognizer H = (c) -> c == 'h' || c == 'H';
private final Recognizer I = (c) -> c == 'i' || c == 'I';
private final Recognizer J = (c) -> c == 'j' || c == 'J';
private final Recognizer K = (c) -> c == 'k' || c == 'K';
private final Recognizer L = (c) -> c == 'l' || c == 'L';
private final Recognizer M = (c) -> c == 'm' || c == 'M';
private final Recognizer N = (c) -> c == 'n' || c == 'N';
private final Recognizer O = (c) -> c == 'o' || c == 'O';
private final Recognizer P = (c) -> c == 'p' || c == 'P';
private final Recognizer Q = (c) -> c == 'q' || c == 'Q';
private final Recognizer R = (c) -> c == 'r' || c == 'R';
private final Recognizer S = (c) -> c == 's' || c == 'S';
private final Recognizer T = (c) -> c == 't' || c == 'T';
private final Recognizer U = (c) -> c == 'u' || c == 'U';
private final Recognizer V = (c) -> c == 'v' || c == 'V';
private final Recognizer W = (c) -> c == 'w' || c == 'W';
private final Recognizer X = (c) -> c == 'x' || c == 'X';
private final Recognizer Y = (c) -> c == 'y' || c == 'Y';
private final Recognizer Z = (c) -> c == 'z' || c == 'Z';
private final Recognizer ALPHA = (c) -> ('a' <= c && c <= 'z') ||
('A' <= c && c <= 'Z');
private final Recognizer NON_ASCII = (c) -> '\u0080' <= c && c <= '\uFFFF';
private final Recognizer DOT_CHAR = (c) -> c == '.';
private final Recognizer GREATER_CHAR = (c) -> c == '>';
private final Recognizer LBRACE_CHAR = (c) -> c == '{';
private final Recognizer RBRACE_CHAR = (c) -> c == '}';
private final Recognizer SEMI_CHAR = (c) -> c == ';';
private final Recognizer COLON_CHAR = (c) -> c == ':';
private final Recognizer SOLIDUS_CHAR = (c) -> c == '/';
private final Recognizer MINUS_CHAR = (c) -> c == '-';
private final Recognizer PLUS_CHAR = (c) -> c == '+';
private final Recognizer STAR_CHAR = (c) -> c == '*';
private final Recognizer LPAREN_CHAR = (c) -> c == '(';
private final Recognizer RPAREN_CHAR = (c) -> c == ')';
private final Recognizer COMMA_CHAR = (c) -> c == ',';
private final Recognizer UNDERSCORE_CHAR = (c) -> c == '_';
private final Recognizer HASH_CHAR = (c) -> c == '#';
private final Recognizer WS_CHARS = (c) -> c == ' ' ||
c == '\t' ||
c == '\r' ||
c == '\n' ||
c == '\f';
private final Recognizer NL_CHARS = (c) -> (c == '\r' || c == '\n');
private final Recognizer DIGIT = (c) -> '0' <= c && c <= '9';
private final Recognizer HEX_DIGIT = (c) -> ('0' <= c && c <= '9') ||
('a' <= c && c <= 'f') ||
('A' <= c && c <= 'F');
// The initial accepts any character
final LexerState initState = new LexerState("initState", null) {
@Override public boolean accepts(int c) { return true; }
};
final LexerState hashState = new LexerState("hashState",
HASH_CHAR
);
final LexerState minusState = new LexerState("minusState",
MINUS_CHAR
);
final LexerState plusState = new LexerState("plusState",
PLUS_CHAR
);
// The dot char is either just a dot or may be the start of a number
final LexerState dotState = new LexerState(DOT, "dotState",
DOT_CHAR
);
// [_a-z]|{nonascii}|{escape}
final LexerState nmStartState = new LexerState(IDENT, "nmStartState",
UNDERSCORE_CHAR, ALPHA
);
// nmchar [_a-z0-9-]|{nonascii}|{escape}
final LexerState nmCharState = new LexerState(IDENT, "nmCharState",
UNDERSCORE_CHAR, ALPHA, DIGIT, MINUS_CHAR
);
// same as nmchar, but need to differentiate between nmchar in ident and
// nmchar in
final LexerState hashNameCharState = new LexerState(HASH, "hashNameCharState",
UNDERSCORE_CHAR, ALPHA, DIGIT, MINUS_CHAR
);
// lparen after ident implies function
final LexerState lparenState = new LexerState(FUNCTION, "lparenState",
LPAREN_CHAR
) {
@Override public int getType() {
if (text.indexOf("url(") == 0) {
try {
return consumeUrl();
} catch (IOException ioe) {
return Token.INVALID;
}
}
return super.getType();
}
};
// initial digits in a number
final LexerState leadingDigitsState = new LexerState(NUMBER,"leadingDigitsState",
DIGIT
);
// If the dot char follows leading digits, a plus or a minus, then it is
// a decimal mark
final LexerState decimalMarkState = new LexerState("decimalMarkState",
DOT_CHAR
);
// digits following decimal mark
final LexerState trailingDigitsState = new LexerState(NUMBER,"trailingDigitsState",
DIGIT
);
// http://www.w3.org/TR/css3-values/
final LexerState unitsState = new UnitsState();
private Map createStateMap() {
Map map =
new HashMap();
// initState -- [#] --> hashState
// initState -- [-] --> minusState
// initState -- [+] --> plusState
// initState -- [_a-z] --> nmStartState
// initState -- [0-9] --> leadingDigitsState
// initState -- [.] --> dotState
map.put(
initState,
new LexerState[] {
hashState,
minusState,
nmStartState,
plusState,
minusState,
leadingDigitsState,
dotState
}
);
// minus could be the start of an ident or a number
// minusState -- [_a-z] --> nmStartState
// minusState -- [0-9] --> leadingDigitsState
// minusState -- [.] --> decimalMarkState
map.put(
minusState,
new LexerState[] {
nmStartState,
leadingDigitsState,
decimalMarkState,
}
);
//
// # {name}
// hash {nmchar}+
// hashState -- [_a-z0-9-] --> nmCharState
// nmCharState -- [_a-z0-9-] --> nmCharState
//
map.put(
hashState,
new LexerState[] {
hashNameCharState
}
);
map.put(
hashNameCharState,
new LexerState[] {
hashNameCharState,
}
);
//
// {ident}
// ident '-'? {nmchar}+
// nmStartState -- [_a-z0-9-] --> nmCharState
// nmCharState -- [_a-z0-9-] --> nmCharState
// nmCharState -- [(] --> lparenState
//
map.put(
nmStartState,
new LexerState[] {
nmCharState
}
);
map.put(
nmCharState,
new LexerState[] {
nmCharState,
lparenState
}
);
// from +/- state, next state must be a digit or a dot
map.put(
plusState,
new LexerState[] {
leadingDigitsState,
decimalMarkState
}
);
// from leadingDigitsState, next state must be
// another digit, a decimal mark, or units
map.put(
leadingDigitsState,
new LexerState[] {
leadingDigitsState,
decimalMarkState,
unitsState
}
);
// from decimal mark, next state must be a digit.
// Need to map both dotState and decimalMarkState
// since dot might be the first character and would
// not be seen as a decimal point.
map.put(
dotState,
new LexerState[] {
trailingDigitsState
}
);
map.put(
decimalMarkState,
new LexerState[] {
trailingDigitsState
}
);
// from trailingDigitsState, next state must be another digit or units
map.put(
trailingDigitsState,
new LexerState[] {
trailingDigitsState,
unitsState,
}
);
// UnitsState stays in UnitsState
map.put(
unitsState,
new LexerState[] {
unitsState
}
);
return map;
}
CssLexer() {
this.stateMap = createStateMap();
this.text = new StringBuilder(64);
this.currentState = initState;
}
void setReader(Reader reader) {
this.reader = reader;
lastc = -1;
pos = offset = 0;
line = 1;
this.currentState = initState;
this.token = null;
try {
this.ch = readChar();
} catch (IOException ioe) {
token = Token.EOF_TOKEN;
}
}
private Token scanImportant() throws IOException{
// CSS 2.1 grammar for important_sym
// "!"({w}|{comment})*{I}{M}{P}{O}{R}{T}{A}{N}{T}
final Recognizer[] important_sym =
new Recognizer[] { I, M, P, O, R, T, A, N, T };
int current = 0;
text.append((char)ch);
// get past the '!'
ch = readChar();
while(true) {
switch (ch) {
case Token.EOF:
token = Token.EOF_TOKEN;
return token;
case '/':
ch = readChar();
if (ch == '*') skipComment();
else if (ch == '/') skipEOL();
else {
text.append('/').append((char)ch);
int temp = offset;
offset = pos;
return new Token(Token.INVALID, text.toString(), line, temp);
}
break;
case ' ':
case '\t':
case '\r':
case '\n':
case '\f':
ch = readChar();
break;
default:
boolean accepted = true;
while(accepted && current < important_sym.length) {
accepted = important_sym[current++].recognize(ch);
text.append((char)ch);
ch = readChar();
}
if (accepted) {
final int temp = offset;
offset = pos-1; // will have read one char too many
return new Token(IMPORTANT_SYM, "!important", line, temp);
} else {
while (ch != ';' &&
ch != '}' &&
ch != Token.EOF) {
ch = readChar();
}
if (ch != Token.EOF) {
final int temp = offset;
offset = pos-1; // will have read one char too many
return new Token(Token.SKIP, text.toString(), line, temp);
} else {
return Token.EOF_TOKEN;
}
}
}
}
}
// http://www.ietf.org/rfc/rfc3986
// http://www.w3.org/TR/2011/REC-CSS2-20110607/syndata.html#uri
// http://www.w3.org/TR/css3-syntax/#consume-a-url-token
private int consumeUrl() throws IOException {
text.delete(0, text.length());
// skip initial white space
while (WS_CHARS.recognize(ch)) {
ch = readChar();
}
if (ch == Token.EOF) {
return Token.EOF;
}
if (ch == '\'' || ch == '"') {
int endQuote = ch;
ch = readChar();
// consume the string
while (ch != endQuote) {
if (ch == Token.EOF) {
break;
}
// un-escaped newline is an error
if (NL_CHARS.recognize(ch)) {
break;
}
// handle escaped char
// Note: this block does not handle the algorithm for consuming hex-digits
if (ch == '\\') {
ch = readChar();
if (NL_CHARS.recognize(ch)) {
// consume newline
while(NL_CHARS.recognize(ch)) {
ch = readChar();
}
} else if (ch != Token.EOF) {
// if EOF, do nothing
text.append((char)ch);
ch = readChar();
}
continue;
}
text.append((char)ch);
ch = readChar();
}
if (ch == endQuote) {
ch = readChar();
while(WS_CHARS.recognize(ch)) {
ch = readChar();
}
// After consuming white-space, the char has to be rparen or EOF. Error otherwise.
if (ch == ')') {
// consume the rparen
ch = readChar();
return URL;
}
if(ch == Token.EOF) {
return URL;
}
}
} else {
// TODO: a lot of repeat code from above
text.append((char)ch);
ch = readChar();
while (true) {
while (WS_CHARS.recognize(ch)) {
ch = readChar();
}
if (ch == ')') {
// consume the rparen
ch = readChar();
return URL;
}
if (ch == Token.EOF) {
return URL;
}
// handle escaped char
// Note: this block does not handle the algorithm for consuming hex-digits
if (ch == '\\') {
ch = readChar();
if (NL_CHARS.recognize(ch)) {
// consume newline
while(NL_CHARS.recognize(ch)) {
ch = readChar();
}
} else if (ch != Token.EOF) {
// if EOF, do nothing
text.append((char)ch);
ch = readChar();
}
continue;
}
if (ch == '\'' || ch == '"' || ch == '(') {
break;
}
text.append((char)ch);
ch = readChar();
}
}
// if we get to here, then the token is bad
// consume up to rparen or eof
while(true) {
int lastCh = ch;
if (ch == Token.EOF) {
return Token.EOF;
} else if (ch == ')' && lastCh != '\\') {
ch = readChar();
return Token.INVALID;
}
lastCh = ch;
ch = readChar();
}
}
private class UnitsState extends LexerState {
private final Recognizer[][] units = {
// TODO: all units from http://www.w3.org/TR/css3-values/
// If units are added, getType and unitsMask must be updated!
{ C, M },
{ D, E, G },
{ E, M },
{ E, X },
{ G, R, A, D },
{ I, N },
{ M, M },
{ M, S },
{ P, C },
{ P, T },
{ P, X },
{ R, A, D },
{ S },
{ T, U, R, N },
{ (c) -> c == '%'}
};
// One bit per unit
private int unitsMask = 0x7FFF;
// Offset into inner array of units
private int index = -1;
UnitsState() {
super(-1, "UnitsState", null);
}
@Override
public int getType() {
int type = Token.INVALID;
// Must keep this in sync with units array.
// Small switch will be faster than Math.log(oldMask)/Math.log(2)
switch (unitsMask) {
case 0x1: type = CM; break;
case 0x2: type = DEG; break;
case 0x4: type = EMS; break;
case 0x8: type = EXS; break;
case 0x10: type = GRAD; break;
case 0x20: type = IN; break;
case 0x40: type = MM; break;
case 0x80: type = MS; break;
case 0x100: type = PC; break;
case 0x200: type = PT; break;
case 0x400: type = PX; break;
case 0x800: type = RAD; break;
case 0x1000: type = SECONDS; break;
case 0x2000: type = TURN; break;
case 0x4000: type = PERCENTAGE; break;
default: type = Token.INVALID;
}
// reset
unitsMask = 0x7fff;
index = -1;
return type;
}
@Override
public boolean accepts(int c) {
// Ensure that something bogus like '10xyzzy' is
// consumed as a token by only returning false
// if the char is not alpha or %
if (!ALPHA.recognize(c) && c != '%') {
return false;
}
// If unitsMask is zero, then we've already figured out that
// this is an invalid token, but we want to accept c so that
// '10xyzzy' is consumed as a token, albeit an invalid one.
if (unitsMask == 0) return true;
index += 1;
for (int n=0 ; n < units.length; n++) {
final int u = 1 << n;
// the unit at this index already failed. Move on.
if ((unitsMask & u) == 0) continue;
if ((index >= units[n].length) || !(units[n][index].recognize(c))) {
// not a match, turn off this bit
unitsMask &= ~u;
}
}
return true;
}
}
private void skipComment() throws IOException {
while(ch != -1) {
if (ch == '*') {
ch = readChar();
if (ch == '/') {
offset = pos;
ch=readChar();
break;
}
} else {
ch = readChar();
}
}
}
private void skipEOL() throws IOException {
int lastc = ch;
while (ch != -1) {
ch = readChar();
// EOL is cr, lf, or crlf
if ((ch == '\n') || (lastc == '\r' && ch != '\n')) {
break;
}
}
}
private int pos = 0;
private int offset = 0;
private int line = 1;
private int lastc = -1;
private int readChar() throws IOException {
int c = reader.read();
// only reset line and pos counters after having read a NL since
// a NL token is created after the readChar
if (lastc == '\n' || (lastc == '\r' && c != '\n')) {
// set pos to 1 since we've already read the first char of the new line
pos = 1;
offset = 0;
line++;
} else {
pos++;
}
lastc = c;
return c;
}
Token nextToken() {
Token tok = null;
if (token != null) {
tok = token;
if (token.getType() != Token.EOF) token = null;
} else {
do {
tok = getToken();
} while (tok != null &&
// tok.getType() != Token.EOF &&
Token.SKIP_TOKEN.equals(tok));
}
// reset text buffer and currentState
text.delete(0,text.length());
currentState = initState;
return tok;
}
private Token getToken() {
try {
while (true) {
charNotConsumed = false;
final LexerState[] reachableStates =
currentState != null ? stateMap.get(currentState) : null;
final int max = reachableStates != null ? reachableStates.length : 0;
LexerState newState = null;
for (int n=0; n':
token = new Token(GREATER,">", line, offset);
offset = pos;
break;
case '{':
token = new Token(LBRACE,"{", line, offset);
offset = pos;
break;
case '}':
token = new Token(RBRACE,"}", line, offset);
offset = pos;
break;
case ';':
token = new Token(SEMI,";", line, offset);
offset = pos;
break;
case ':':
token = new Token(COLON,":", line, offset);
offset = pos;
break;
case '*':
token = new Token(STAR,"*", line, offset);
offset = pos;
break;
case '(':
token = new Token(LPAREN,"(", line, offset);
offset = pos;
break;
case ')':
token = new Token(RPAREN,")", line, offset);
offset = pos;
break;
case ',':
token = new Token(COMMA,",", line, offset);
offset = pos;
break;
case '.':
token = new Token(DOT,".", line, offset);
offset = pos;
break;
case ' ':
case '\t':
case '\f':
token = new Token(WS, Character.toString((char)ch), line, offset);
offset = pos;
break;
case '\r':
token = new Token(NL, "\\r", line, offset);
// offset and pos are reset on next readChar
ch = readChar();
if (ch == '\n') {
token = new Token(NL, "\\r\\n", line, offset);
// offset and pos are reset on next readChar
} else {
// already read the next character, so return
// return the NL token here (avoid the readChar
// at the end of the loop below)
final Token tok = token;
token = (ch == -1) ? Token.EOF_TOKEN : null;
return tok;
}
break;
case '\n':
token = new Token(NL, "\\n", line, offset);
// offset and pos are reset on next readChar
break;
case '!':
Token tok = scanImportant();
return tok;
case '@':
token = new Token(AT_KEYWORD, "@", line, offset);
offset = pos;
break;
default:
// System.err.println("hit default case: ch = " + Character.toString((char)ch));
token = new Token(Token.INVALID, Character.toString((char)ch), line, offset);
offset = pos;
break;
}
if (token == null) {
// System.err.println("token is null! ch = " + Character.toString((char)ch));
token = new Token(Token.INVALID, null, line, offset);
offset = pos;
} else if (token.getType() == Token.EOF) {
return token;
}
if (ch != -1 && !charNotConsumed) ch = readChar();
final Token tok = token;
token = null;
return tok;
}
} catch (IOException ioe) {
token = Token.EOF_TOKEN;
return token;
}
}
private int ch;
private boolean charNotConsumed = false;
private Reader reader;
private Token token;
private final Map stateMap;
private LexerState currentState;
private final StringBuilder text;
}
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