/*
 * Copyright (c) 2011, 2018, Oracle and/or its affiliates. All rights reserved.
 * 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).
 *
 * You should have received a copy of the GNU General Public License version
 * 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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 * questions.
 */

package javafx.css;

import com.sun.javafx.css.Combinator;
import com.sun.javafx.css.FontFaceImpl;
import com.sun.javafx.css.ParsedValueImpl;
import com.sun.javafx.css.StyleManager;
import com.sun.javafx.util.Utils;
import javafx.css.converter.BooleanConverter;
import javafx.css.converter.DurationConverter;
import javafx.css.converter.EffectConverter;
import javafx.css.converter.EnumConverter;
import javafx.css.converter.FontConverter;
import javafx.css.converter.InsetsConverter;
import javafx.css.converter.PaintConverter;
import javafx.css.converter.SizeConverter;
import javafx.css.converter.SizeConverter.SequenceConverter;
import javafx.css.converter.StringConverter;
import javafx.css.converter.URLConverter;
import javafx.css.converter.DeriveColorConverter;
import javafx.css.converter.LadderConverter;
import javafx.css.converter.StopConverter;
import com.sun.javafx.css.parser.Token;
import com.sun.javafx.scene.layout.region.BackgroundPositionConverter;
import com.sun.javafx.scene.layout.region.BackgroundSizeConverter;
import com.sun.javafx.scene.layout.region.BorderImageSliceConverter;
import com.sun.javafx.scene.layout.region.BorderImageSlices;
import com.sun.javafx.scene.layout.region.BorderImageWidthConverter;
import com.sun.javafx.scene.layout.region.BorderImageWidthsSequenceConverter;
import com.sun.javafx.scene.layout.region.BorderStrokeStyleSequenceConverter;
import com.sun.javafx.scene.layout.region.BorderStyleConverter;
import com.sun.javafx.scene.layout.region.CornerRadiiConverter;
import com.sun.javafx.scene.layout.region.LayeredBackgroundPositionConverter;
import com.sun.javafx.scene.layout.region.LayeredBackgroundSizeConverter;
import com.sun.javafx.scene.layout.region.LayeredBorderPaintConverter;
import com.sun.javafx.scene.layout.region.LayeredBorderStyleConverter;
import com.sun.javafx.scene.layout.region.Margins;
import com.sun.javafx.scene.layout.region.RepeatStruct;
import com.sun.javafx.scene.layout.region.RepeatStructConverter;
import com.sun.javafx.scene.layout.region.SliceSequenceConverter;
import com.sun.javafx.scene.layout.region.StrokeBorderPaintConverter;
import javafx.collections.ObservableList;
import javafx.geometry.Insets;
import javafx.scene.effect.BlurType;
import javafx.scene.effect.Effect;
import javafx.scene.layout.BackgroundPosition;
import javafx.scene.layout.BackgroundRepeat;
import javafx.scene.layout.BackgroundSize;
import javafx.scene.layout.BorderStrokeStyle;
import javafx.scene.layout.BorderWidths;
import javafx.scene.layout.CornerRadii;
import javafx.scene.paint.Color;
import javafx.scene.paint.CycleMethod;
import javafx.scene.paint.Paint;
import javafx.scene.paint.Stop;
import javafx.scene.shape.StrokeLineCap;
import javafx.scene.shape.StrokeLineJoin;
import javafx.scene.shape.StrokeType;
import javafx.scene.text.Font;
import javafx.scene.text.FontPosture;
import javafx.scene.text.FontWeight;
import javafx.util.Duration;
import com.sun.javafx.logging.PlatformLogger;
import com.sun.javafx.logging.PlatformLogger.Level;


import java.io.BufferedReader;
import java.io.CharArrayReader;
import java.io.IOException;
import java.io.InputStreamReader;
import java.io.Reader;
import java.net.MalformedURLException;
import java.net.URI;
import java.net.URISyntaxException;
import java.net.URL;
import java.text.MessageFormat;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Stack;

Since:9
/** * @since 9 */
final public class CssParser { public CssParser() { properties = new HashMap<String,String>(); } // stylesheet as a string from parse method. This will be null if the // stylesheet is being parsed from a file; otherwise, the parser is parsing // a string and this is that string. private String stylesheetAsText; // the url of the stylesheet file, or the docbase of an applet. This will // be null if the source is not a file or from an applet. private String sourceOfStylesheet; // the Styleable from the node with an in-line style. This will be null // unless the source of the styles is a Node's styleProperty. In this case, // the stylesheetString will also be set. private Styleable sourceOfInlineStyle; // source is a file private void setInputSource(String url, String str) { stylesheetAsText = str; sourceOfStylesheet = url; sourceOfInlineStyle = null; } // source as string only private void setInputSource(String str) { stylesheetAsText = str; sourceOfStylesheet = null; sourceOfInlineStyle = null; } // source is in-line style private void setInputSource(Styleable styleable) { stylesheetAsText = styleable != null ? styleable.getStyle() : null; sourceOfStylesheet = null; sourceOfInlineStyle = styleable; } private static final PlatformLogger LOGGER = com.sun.javafx.util.Logging.getCSSLogger(); private static final class ParseException extends Exception { ParseException(String message) { this(message,null,null); } ParseException(String message, Token tok, CssParser parser) { super(message); this.tok = tok; if (parser.sourceOfStylesheet != null) { source = parser.sourceOfStylesheet; } else if (parser.sourceOfInlineStyle != null) { source = parser.sourceOfInlineStyle.toString(); } else if (parser.stylesheetAsText != null) { source = parser.stylesheetAsText; } else { source = "?"; } } @Override public String toString() { StringBuilder builder = new StringBuilder(super.getMessage()); builder.append(source); if (tok != null) builder.append(": ").append(tok.toString()); return builder.toString(); } private final Token tok; private final String source; }
Creates a stylesheet from a CSS document string.
Params:
  • stylesheetText – the CSS document to parse
Returns:the Stylesheet
/** * Creates a stylesheet from a CSS document string. * * @param stylesheetText the CSS document to parse * @return the Stylesheet */
public Stylesheet parse(final String stylesheetText) { final Stylesheet stylesheet = new Stylesheet(); if (stylesheetText != null && !stylesheetText.trim().isEmpty()) { setInputSource(stylesheetText); try (Reader reader = new CharArrayReader(stylesheetText.toCharArray())) { parse(stylesheet, reader); } catch (IOException ioe) { // this method doesn't explicitly throw IOException } } return stylesheet; }
Creates a stylesheet from a CSS document string using docbase as the base URL for resolving references within stylesheet.
Params:
  • docbase – the doc base for resolving URL references
  • stylesheetText – the CSS document to parse
Throws:
Returns:the Stylesheet
/** * Creates a stylesheet from a CSS document string using docbase as the base * URL for resolving references within stylesheet. * * @param docbase the doc base for resolving URL references * @param stylesheetText the CSS document to parse * @return the Stylesheet * @throws java.io.IOException the exception */
public Stylesheet parse(final String docbase, final String stylesheetText) throws IOException { final Stylesheet stylesheet = new Stylesheet(docbase); if (stylesheetText != null && !stylesheetText.trim().isEmpty()) { setInputSource(docbase, stylesheetText); try (Reader reader = new CharArrayReader(stylesheetText.toCharArray())) { parse(stylesheet, reader); } } return stylesheet; }
Updates the given stylesheet by reading a CSS document from a URL, assuming UTF-8 encoding.
Params:
  • url – URL of the stylesheet to parse
Throws:
Returns:the stylesheet
/** * Updates the given stylesheet by reading a CSS document from a URL, * assuming UTF-8 encoding. * *@param url URL of the stylesheet to parse *@return the stylesheet *@throws IOException the exception */
public Stylesheet parse(final URL url) throws IOException { final String path = url != null ? url.toExternalForm() : null; final Stylesheet stylesheet = new Stylesheet(path); if (url != null) { setInputSource(path, null); try (Reader reader = new BufferedReader(new InputStreamReader(url.openStream()))) { parse(stylesheet, reader); } } return stylesheet; } /* All of the other function calls should wind up here */ private void parse(final Stylesheet stylesheet, final Reader reader) { CssLexer lex = new CssLexer(); lex.setReader(reader); try { this.parse(stylesheet, lex); } catch (Exception ex) { // Sometimes bad syntax causes an exception. The code should be // fixed to handle the bad syntax, but the fallback is // to handle the exception here. Uncaught, the exception can cause // problems like RT-20311 reportException(ex); } }
Parse an in-line style from a Node.
Params:
  • node – the styleable node
Returns:the style sheet
/** Parse an in-line style from a Node. * @param node the styleable node * @return the style sheet */
public Stylesheet parseInlineStyle(final Styleable node) { Stylesheet stylesheet = new Stylesheet(); final String stylesheetText = (node != null) ? node.getStyle() : null; if (stylesheetText != null && !stylesheetText.trim().isEmpty()) { setInputSource(node); final List<Rule> rules = new ArrayList<Rule>(); try (Reader reader = new CharArrayReader(stylesheetText.toCharArray())) { final CssLexer lexer = new CssLexer(); lexer.setReader(reader); currentToken = nextToken(lexer); final List<Declaration> declarations = declarations(lexer); if (declarations != null && !declarations.isEmpty()) { final Selector selector = Selector.getUniversalSelector(); final Rule rule = new Rule( Collections.singletonList(selector), declarations ); rules.add(rule); } } catch (IOException ioe) { } catch (Exception ex) { // Sometimes bad syntax causes an exception. The code should be // fixed to handle the bad syntax, but the fallback is // to handle the exception here. Uncaught, the exception can cause // problems like RT-20311 reportException(ex); } stylesheet.getRules().addAll(rules); } // don't retain reference to the styleable setInputSource((Styleable) null); return stylesheet; }
Convenience method for unit tests.
Params:
  • property – the property
  • expr – the expression
Returns:the parsed value
/** * Convenience method for unit tests. * @param property the property * @param expr the expression * @return the parsed value */
ParsedValue parseExpr(String property, String expr) { if (property == null || expr == null) return null; ParsedValueImpl value = null; setInputSource(null, property + ": " + expr); char buf[] = new char[expr.length() + 1]; System.arraycopy(expr.toCharArray(), 0, buf, 0, expr.length()); buf[buf.length-1] = ';'; try (Reader reader = new CharArrayReader(buf)) { CssLexer lex = new CssLexer(); lex.setReader(reader); currentToken = nextToken(lex); CssParser.Term term = this.expr(lex); value = valueFor(property, term, lex); } catch (IOException ioe) { } catch (ParseException e) { if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning("\"" +property + ": " + expr + "\" " + e.toString()); } } catch (Exception ex) { // Sometimes bad syntax causes an exception. The code should be // fixed to handle the bad syntax, but the fallback is // to handle the exception here. Uncaught, the exception can cause // problems like RT-20311 reportException(ex); } return value; } /* * Map of property names found while parsing. If a value matches a * property name, then the value is a lookup. */ private final Map<String,String> properties; /* * While parsing a declaration, tokens from parsing value (that is, * the expr rule) are held in this tree structure which is then passed * to methods which convert the tree into a ParsedValueImpl. * * Each term in expr is a Term. For simple terms, like HASH, the * Term is just the Token. If the term is a function, then the * Term is a linked-list of Term, the first being the function * name and each nextArg being the arguments. * * If there is more than one term in the expr (insets, for example), * then the terms are linked on nextInSequence. If there is more than one * layer (sequence of terms), then each layer becomes the nextLayer * to the last root in the previous sequence. * * The easiest way to think of it is that a comma starts a nextLayer (except * when a function arg). * * The expr part of the declaration "-fx-padding 1 2, 3 4;" would look * like this: * [1 | nextLayer | nextInSeries]-->[2 | nextLayer | nextInSeries]-->null * | | * null | * .---------------------------------' * '-->[3 | nextLayer | nextInSeries]-->[4 | nextLayer | nextInSeries]-->null * | | * null null * * The first argument in a function needs to be distinct from the * remaining args so that the args of a function in the middle of * a function will not be omitted. Consider 'f0(a, f1(b, c), d)' * If we relied only on nextArg, then the next arg of f0 would be a but * the nextArg of f1 would be d. With firstArg, the firstArg of f0 is a, * the nextArg of a is f1, the firstArg of f1 is b and the nextArg of f1 is d. * * TODO: now that the parser is the parser and not an adjunct to an ANTLR * parser, this Term stuff shouldn't be needed. */ static class Term { final Token token; Term nextInSeries; Term nextLayer; Term firstArg; Term nextArg; Term(Token token) { this.token = token; this.nextLayer = null; this.nextInSeries = null; this.firstArg = null; this.nextArg = null; } Term() { this(null); } @Override public String toString() { StringBuilder buf = new StringBuilder(); if (token != null) buf.append(String.valueOf(token.getText())); if (nextInSeries != null) { buf.append("<nextInSeries>"); buf.append(nextInSeries.toString()); buf.append("</nextInSeries>\n"); } if (nextLayer != null) { buf.append("<nextLayer>"); buf.append(nextLayer.toString()); buf.append("</nextLayer>\n"); } if (firstArg != null) { buf.append("<args>"); buf.append(firstArg.toString()); if (nextArg != null) { buf.append(nextArg.toString()); } buf.append("</args>"); } return buf.toString(); } } private ParseError createError(String msg) { ParseError error = null; if (sourceOfStylesheet != null) { error = new ParseError.StylesheetParsingError(sourceOfStylesheet, msg); } else if (sourceOfInlineStyle != null) { error = new ParseError.InlineStyleParsingError(sourceOfInlineStyle, msg); } else { error = new ParseError.StringParsingError(stylesheetAsText, msg); } return error; } private void reportError(ParseError error) { List<ParseError> errors = null; if ((errors = StyleManager.getErrors()) != null) { errors.add(error); } } private void error(final Term root, final String msg) throws ParseException { final Token token = root != null ? root.token : null; final ParseException pe = new ParseException(msg,token,this); reportError(createError(pe.toString())); throw pe; } private void reportException(Exception exception) { if (LOGGER.isLoggable(Level.WARNING)) { final StackTraceElement[] stea = exception.getStackTrace(); if (stea.length > 0) { final StringBuilder buf = new StringBuilder("Please report "); buf.append(exception.getClass().getName()) .append(" at:"); int end = 0; while(end < stea.length) { // only report parser part of the stack trace. if (!getClass().getName().equals(stea[end].getClassName())) { break; } buf.append("\n\t") .append(stea[end++].toString()); } LOGGER.warning(buf.toString()); } } } private String formatDeprecatedMessage(final Term root, final String syntax) { final StringBuilder buf = new StringBuilder("Using deprecated syntax for "); buf.append(syntax); if (sourceOfStylesheet != null){ buf.append(" at ") .append(sourceOfStylesheet) .append("[") .append(root.token.getLine()) .append(',') .append(root.token.getOffset()) .append("]"); } buf.append(". Refer to the CSS Reference Guide."); return buf.toString(); } // Assumes string is not a lookup! private ParsedValueImpl<Color,Color> colorValueOfString(String str) { if(str.startsWith("#") || str.startsWith("0x")) { double a = 1.0f; String c = str; final int prefixLength = (str.startsWith("#")) ? 1 : 2; final int len = c.length(); // rgba or rrggbbaa - trim off the alpha if ( (len-prefixLength) == 4) { a = Integer.parseInt(c.substring(len-1), 16) / 15.0f; c = c.substring(0,len-1); } else if ((len-prefixLength) == 8) { a = Integer.parseInt(c.substring(len-2), 16) / 255.0f; c = c.substring(0,len-2); } // else color was rgb or rrggbb (no alpha) return new ParsedValueImpl<Color,Color>(Color.web(c,a), null); } try { return new ParsedValueImpl<Color,Color>(Color.web(str), null); } catch (final IllegalArgumentException e) { } catch (final NullPointerException e) { } // not a color return null; } private String stripQuotes(String string) { return com.sun.javafx.util.Utils.stripQuotes(string); } private double clamp(double min, double val, double max) { if (val < min) return min; if (max < val) return max; return val; } // Return true if the token is a size type or an identifier // (which would indicate a lookup). private boolean isSize(Token token) { final int ttype = token.getType(); switch (ttype) { case CssLexer.NUMBER: case CssLexer.PERCENTAGE: case CssLexer.EMS: case CssLexer.EXS: case CssLexer.PX: case CssLexer.CM: case CssLexer.MM: case CssLexer.IN: case CssLexer.PT: case CssLexer.PC: case CssLexer.DEG: case CssLexer.GRAD: case CssLexer.RAD: case CssLexer.TURN: return true; default: return token.getType() == CssLexer.IDENT; } } private Size size(final Token token) throws ParseException { SizeUnits units = SizeUnits.PX; // Amount to trim off the suffix, if any. Most are 2 chars. int trim = 2; final String sval = token.getText().trim(); final int len = sval.length(); final int ttype = token.getType(); switch (ttype) { case CssLexer.NUMBER: units = SizeUnits.PX; trim = 0; break; case CssLexer.PERCENTAGE: units = SizeUnits.PERCENT; trim = 1; break; case CssLexer.EMS: units = SizeUnits.EM; break; case CssLexer.EXS: units = SizeUnits.EX; break; case CssLexer.PX: units = SizeUnits.PX; break; case CssLexer.CM: units = SizeUnits.CM; break; case CssLexer.MM: units = SizeUnits.MM; break; case CssLexer.IN: units = SizeUnits.IN; break; case CssLexer.PT: units = SizeUnits.PT; break; case CssLexer.PC: units = SizeUnits.PC; break; case CssLexer.DEG: units = SizeUnits.DEG; trim = 3; break; case CssLexer.GRAD: units = SizeUnits.GRAD; trim = 4; break; case CssLexer.RAD: units = SizeUnits.RAD; trim = 3; break; case CssLexer.TURN: units = SizeUnits.TURN; trim = 4; break; case CssLexer.SECONDS: units = SizeUnits.S; trim = 1; break; case CssLexer.MS: units = SizeUnits.MS; break; default: if (LOGGER.isLoggable(Level.FINEST)) { LOGGER.finest("Expected \'<number>\'"); } ParseException re = new ParseException("Expected \'<number>\'",token, this); reportError(createError(re.toString())); throw re; } // TODO: Handle NumberFormatException return new Size( Double.parseDouble(sval.substring(0,len-trim)), units ); } // Count the number of terms in a series private int numberOfTerms(final Term root) { if (root == null) return 0; int nTerms = 0; Term term = root; do { nTerms += 1; term = term.nextInSeries; } while (term != null); return nTerms; } // Count the number of series of terms private int numberOfLayers(final Term root) { if (root == null) return 0; int nLayers = 0; Term term = root; do { nLayers += 1; while (term.nextInSeries != null) { term = term.nextInSeries; } term = term.nextLayer; } while (term != null); return nLayers; } // Count the number of args of terms. root is the function. private int numberOfArgs(final Term root) { if (root == null) return 0; int nArgs = 0; Term term = root.firstArg; while (term != null) { nArgs += 1; term = term.nextArg; } return nArgs; } // Get the next layer following this term, which may be null private Term nextLayer(final Term root) { if (root == null) return null; Term term = root; while (term.nextInSeries != null) { term = term.nextInSeries; } return term.nextLayer; } //////////////////////////////////////////////////////////////////////////// // // Parsing routines // //////////////////////////////////////////////////////////////////////////// ParsedValueImpl valueFor(String property, Term root, CssLexer lexer) throws ParseException { final String prop = property.toLowerCase(Locale.ROOT); properties.put(prop, prop); if (root == null || root.token == null) { error(root, "Expected value for property \'" + prop + "\'"); } if (root.token.getType() == CssLexer.IDENT) { final String txt = root.token.getText(); if ("inherit".equalsIgnoreCase(txt)) { return new ParsedValueImpl<String,String>("inherit", null); } else if ("null".equalsIgnoreCase(txt) || "none".equalsIgnoreCase(txt)) { return new ParsedValueImpl<String,String>("null", null); } } if ("-fx-fill".equals(prop)) { ParsedValueImpl pv = parse(root); if (pv.getConverter() == StyleConverter.getUrlConverter()) { // ImagePatternConverter expects array of ParsedValue where element 0 is the URL // Pending RT-33574 pv = new ParsedValueImpl(new ParsedValue[] {pv},PaintConverter.ImagePatternConverter.getInstance()); } return pv; } else if ("-fx-background-color".equals(prop)) { return parsePaintLayers(root); } else if ("-fx-background-image".equals(prop)) { return parseURILayers(root); } else if ("-fx-background-insets".equals(prop)) { return parseInsetsLayers(root); } else if ("-fx-opaque-insets".equals(prop)) { return parseInsetsLayer(root); } else if ("-fx-background-position".equals(prop)) { return parseBackgroundPositionLayers(root); } else if ("-fx-background-radius".equals(prop)) { return parseCornerRadius(root); } else if ("-fx-background-repeat".equals(prop)) { return parseBackgroundRepeatStyleLayers(root); } else if ("-fx-background-size".equals(prop)) { return parseBackgroundSizeLayers(root); } else if ("-fx-border-color".equals(prop)) { return parseBorderPaintLayers(root); } else if ("-fx-border-insets".equals(prop)) { return parseInsetsLayers(root); } else if ("-fx-border-radius".equals(prop)) { return parseCornerRadius(root); } else if ("-fx-border-style".equals(prop)) { return parseBorderStyleLayers(root); } else if ("-fx-border-width".equals(prop)) { return parseMarginsLayers(root); } else if ("-fx-border-image-insets".equals(prop)) { return parseInsetsLayers(root); } else if ("-fx-border-image-repeat".equals(prop)) { return parseBorderImageRepeatStyleLayers(root); } else if ("-fx-border-image-slice".equals(prop)) { return parseBorderImageSliceLayers(root); } else if ("-fx-border-image-source".equals(prop)) { return parseURILayers(root); } else if ("-fx-border-image-width".equals(prop)) { return parseBorderImageWidthLayers(root); } else if ("-fx-padding".equals(prop)) { ParsedValueImpl<?,Size>[] sides = parseSize1to4(root); return new ParsedValueImpl<ParsedValue[],Insets>(sides, InsetsConverter.getInstance()); } else if ("-fx-label-padding".equals(prop)) { ParsedValueImpl<?,Size>[] sides = parseSize1to4(root); return new ParsedValueImpl<ParsedValue[],Insets>(sides, InsetsConverter.getInstance()); } else if (prop.endsWith("font-family")) { return parseFontFamily(root); } else if (prop.endsWith("font-size")) { ParsedValueImpl fsize = parseFontSize(root); if (fsize == null) error(root, "Expected \'<font-size>\'"); return fsize; } else if (prop.endsWith("font-style")) { ParsedValueImpl fstyle = parseFontStyle(root); if (fstyle == null) error(root, "Expected \'<font-style>\'"); return fstyle; } else if (prop.endsWith("font-weight")) { ParsedValueImpl fweight = parseFontWeight(root); if (fweight == null) error(root, "Expected \'<font-style>\'"); return fweight; } else if (prop.endsWith("font")) { return parseFont(root); } else if ("-fx-stroke-dash-array".equals(prop)) { // TODO: Figure out a way that these properties don't need to be // special cased. Term term = root; int nArgs = numberOfTerms(term); ParsedValueImpl<?,Size>[] segments = new ParsedValueImpl[nArgs]; int segment = 0; while(term != null) { segments[segment++] = parseSize(term); term = term.nextInSeries; } return new ParsedValueImpl<ParsedValue[],Number[]>(segments,SequenceConverter.getInstance()); } else if ("-fx-stroke-line-join".equals(prop)) { // TODO: Figure out a way that these properties don't need to be // special cased. ParsedValueImpl[] values = parseStrokeLineJoin(root); if (values == null) error(root, "Expected \'miter', \'bevel\' or \'round\'"); return values[0]; } else if ("-fx-stroke-line-cap".equals(prop)) { // TODO: Figure out a way that these properties don't need to be // special cased. ParsedValueImpl value = parseStrokeLineCap(root); if (value == null) error(root, "Expected \'square', \'butt\' or \'round\'"); return value; } else if ("-fx-stroke-type".equals(prop)) { // TODO: Figure out a way that these properties don't need to be // special cased. ParsedValueImpl value = parseStrokeType(root); if (value == null) error(root, "Expected \'centered', \'inside\' or \'outside\'"); return value; } else if ("-fx-font-smoothing-type".equals(prop)) { // TODO: Figure out a way that these properties don't need to be // special cased. String str = null; int ttype = -1; final Token token = root.token; if (root.token == null || ((ttype = root.token.getType()) != CssLexer.STRING && ttype != CssLexer.IDENT) || (str = root.token.getText()) == null || str.isEmpty()) { error(root, "Expected STRING or IDENT"); } return new ParsedValueImpl<String, String>(stripQuotes(str), null, false); } return parse(root); } private ParsedValueImpl parse(Term root) throws ParseException { if (root.token == null) error(root, "Parse error"); final Token token = root.token; ParsedValueImpl value = null; // value to return; final int ttype = token.getType(); switch (ttype) { case CssLexer.NUMBER: case CssLexer.PERCENTAGE: case CssLexer.EMS: case CssLexer.EXS: case CssLexer.PX: case CssLexer.CM: case CssLexer.MM: case CssLexer.IN: case CssLexer.PT: case CssLexer.PC: case CssLexer.DEG: case CssLexer.GRAD: case CssLexer.RAD: case CssLexer.TURN: if (root.nextInSeries == null) { ParsedValueImpl sizeValue = new ParsedValueImpl<Size,Number>(size(token), null); value = new ParsedValueImpl<ParsedValue<?,Size>, Number>(sizeValue, SizeConverter.getInstance()); } else { ParsedValueImpl<Size,Size>[] sizeValue = parseSizeSeries(root); value = new ParsedValueImpl<ParsedValue[],Number[]>(sizeValue, SizeConverter.SequenceConverter.getInstance()); } break; case CssLexer.SECONDS: case CssLexer.MS: { ParsedValue<Size, Size> sizeValue = new ParsedValueImpl<Size, Size>(size(token), null); value = new ParsedValueImpl<ParsedValue<?, Size>, Duration>(sizeValue, DurationConverter.getInstance()); break; } case CssLexer.STRING: case CssLexer.IDENT: boolean isIdent = ttype == CssLexer.IDENT; final String str = stripQuotes(token.getText()); final String text = str.toLowerCase(Locale.ROOT); if ("ladder".equals(text)) { value = ladder(root); } else if ("linear".equals(text) && (root.nextInSeries) != null) { // if nextInSeries is null, then assume this is _not_ an old-style linear gradient value = linearGradient(root); } else if ("radial".equals(text) && (root.nextInSeries) != null) { // if nextInSeries is null, then assume this is _not_ an old-style radial gradient value = radialGradient(root); } else if ("infinity".equals(text)) { Size size = new Size(Double.MAX_VALUE, SizeUnits.PX); ParsedValueImpl sizeValue = new ParsedValueImpl<Size,Number>(size, null); value = new ParsedValueImpl<ParsedValue<?,Size>,Number>(sizeValue, SizeConverter.getInstance()); } else if ("indefinite".equals(text)) { Size size = new Size(Double.POSITIVE_INFINITY, SizeUnits.PX); ParsedValueImpl<Size,Size> sizeValue = new ParsedValueImpl<>(size, null); value = new ParsedValueImpl<ParsedValue<?,Size>,Duration>(sizeValue, DurationConverter.getInstance()); } else if ("true".equals(text)) { // TODO: handling of boolean is really bogus value = new ParsedValueImpl<String,Boolean>("true",BooleanConverter.getInstance()); } else if ("false".equals(text)) { // TODO: handling of boolean is really bogus value = new ParsedValueImpl<String,Boolean>("false",BooleanConverter.getInstance()); } else { // if the property value is another property, then it needs to be looked up. boolean needsLookup = isIdent && properties.containsKey(text); if (needsLookup || ((value = colorValueOfString(str)) == null )) { // If the value is a lookup, make sure to use the lower-case text so it matches the property // in the Declaration. If the value is not a lookup, then use str since the value might // be a string which could have some case sensitive meaning // // TODO: isIdent is needed here because of RT-38345. This effectively undoes RT-38201 value = new ParsedValueImpl<String,String>(needsLookup ? text : str, null, isIdent || needsLookup); } } break; case CssLexer.HASH: final String clr = token.getText(); try { value = new ParsedValueImpl<Color,Color>(Color.web(clr), null); } catch (final IllegalArgumentException e) { error(root, e.getMessage()); } break; case CssLexer.FUNCTION: return parseFunction(root); case CssLexer.URL: return parseURI(root); default: final String msg = "Unknown token type: \'" + ttype + "\'"; error(root, msg); } return value; } /* Parse size. * @throw RecongnitionExcpetion if the token is not a size type or a lookup. */ private ParsedValueImpl<?,Size> parseSize(final Term root) throws ParseException { if (root.token == null || !isSize(root.token)) error(root, "Expected \'<size>\'"); ParsedValueImpl<?,Size> value = null; if (root.token.getType() != CssLexer.IDENT) { Size size = size(root.token); value = new ParsedValueImpl<Size,Size>(size, null); } else { String key = root.token.getText(); value = new ParsedValueImpl<String,Size>(key, null, true); } return value; } private ParsedValueImpl<?,Color> parseColor(final Term root) throws ParseException { ParsedValueImpl<?,Color> color = null; if (root.token != null && (root.token.getType() == CssLexer.IDENT || root.token.getType() == CssLexer.HASH || root.token.getType() == CssLexer.FUNCTION)) { color = parse(root); } else { error(root, "Expected \'<color>\'"); } return color; } // rgb(NUMBER, NUMBER, NUMBER) // rgba(NUMBER, NUMBER, NUMBER, NUMBER) // rgb(PERCENTAGE, PERCENTAGE, PERCENTAGE) // rgba(PERCENTAGE, PERCENTAGE, PERCENTAGE, NUMBER) private ParsedValueImpl rgb(Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (fn == null || !"rgb".regionMatches(true, 0, fn, 0, 3)) { final String msg = "Expected \'rgb\' or \'rgba\'"; error(root, msg); } Term arg = root; Token rtok, gtok, btok, atok; if ((arg = arg.firstArg) == null) error(root, "Expected \'<number>\' or \'<percentage>\'"); if ((rtok = arg.token) == null || (rtok.getType() != CssLexer.NUMBER && rtok.getType() != CssLexer.PERCENTAGE)) error(arg, "Expected \'<number>\' or \'<percentage>\'"); root = arg; if ((arg = arg.nextArg) == null) error(root, "Expected \'<number>\' or \'<percentage>\'"); if ((gtok = arg.token) == null || (gtok.getType() != CssLexer.NUMBER && gtok.getType() != CssLexer.PERCENTAGE)) error(arg, "Expected \'<number>\' or \'<percentage>\'"); root = arg; if ((arg = arg.nextArg) == null) error(root, "Expected \'<number>\' or \'<percentage>\'"); if ((btok = arg.token) == null || (btok.getType() != CssLexer.NUMBER && btok.getType() != CssLexer.PERCENTAGE)) error(arg, "Expected \'<number>\' or \'<percentage>\'"); root = arg; if ((arg = arg.nextArg) != null) { if ((atok = arg.token) == null || atok.getType() != CssLexer.NUMBER) error(arg, "Expected \'<number>\'"); } else { atok = null; } int argType = rtok.getType(); if (argType != gtok.getType() || argType != btok.getType() || (argType != CssLexer.NUMBER && argType != CssLexer.PERCENTAGE)) { error(root, "Argument type mistmatch"); } final String rtext = rtok.getText(); final String gtext = gtok.getText(); final String btext = btok.getText(); double rval = 0; double gval = 0; double bval = 0; if (argType == CssLexer.NUMBER) { rval = clamp(0.0f, Double.parseDouble(rtext) / 255.0f, 1.0f); gval = clamp(0.0f, Double.parseDouble(gtext) / 255.0f, 1.0f); bval = clamp(0.0f, Double.parseDouble(btext) / 255.0f, 1.0f); } else { rval = clamp(0.0f, Double.parseDouble(rtext.substring(0,rtext.length()-1)) / 100.0f, 1.0f); gval = clamp(0.0f, Double.parseDouble(gtext.substring(0,gtext.length()-1)) / 100.0f, 1.0f); bval = clamp(0.0f, Double.parseDouble(btext.substring(0,btext.length()-1)) / 100.0f, 1.0f); } final String atext = (atok != null) ? atok.getText() : null; final double aval = (atext != null) ? clamp(0.0f, Double.parseDouble(atext), 1.0f) : 1.0; return new ParsedValueImpl<Color,Color>(Color.color(rval,gval,bval,aval), null); } // hsb(NUMBER, PERCENTAGE, PERCENTAGE) // hsba(NUMBER, PERCENTAGE, PERCENTAGE, NUMBER) private ParsedValueImpl hsb(Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (fn == null || !"hsb".regionMatches(true, 0, fn, 0, 3)) { final String msg = "Expected \'hsb\' or \'hsba\'"; error(root, msg); } Term arg = root; Token htok, stok, btok, atok; if ((arg = arg.firstArg) == null) error(root, "Expected \'<number>\'"); if ((htok = arg.token) == null || htok.getType() != CssLexer.NUMBER) error(arg, "Expected \'<number>\'"); root = arg; if ((arg = arg.nextArg) == null) error(root, "Expected \'<percent>\'"); if ((stok = arg.token) == null || stok.getType() != CssLexer.PERCENTAGE) error(arg, "Expected \'<percent>\'"); root = arg; if ((arg = arg.nextArg) == null) error(root, "Expected \'<percent>\'"); if ((btok = arg.token) == null || btok.getType() != CssLexer.PERCENTAGE) error(arg, "Expected \'<percent>\'"); root = arg; if ((arg = arg.nextArg) != null) { if ((atok = arg.token) == null || atok.getType() != CssLexer.NUMBER) error(arg, "Expected \'<number>\'"); } else { atok = null; } final Size hval = size(htok); final Size sval = size(stok); final Size bval = size(btok); final double hue = hval.pixels(); // no clamp - hue can be negative final double saturation = clamp(0.0f, sval.pixels(), 1.0f); final double brightness = clamp(0.0f, bval.pixels(), 1.0f); final Size aval = (atok != null) ? size(atok) : null; final double opacity = (aval != null) ? clamp(0.0f, aval.pixels(), 1.0f) : 1.0; return new ParsedValueImpl<Color,Color>(Color.hsb(hue, saturation, brightness, opacity), null); } // derive(color, pct) private ParsedValueImpl<ParsedValue[],Color> derive(final Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (fn == null || !"derive".regionMatches(true, 0, fn, 0, 6)) { final String msg = "Expected \'derive\'"; error(root, msg); } Term arg = root; if ((arg = arg.firstArg) == null) error(root, "Expected \'<color>\'"); final ParsedValueImpl<?,Color> color = parseColor(arg); final Term prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<percent\'"); final ParsedValueImpl<?,Size> brightness = parseSize(arg); ParsedValueImpl[] values = new ParsedValueImpl[] { color, brightness }; return new ParsedValueImpl<ParsedValue[],Color>(values, DeriveColorConverter.getInstance()); } // 'ladder' color 'stops' stop+ private ParsedValueImpl<ParsedValue[],Color> ladder(final Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (fn == null || !"ladder".regionMatches(true, 0, fn, 0, 6)) { final String msg = "Expected \'ladder\'"; error(root, msg); } if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(formatDeprecatedMessage(root, "ladder")); } Term term = root; if ((term = term.nextInSeries) == null) error(root, "Expected \'<color>\'"); final ParsedValueImpl<?,Color> color = parse(term); Term prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'stops\'"); if (term.token == null || term.token.getType() != CssLexer.IDENT || !"stops".equalsIgnoreCase(term.token.getText())) error(term, "Expected \'stops\'"); prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'(<number>, <color>)\'"); int nStops = 0; Term temp = term; do { nStops += 1; // if next token type is IDENT, then we have CycleMethod } while (((temp = temp.nextInSeries) != null) && ((temp.token != null) && (temp.token.getType() == CssLexer.LPAREN))); ParsedValueImpl[] values = new ParsedValueImpl[nStops+1]; values[0] = color; int stopIndex = 1; do { ParsedValueImpl<ParsedValue[],Stop> stop = stop(term); if (stop != null) values[stopIndex++] = stop; prev = term; } while(((term = term.nextInSeries) != null) && (term.token.getType() == CssLexer.LPAREN)); // if term is not null and the last term was not an lparen, // then term starts a new series of Paint. Point // root.nextInSeries to term so the next loop skips over the // already parsed ladder bits. if (term != null) { root.nextInSeries = term; } // if term is null, then we are at the end of a series. // root points to 'ladder', now we want the next term after root // to be the term after the last stop, which may be another layer else { root.nextInSeries = null; root.nextLayer = prev.nextLayer; } return new ParsedValueImpl<ParsedValue[], Color>(values, LadderConverter.getInstance()); } // <ladder> = ladder(<color>, <color-stop>[, <color-stop>]+ ) private ParsedValueImpl<ParsedValue[],Color> parseLadder(final Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (fn == null || !"ladder".regionMatches(true, 0, fn, 0, 6)) { final String msg = "Expected \'ladder\'"; error(root, msg); } Term term = root; if ((term = term.firstArg) == null) error(root, "Expected \'<color>\'"); final ParsedValueImpl<?,Color> color = parse(term); Term prev = term; if ((term = term.nextArg) == null) error(prev, "Expected \'<color-stop>[, <color-stop>]+\'"); ParsedValueImpl<ParsedValue[],Stop>[] stops = parseColorStops(term); ParsedValueImpl[] values = new ParsedValueImpl[stops.length+1]; values[0] = color; System.arraycopy(stops, 0, values, 1, stops.length); return new ParsedValueImpl<ParsedValue[], Color>(values, LadderConverter.getInstance()); } // parse (<number>, <color>)+ // root.token should be a size // root.token.next should be a color private ParsedValueImpl<ParsedValue[], Stop> stop(final Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (fn == null || !"(".equals(fn)) { final String msg = "Expected \'(\'"; error(root, msg); } Term arg = null; if ((arg = root.firstArg) == null) error(root, "Expected \'<number>\'"); ParsedValueImpl<?,Size> size = parseSize(arg); Term prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<color>\'"); ParsedValueImpl<?,Color> color = parseColor(arg); ParsedValueImpl[] values = new ParsedValueImpl[] { size, color }; return new ParsedValueImpl<ParsedValue[],Stop>(values, StopConverter.getInstance()); } // http://dev.w3.org/csswg/css3-images/#color-stop-syntax // <color-stop> = <color> [ <percentage> | <length> ]? private ParsedValueImpl<ParsedValue[], Stop>[] parseColorStops(final Term root) throws ParseException { int nArgs = 1; Term temp = root; while(temp != null) { if (temp.nextArg != null) { nArgs += 1; temp = temp.nextArg; } else if (temp.nextInSeries != null) { temp = temp.nextInSeries; } else { break; } } if (nArgs < 2) { error(root, "Expected \'<color-stop>\'"); } ParsedValueImpl<?,Color>[] colors = new ParsedValueImpl[nArgs]; Size[] positions = new Size[nArgs]; java.util.Arrays.fill(positions, null); Term stop = root; Term prev = root; SizeUnits units = null; for (int n = 0; n<nArgs; n++) { colors[n] = parseColor(stop); prev = stop; Term term = stop.nextInSeries; if (term != null) { if (isSize(term.token)) { positions[n] = size(term.token); if (units != null) { if (units != positions[n].getUnits()) { error(term, "Parser unable to handle mixed \'<percent>\' and \'<length>\'"); } } } else { error(prev, "Expected \'<percent>\' or \'<length>\'"); } prev = term; stop = term.nextArg; } else { prev = stop; stop = stop.nextArg; } } // // normalize positions according to // http://dev.w3.org/csswg/css3-images/#color-stop-syntax // // If the first color-stop does not have a position, set its // position to 0%. If the last color-stop does not have a position, // set its position to 100%. if (positions[0] == null) positions[0] = new Size(0, SizeUnits.PERCENT); if (positions[nArgs-1] == null) positions[nArgs-1] = new Size(100, SizeUnits.PERCENT); // If a color-stop has a position that is less than the specified // position of any color-stop before it in the list, set its // position to be equal to the largest specified position of any // color-stop before it. Size max = null; for (int n = 1 ; n<nArgs; n++) { Size pos0 = positions[n-1]; if (pos0 == null) continue; if (max == null || max.getValue() < pos0.getValue()) { // TODO: this doesn't work with mixed length and percent max = pos0; } Size pos1 = positions[n]; if (pos1 == null) continue; if (pos1.getValue() < max.getValue()) positions[n] = max; } // If any color-stop still does not have a position, then, // for each run of adjacent color-stops without positions, set // their positions so that they are evenly spaced between the // preceding and following color-stops with positions. Size preceding = null; int withoutIndex = -1; for (int n = 0 ; n<nArgs; n++) { Size pos = positions[n]; if (pos == null) { if (withoutIndex == -1) withoutIndex = n; } else { if (withoutIndex > -1) { int nWithout = n - withoutIndex; double precedingValue = preceding.getValue(); double delta = (pos.getValue() - precedingValue) / (nWithout + 1); while(withoutIndex < n) { precedingValue += delta; positions[withoutIndex++] = new Size(precedingValue, pos.getUnits()); } withoutIndex = -1; preceding = pos; } else { preceding = pos; } } } ParsedValueImpl<ParsedValue[],Stop>[] stops = new ParsedValueImpl[nArgs]; for (int n=0; n<nArgs; n++) { stops[n] = new ParsedValueImpl<ParsedValue[],Stop>( new ParsedValueImpl[] { new ParsedValueImpl<Size,Size>(positions[n], null), colors[n] }, StopConverter.getInstance() ); } return stops; } // parse (<number>, <number>) private ParsedValueImpl[] point(final Term root) throws ParseException { if (root.token == null || root.token.getType() != CssLexer.LPAREN) error(root, "Expected \'(<number>, <number>)\'"); final String fn = root.token.getText(); if (fn == null || !"(".equalsIgnoreCase(fn)) { final String msg = "Expected \'(\'"; error(root, msg); } Term arg = null; // no <number> if ((arg = root.firstArg) == null) error(root, "Expected \'<number>\'"); final ParsedValueImpl<?,Size> ptX = parseSize(arg); final Term prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<number>\'"); final ParsedValueImpl<?,Size> ptY = parseSize(arg); return new ParsedValueImpl[] { ptX, ptY }; } private ParsedValueImpl parseFunction(final Term root) throws ParseException { // Text from parser is function name plus the lparen, e.g., 'derive(' final String fcn = (root.token != null) ? root.token.getText() : null; if (fcn == null) { error(root, "Expected function name"); } else if ("rgb".regionMatches(true, 0, fcn, 0, 3)) { return rgb(root); } else if ("hsb".regionMatches(true, 0, fcn, 0, 3)) { return hsb(root); } else if ("derive".regionMatches(true, 0, fcn, 0, 6)) { return derive(root); } else if ("innershadow".regionMatches(true, 0, fcn, 0, 11)) { return innershadow(root); } else if ("dropshadow".regionMatches(true, 0, fcn, 0, 10)) { return dropshadow(root); } else if ("linear-gradient".regionMatches(true, 0, fcn, 0, 15)) { return parseLinearGradient(root); } else if ("radial-gradient".regionMatches(true, 0, fcn, 0, 15)) { return parseRadialGradient(root); } else if ("image-pattern".regionMatches(true, 0, fcn, 0, 13)) { return parseImagePattern(root); } else if ("repeating-image-pattern".regionMatches(true, 0, fcn, 0, 23)) { return parseRepeatingImagePattern(root); } else if ("ladder".regionMatches(true, 0, fcn, 0, 6)) { return parseLadder(root); } else if ("region".regionMatches(true, 0, fcn, 0, 6)) { return parseRegion(root); } else { error(root, "Unexpected function \'" + fcn + "\'"); } return null; } private ParsedValueImpl<String,BlurType> blurType(final Term root) throws ParseException { if (root == null) return null; if (root.token == null || root.token.getType() != CssLexer.IDENT || root.token.getText() == null || root.token.getText().isEmpty()) { final String msg = "Expected \'gaussian\', \'one-pass-box\', \'two-pass-box\', or \'three-pass-box\'"; error(root, msg); } final String blurStr = root.token.getText().toLowerCase(Locale.ROOT); BlurType blurType = BlurType.THREE_PASS_BOX; if ("gaussian".equals(blurStr)) { blurType = BlurType.GAUSSIAN; } else if ("one-pass-box".equals(blurStr)) { blurType = BlurType.ONE_PASS_BOX; } else if ("two-pass-box".equals(blurStr)) { blurType = BlurType.TWO_PASS_BOX; } else if ("three-pass-box".equals(blurStr)) { blurType = BlurType.THREE_PASS_BOX; } else { final String msg = "Expected \'gaussian\', \'one-pass-box\', \'two-pass-box\', or \'three-pass-box\'"; error(root, msg); } return new ParsedValueImpl<String,BlurType>(blurType.name(), new EnumConverter<BlurType>(BlurType.class)); } // innershadow <blur-type> <color> <radius> <choke> <offset-x> <offset-y> private ParsedValueImpl innershadow(final Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (!"innershadow".regionMatches(true, 0, fn, 0, 11)) { final String msg = "Expected \'innershadow\'"; error(root, msg); } Term arg; if ((arg = root.firstArg) == null) error(root, "Expected \'<blur-type>\'"); ParsedValueImpl<String,BlurType> blurVal = blurType(arg); Term prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<color>\'"); ParsedValueImpl<?,Color> colorVal = parseColor(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<number>\'"); ParsedValueImpl<?,Size> radiusVal = parseSize(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<number>\'"); ParsedValueImpl<?,Size> chokeVal = parseSize(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<number>\'"); ParsedValueImpl<?,Size> offsetXVal = parseSize(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<number>\'"); ParsedValueImpl<?,Size> offsetYVal = parseSize(arg); ParsedValueImpl[] values = new ParsedValueImpl[] { blurVal, colorVal, radiusVal, chokeVal, offsetXVal, offsetYVal }; return new ParsedValueImpl<ParsedValue[],Effect>(values, EffectConverter.InnerShadowConverter.getInstance()); } // dropshadow <blur-type> <color> <radius> <spread> <offset-x> <offset-y> private ParsedValueImpl dropshadow(final Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (!"dropshadow".regionMatches(true, 0, fn, 0, 10)) { final String msg = "Expected \'dropshadow\'"; error(root, msg); } Term arg; if ((arg = root.firstArg) == null) error(root, "Expected \'<blur-type>\'"); ParsedValueImpl<String,BlurType> blurVal = blurType(arg); Term prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<color>\'"); ParsedValueImpl<?,Color> colorVal = parseColor(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<number>\'"); ParsedValueImpl<?,Size> radiusVal = parseSize(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<number>\'"); ParsedValueImpl<?,Size> spreadVal = parseSize(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<number>\'"); ParsedValueImpl<?,Size> offsetXVal = parseSize(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<number>\'"); ParsedValueImpl<?,Size> offsetYVal = parseSize(arg); ParsedValueImpl[] values = new ParsedValueImpl[] { blurVal, colorVal, radiusVal, spreadVal, offsetXVal, offsetYVal }; return new ParsedValueImpl<ParsedValue[],Effect>(values, EffectConverter.DropShadowConverter.getInstance()); } // returns null if the Term is null or is not a cycle method. private ParsedValueImpl<String, CycleMethod> cycleMethod(final Term root) { CycleMethod cycleMethod = null; if (root != null && root.token.getType() == CssLexer.IDENT) { final String text = root.token.getText().toLowerCase(Locale.ROOT); if ("repeat".equals(text)) { cycleMethod = CycleMethod.REPEAT; } else if ("reflect".equals(text)) { cycleMethod = CycleMethod.REFLECT; } else if ("no-cycle".equals(text)) { cycleMethod = CycleMethod.NO_CYCLE; } } if (cycleMethod != null) return new ParsedValueImpl<String,CycleMethod>(cycleMethod.name(), new EnumConverter<CycleMethod>(CycleMethod.class)); else return null; } // linear <point> TO <point> STOPS <stop>+ cycleMethod? private ParsedValueImpl<ParsedValue[],Paint> linearGradient(final Term root) throws ParseException { final String fn = (root.token != null) ? root.token.getText() : null; if (fn == null || !"linear".equalsIgnoreCase(fn)) { final String msg = "Expected \'linear\'"; error(root, msg); } if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(formatDeprecatedMessage(root, "linear gradient")); } Term term = root; if ((term = term.nextInSeries) == null) error(root, "Expected \'(<number>, <number>)\'"); final ParsedValueImpl<?,Size>[] startPt = point(term); Term prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'to\'"); if (term.token == null || term.token.getType() != CssLexer.IDENT || !"to".equalsIgnoreCase(term.token.getText())) error(root, "Expected \'to\'"); prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'(<number>, <number>)\'"); final ParsedValueImpl<?,Size>[] endPt = point(term); prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'stops\'"); if (term.token == null || term.token.getType() != CssLexer.IDENT || !"stops".equalsIgnoreCase(term.token.getText())) error(term, "Expected \'stops\'"); prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'(<number>, <number>)\'"); int nStops = 0; Term temp = term; do { nStops += 1; // if next token type is IDENT, then we have CycleMethod } while (((temp = temp.nextInSeries) != null) && ((temp.token != null) && (temp.token.getType() == CssLexer.LPAREN))); ParsedValueImpl[] stops = new ParsedValueImpl[nStops]; int stopIndex = 0; do { ParsedValueImpl<ParsedValue[],Stop> stop = stop(term); if (stop != null) stops[stopIndex++] = stop; prev = term; } while(((term = term.nextInSeries) != null) && (term.token.getType() == CssLexer.LPAREN)); // term is either null or is a cycle method, or the start of another Paint. ParsedValueImpl<String,CycleMethod> cycleMethod = cycleMethod(term); if (cycleMethod == null) { cycleMethod = new ParsedValueImpl<String,CycleMethod>(CycleMethod.NO_CYCLE.name(), new EnumConverter<CycleMethod>(CycleMethod.class)); // if term is not null and the last term was not a cycle method, // then term starts a new series or layer of Paint if (term != null) { root.nextInSeries = term; } // if term is null, then we are at the end of a series. // root points to 'linear', now we want the next term after root // to be the term after the last stop, which may be another layer else { root.nextInSeries = null; root.nextLayer = prev.nextLayer; } } else { // last term was a CycleMethod, so term is not null. // root points at 'linear', now we want the next term after root // to be the term after cyclemethod, which may be another series // of paint or another layer. // root.nextInSeries = term.nextInSeries; root.nextLayer = term.nextLayer; } ParsedValueImpl[] values = new ParsedValueImpl[5 + stops.length]; int index = 0; values[index++] = (startPt != null) ? startPt[0] : null; values[index++] = (startPt != null) ? startPt[1] : null; values[index++] = (endPt != null) ? endPt[0] : null; values[index++] = (endPt != null) ? endPt[1] : null; values[index++] = cycleMethod; for (int n=0; n<stops.length; n++) values[index++] = stops[n]; return new ParsedValueImpl<ParsedValue[], Paint>(values, PaintConverter.LinearGradientConverter.getInstance()); } // Based off http://dev.w3.org/csswg/css3-images/#linear-gradients // // <linear-gradient> = linear-gradient( // [ [from <point> to <point>] | [ to <side-or-corner> ] ] ,]? [ [ repeat | reflect ] ,]? // <color-stop>[, <color-stop>]+ // ) // // // <point> = <percentage> <percentage> | <length> <length> // <side-or-corner> = [left | right] || [top | bottom] // // If neither repeat nor reflect are given, then the CycleMethod defaults "NO_CYCLE". // If neither [from <point> to <point>] nor [ to <side-or-corner> ] are given, // then the gradient direction defaults to 'to bottom'. // Stops are per http://dev.w3.org/csswg/css3-images/#color-stop-syntax. private ParsedValueImpl parseLinearGradient(final Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (!"linear-gradient".regionMatches(true, 0, fn, 0, 15)) { final String msg = "Expected \'linear-gradient\'"; error(root, msg); } Term arg; if ((arg = root.firstArg) == null || arg.token == null || arg.token.getText().isEmpty()) { error(root, "Expected \'from <point> to <point>\' or \'to <side-or-corner>\' " + "or \'<cycle-method>\' or \'<color-stop>\'"); } Term prev = arg; // ParsedValueImpl<Size,Size> angleVal = null; ParsedValueImpl<?,Size>[] startPt = null; ParsedValueImpl<?,Size>[] endPt = null; if ("from".equalsIgnoreCase(arg.token.getText())) { prev = arg; if ((arg = arg.nextInSeries) == null) error(prev, "Expected \'<point>\'"); ParsedValueImpl<?,Size> ptX = parseSize(arg); prev = arg; if ((arg = arg.nextInSeries) == null) error(prev, "Expected \'<point>\'"); ParsedValueImpl<?,Size> ptY = parseSize(arg); startPt = new ParsedValueImpl[] { ptX, ptY }; prev = arg; if ((arg = arg.nextInSeries) == null) error(prev, "Expected \'to\'"); if (arg.token == null || arg.token.getType() != CssLexer.IDENT || !"to".equalsIgnoreCase(arg.token.getText())) error(prev, "Expected \'to\'"); prev = arg; if ((arg = arg.nextInSeries) == null) error(prev, "Expected \'<point>\'"); ptX = parseSize(arg); prev = arg; if ((arg = arg.nextInSeries) == null) error(prev, "Expected \'<point>\'"); ptY = parseSize(arg); endPt = new ParsedValueImpl[] { ptX, ptY }; prev = arg; arg = arg.nextArg; } else if("to".equalsIgnoreCase(arg.token.getText())) { prev = arg; if ((arg = arg.nextInSeries) == null || arg.token == null || arg.token.getType() != CssLexer.IDENT || arg.token.getText().isEmpty()) { error (prev, "Expected \'<side-or-corner>\'"); } int startX = 0; int startY = 0; int endX = 0; int endY = 0; String sideOrCorner1 = arg.token.getText().toLowerCase(Locale.ROOT); // The keywords denote the direction. if ("top".equals(sideOrCorner1)) { // going toward the top, then start at the bottom startY = 100; endY = 0; } else if ("bottom".equals(sideOrCorner1)) { // going toward the bottom, then start at the top startY = 0; endY = 100; } else if ("right".equals(sideOrCorner1)) { // going toward the right, then start at the left startX = 0; endX = 100; } else if ("left".equals(sideOrCorner1)) { // going toward the left, then start at the right startX = 100; endX = 0; } else { error(arg, "Invalid \'<side-or-corner>\'"); } prev = arg; if (arg.nextInSeries != null) { arg = arg.nextInSeries; if (arg.token != null && arg.token.getType() == CssLexer.IDENT && !arg.token.getText().isEmpty()) { String sideOrCorner2 = arg.token.getText().toLowerCase(Locale.ROOT); // if right or left has already been given, // then either startX or endX will not be zero. if ("right".equals(sideOrCorner2) && startX == 0 && endX == 0) { // start left, end right startX = 0; endX = 100; } else if ("left".equals(sideOrCorner2) && startX == 0 && endX == 0) { // start right, end left startX = 100; endX = 0; // if top or bottom has already been given, // then either startY or endY will not be zero. } else if("top".equals(sideOrCorner2) && startY == 0 && endY == 0) { // start bottom, end top startY = 100; endY = 0; } else if ("bottom".equals(sideOrCorner2) && startY == 0 && endY == 0) { // start top, end bottom startY = 0; endY = 100; } else { error(arg, "Invalid \'<side-or-corner>\'"); } } else { error (prev, "Expected \'<side-or-corner>\'"); } } startPt = new ParsedValueImpl[] { new ParsedValueImpl<Size,Size>(new Size(startX, SizeUnits.PERCENT), null), new ParsedValueImpl<Size,Size>(new Size(startY, SizeUnits.PERCENT), null) }; endPt = new ParsedValueImpl[] { new ParsedValueImpl<Size,Size>(new Size(endX, SizeUnits.PERCENT), null), new ParsedValueImpl<Size,Size>(new Size(endY, SizeUnits.PERCENT), null) }; prev = arg; arg = arg.nextArg; } if (startPt == null && endPt == null) { // spec says defaults to bottom startPt = new ParsedValueImpl[] { new ParsedValueImpl<Size,Size>(new Size(0, SizeUnits.PERCENT), null), new ParsedValueImpl<Size,Size>(new Size(0, SizeUnits.PERCENT), null) }; endPt = new ParsedValueImpl[] { new ParsedValueImpl<Size,Size>(new Size(0, SizeUnits.PERCENT), null), new ParsedValueImpl<Size,Size>(new Size(100, SizeUnits.PERCENT), null) }; } if (arg == null || arg.token == null || arg.token.getText().isEmpty()) { error(prev, "Expected \'<cycle-method>\' or \'<color-stop>\'"); } CycleMethod cycleMethod = CycleMethod.NO_CYCLE; if ("reflect".equalsIgnoreCase(arg.token.getText())) { cycleMethod = CycleMethod.REFLECT; prev = arg; arg = arg.nextArg; } else if ("repeat".equalsIgnoreCase(arg.token.getText())) { cycleMethod = CycleMethod.REFLECT; prev = arg; arg = arg.nextArg; } if (arg == null || arg.token == null || arg.token.getText().isEmpty()) { error(prev, "Expected \'<color-stop>\'"); } ParsedValueImpl<ParsedValue[],Stop>[] stops = parseColorStops(arg); ParsedValueImpl[] values = new ParsedValueImpl[5 + stops.length]; int index = 0; values[index++] = (startPt != null) ? startPt[0] : null; values[index++] = (startPt != null) ? startPt[1] : null; values[index++] = (endPt != null) ? endPt[0] : null; values[index++] = (endPt != null) ? endPt[1] : null; values[index++] = new ParsedValueImpl<String,CycleMethod>(cycleMethod.name(), new EnumConverter<CycleMethod>(CycleMethod.class)); for (int n=0; n<stops.length; n++) values[index++] = stops[n]; return new ParsedValueImpl<ParsedValue[], Paint>(values, PaintConverter.LinearGradientConverter.getInstance()); } // radial [focus-angle <number | percent>]? [focus-distance <size>]? // [center (<size>,<size>)]? <size> // stops [ ( <number> , <color> ) ]+ [ repeat | reflect ]? private ParsedValueImpl<ParsedValue[], Paint> radialGradient(final Term root) throws ParseException { final String fn = (root.token != null) ? root.token.getText() : null; if (fn == null || !"radial".equalsIgnoreCase(fn)) { final String msg = "Expected \'radial\'"; error(root, msg); } if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(formatDeprecatedMessage(root, "radial gradient")); } Term term = root; Term prev = root; if ((term = term.nextInSeries) == null) error(root, "Expected \'focus-angle <number>\', \'focus-distance <number>\', \'center (<number>,<number>)\' or \'<size>\'"); if (term.token == null) error(term, "Expected \'focus-angle <number>\', \'focus-distance <number>\', \'center (<number>,<number>)\' or \'<size>\'"); ParsedValueImpl<?,Size> focusAngle = null; if (term.token.getType() == CssLexer.IDENT) { final String keyword = term.token.getText().toLowerCase(Locale.ROOT); if ("focus-angle".equals(keyword)) { prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'<number>\'"); if (term.token == null) error(prev, "Expected \'<number>\'"); focusAngle = parseSize(term); prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'focus-distance <number>\', \'center (<number>,<number>)\' or \'<size>\'"); if (term.token == null) error(term, "Expected \'focus-distance <number>\', \'center (<number>,<number>)\' or \'<size>\'"); } } ParsedValueImpl<?,Size> focusDistance = null; if (term.token.getType() == CssLexer.IDENT) { final String keyword = term.token.getText().toLowerCase(Locale.ROOT); if ("focus-distance".equals(keyword)) { prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'<number>\'"); if (term.token == null) error(prev, "Expected \'<number>\'"); focusDistance = parseSize(term); prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'center (<number>,<number>)\' or \'<size>\'"); if (term.token == null) error(term, "Expected \'center (<number>,<number>)\' or \'<size>\'"); } } ParsedValueImpl<?,Size>[] centerPoint = null; if (term.token.getType() == CssLexer.IDENT) { final String keyword = term.token.getText().toLowerCase(Locale.ROOT); if ("center".equals(keyword)) { prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'(<number>,<number>)\'"); if (term.token == null || term.token.getType() != CssLexer.LPAREN) error(term, "Expected \'(<number>,<number>)\'"); centerPoint = point(term); prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'<size>\'"); if (term.token == null) error(term, "Expected \'<size>\'"); } } ParsedValueImpl<?,Size> radius = parseSize(term); prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'stops\' keyword"); if (term.token == null || term.token.getType() != CssLexer.IDENT) error(term, "Expected \'stops\' keyword"); if (!"stops".equalsIgnoreCase(term.token.getText())) error(term, "Expected \'stops\'"); prev = term; if ((term = term.nextInSeries) == null) error(prev, "Expected \'(<number>, <number>)\'"); int nStops = 0; Term temp = term; do { nStops += 1; // if next token type is IDENT, then we have CycleMethod } while (((temp = temp.nextInSeries) != null) && ((temp.token != null) && (temp.token.getType() == CssLexer.LPAREN))); ParsedValueImpl[] stops = new ParsedValueImpl[nStops]; int stopIndex = 0; do { ParsedValueImpl<ParsedValue[],Stop> stop = stop(term); if (stop != null) stops[stopIndex++] = stop; prev = term; } while(((term = term.nextInSeries) != null) && (term.token.getType() == CssLexer.LPAREN)); // term is either null or is a cycle method, or the start of another Paint. ParsedValueImpl<String,CycleMethod> cycleMethod = cycleMethod(term); if (cycleMethod == null) { cycleMethod = new ParsedValueImpl<String,CycleMethod>(CycleMethod.NO_CYCLE.name(), new EnumConverter<CycleMethod>(CycleMethod.class)); // if term is not null and the last term was not a cycle method, // then term starts a new series or layer of Paint if (term != null) { root.nextInSeries = term; } // if term is null, then we are at the end of a series. // root points to 'linear', now we want the next term after root // to be the term after the last stop, which may be another layer else { root.nextInSeries = null; root.nextLayer = prev.nextLayer; } } else { // last term was a CycleMethod, so term is not null. // root points at 'linear', now we want the next term after root // to be the term after cyclemethod, which may be another series // of paint or another layer. // root.nextInSeries = term.nextInSeries; root.nextLayer = term.nextLayer; } ParsedValueImpl[] values = new ParsedValueImpl[6 + stops.length]; int index = 0; values[index++] = focusAngle; values[index++] = focusDistance; values[index++] = (centerPoint != null) ? centerPoint[0] : null; values[index++] = (centerPoint != null) ? centerPoint[1] : null; values[index++] = radius; values[index++] = cycleMethod; for (int n=0; n<stops.length; n++) values[index++] = stops[n]; return new ParsedValueImpl<ParsedValue[], Paint>(values, PaintConverter.RadialGradientConverter.getInstance()); } // Based off http://dev.w3.org/csswg/css3-images/#radial-gradients // // <radial-gradient> = radial-gradient( // [ focus-angle <angle>, ]? // [ focus-distance <percentage>, ]? // [ center <point>, ]? // radius <length>, // [ [ repeat | reflect ] ,]? // <color-stop>[, <color-stop>]+ ) // // Stops are per http://dev.w3.org/csswg/css3-images/#color-stop-syntax. private ParsedValueImpl parseRadialGradient(final Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (!"radial-gradient".regionMatches(true, 0, fn, 0, 15)) { final String msg = "Expected \'radial-gradient\'"; error(root, msg); } Term arg; if ((arg = root.firstArg) == null || arg.token == null || arg.token.getText().isEmpty()) { error(root, "Expected \'focus-angle <angle>\' " + "or \'focus-distance <percentage>\' " + "or \'center <point>\' " + "or \'radius [<length> | <percentage>]\'"); } Term prev = arg; ParsedValueImpl<?,Size>focusAngle = null; ParsedValueImpl<?,Size>focusDistance = null; ParsedValueImpl<?,Size>[] centerPoint = null; ParsedValueImpl<?,Size>radius = null; if ("focus-angle".equalsIgnoreCase(arg.token.getText())) { prev = arg; if ((arg = arg.nextInSeries) == null || !isSize(arg.token)) error(prev, "Expected \'<angle>\'"); Size angle = size(arg.token); switch(angle.getUnits()) { case DEG: case RAD: case GRAD: case TURN: case PX: break; default: error(arg, "Expected [deg | rad | grad | turn ]"); } focusAngle = new ParsedValueImpl<Size,Size>(angle, null); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'focus-distance <percentage>\' " + "or \'center <point>\' " + "or \'radius [<length> | <percentage>]\'"); } if ("focus-distance".equalsIgnoreCase(arg.token.getText())) { prev = arg; if ((arg = arg.nextInSeries) == null || !isSize(arg.token)) error(prev, "Expected \'<percentage>\'"); Size distance = size(arg.token); // "The focus point is always specified relative to the center // point by an angle and a distance relative to the radius." switch(distance.getUnits()) { case PERCENT: break; default: error(arg, "Expected \'%\'"); } focusDistance = new ParsedValueImpl<Size,Size>(distance, null); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'center <center>\' " + "or \'radius <length>\'"); } if ("center".equalsIgnoreCase(arg.token.getText())) { prev = arg; if ((arg = arg.nextInSeries) == null) error(prev, "Expected \'<point>\'"); ParsedValueImpl<?,Size> ptX = parseSize(arg); prev = arg; if ((arg = arg.nextInSeries) == null) error(prev, "Expected \'<point>\'"); ParsedValueImpl<?,Size> ptY = parseSize(arg); centerPoint = new ParsedValueImpl[] { ptX, ptY }; prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'radius [<length> | <percentage>]\'"); } if ("radius".equalsIgnoreCase(arg.token.getText())) { prev = arg; if ((arg = arg.nextInSeries) == null || !isSize(arg.token)) error(prev, "Expected \'[<length> | <percentage>]\'"); radius = parseSize(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'radius [<length> | <percentage>]\'"); } CycleMethod cycleMethod = CycleMethod.NO_CYCLE; if ("reflect".equalsIgnoreCase(arg.token.getText())) { cycleMethod = CycleMethod.REFLECT; prev = arg; arg = arg.nextArg; } else if ("repeat".equalsIgnoreCase(arg.token.getText())) { cycleMethod = CycleMethod.REFLECT; prev = arg; arg = arg.nextArg; } if (arg == null || arg.token == null || arg.token.getText().isEmpty()) { error(prev, "Expected \'<color-stop>\'"); } ParsedValueImpl<ParsedValue[],Stop>[] stops = parseColorStops(arg); ParsedValueImpl[] values = new ParsedValueImpl[6 + stops.length]; int index = 0; values[index++] = focusAngle; values[index++] = focusDistance; values[index++] = (centerPoint != null) ? centerPoint[0] : null; values[index++] = (centerPoint != null) ? centerPoint[1] : null; values[index++] = radius; values[index++] = new ParsedValueImpl<String,CycleMethod>(cycleMethod.name(), new EnumConverter<CycleMethod>(CycleMethod.class)); for (int n=0; n<stops.length; n++) values[index++] = stops[n]; return new ParsedValueImpl<ParsedValue[], Paint>(values, PaintConverter.RadialGradientConverter.getInstance()); } // Based off ImagePattern constructor // // image-pattern(<uri-string>[,<size>,<size>,<size>,<size>[,<boolean>]?]?) // private ParsedValueImpl<ParsedValue[], Paint> parseImagePattern(final Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (!"image-pattern".regionMatches(true, 0, fn, 0, 13)) { final String msg = "Expected \'image-pattern\'"; error(root, msg); } Term arg; if ((arg = root.firstArg) == null || arg.token == null || arg.token.getText().isEmpty()) { error(root, "Expected \'<uri-string>\'"); } Term prev = arg; final String uri = arg.token.getText(); ParsedValueImpl[] uriValues = new ParsedValueImpl[] { new ParsedValueImpl<String,String>(uri, StringConverter.getInstance()), null // placeholder for Stylesheet URL }; ParsedValueImpl parsedURI = new ParsedValueImpl<ParsedValue[],String>(uriValues, URLConverter.getInstance()); // If nextArg is null, then there are no remaining arguments, so we are done. if (arg.nextArg == null) { ParsedValueImpl[] values = new ParsedValueImpl[1]; values[0] = parsedURI; return new ParsedValueImpl<ParsedValue[], Paint>(values, PaintConverter.ImagePatternConverter.getInstance()); } // There must now be 4 sizes in a row. Token token; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<size>\'"); ParsedValueImpl<?, Size> x = parseSize(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<size>\'"); ParsedValueImpl<?, Size> y = parseSize(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<size>\'"); ParsedValueImpl<?, Size> w = parseSize(arg); prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<size>\'"); ParsedValueImpl<?, Size> h = parseSize(arg); // If there are no more args, then we are done. if (arg.nextArg == null) { ParsedValueImpl[] values = new ParsedValueImpl[5]; values[0] = parsedURI; values[1] = x; values[2] = y; values[3] = w; values[4] = h; return new ParsedValueImpl<ParsedValue[], Paint>(values, PaintConverter.ImagePatternConverter.getInstance()); } prev = arg; if ((arg = arg.nextArg) == null) error(prev, "Expected \'<boolean>\'"); if ((token = arg.token) == null || token.getText() == null) error(arg, "Expected \'<boolean>\'"); ParsedValueImpl[] values = new ParsedValueImpl[6]; values[0] = parsedURI; values[1] = x; values[2] = y; values[3] = w; values[4] = h; values[5] = new ParsedValueImpl<Boolean, Boolean>(Boolean.parseBoolean(token.getText()), null); return new ParsedValueImpl<ParsedValue[], Paint>(values, PaintConverter.ImagePatternConverter.getInstance()); } // For tiling ImagePatterns easily. // // repeating-image-pattern(<uri-string>) // private ParsedValueImpl<ParsedValue[], Paint> parseRepeatingImagePattern(final Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (!"repeating-image-pattern".regionMatches(true, 0, fn, 0, 23)) { final String msg = "Expected \'repeating-image-pattern\'"; error(root, msg); } Term arg; if ((arg = root.firstArg) == null || arg.token == null || arg.token.getText().isEmpty()) { error(root, "Expected \'<uri-string>\'"); } final String uri = arg.token.getText(); ParsedValueImpl[] uriValues = new ParsedValueImpl[] { new ParsedValueImpl<String,String>(uri, StringConverter.getInstance()), null // placeholder for Stylesheet URL }; ParsedValueImpl parsedURI = new ParsedValueImpl<ParsedValue[],String>(uriValues, URLConverter.getInstance()); ParsedValueImpl[] values = new ParsedValueImpl[1]; values[0] = parsedURI; return new ParsedValueImpl<ParsedValue[], Paint>(values, PaintConverter.RepeatingImagePatternConverter.getInstance()); } // parse a series of paint values separated by commas. // i.e., <paint> [, <paint>]* private ParsedValueImpl<ParsedValue<?,Paint>[],Paint[]> parsePaintLayers(Term root) throws ParseException { // how many paints in the series? int nPaints = numberOfLayers(root); ParsedValueImpl<?,Paint>[] paints = new ParsedValueImpl[nPaints]; Term temp = root; int paint = 0; do { if (temp.token == null || temp.token.getText() == null || temp.token.getText().isEmpty()) error(temp, "Expected \'<paint>\'"); paints[paint++] = (ParsedValueImpl<?,Paint>)parse(temp); temp = nextLayer(temp); } while (temp != null); return new ParsedValueImpl<ParsedValue<?,Paint>[],Paint[]>(paints, PaintConverter.SequenceConverter.getInstance()); } // An size or a series of four size values // <size> | <size> <size> <size> <size> private ParsedValueImpl<?,Size>[] parseSize1to4(final Term root) throws ParseException { Term temp = root; ParsedValueImpl<?,Size>[] sides = new ParsedValueImpl[4]; int side = 0; while (side < 4 && temp != null) { sides[side++] = parseSize(temp); temp = temp.nextInSeries; } if (side < 2) sides[1] = sides[0]; // right = top if (side < 3) sides[2] = sides[0]; // bottom = top if (side < 4) sides[3] = sides[1]; // left = right return sides; } // A series of inset or sets of four inset values // <size> | <size> <size> <size> <size> [ , [ <size> | <size> <size> <size> <size>] ]* private ParsedValueImpl<ParsedValue<ParsedValue[],Insets>[], Insets[]> parseInsetsLayers(Term root) throws ParseException { int nLayers = numberOfLayers(root); Term temp = root; int layer = 0; ParsedValueImpl<ParsedValue[],Insets>[] layers = new ParsedValueImpl[nLayers]; while(temp != null) { ParsedValueImpl<?,Size>[] sides = parseSize1to4(temp); layers[layer++] = new ParsedValueImpl<ParsedValue[],Insets>(sides, InsetsConverter.getInstance()); while(temp.nextInSeries != null) { temp = temp.nextInSeries; } temp = nextLayer(temp); } return new ParsedValueImpl<ParsedValue<ParsedValue[],Insets>[], Insets[]>(layers, InsetsConverter.SequenceConverter.getInstance()); } // A single inset (1, 2, 3, or 4 digits) // <size> | <size> <size> <size> <size> private ParsedValueImpl<ParsedValue[],Insets> parseInsetsLayer(Term root) throws ParseException { Term temp = root; ParsedValueImpl<ParsedValue[],Insets> layer = null; while(temp != null) { ParsedValueImpl<?,Size>[] sides = parseSize1to4(temp); layer = new ParsedValueImpl<ParsedValue[],Insets>(sides, InsetsConverter.getInstance()); while(temp.nextInSeries != null) { temp = temp.nextInSeries; } temp = nextLayer(temp); } return layer; } // <size> | <size> <size> <size> <size> private ParsedValueImpl<ParsedValue<ParsedValue[],Margins>[], Margins[]> parseMarginsLayers(Term root) throws ParseException { int nLayers = numberOfLayers(root); Term temp = root; int layer = 0; ParsedValueImpl<ParsedValue[],Margins>[] layers = new ParsedValueImpl[nLayers]; while(temp != null) { ParsedValueImpl<?,Size>[] sides = parseSize1to4(temp); layers[layer++] = new ParsedValueImpl<ParsedValue[],Margins>(sides, Margins.Converter.getInstance()); while(temp.nextInSeries != null) { temp = temp.nextInSeries; } temp = nextLayer(temp); } return new ParsedValueImpl<ParsedValue<ParsedValue[],Margins>[], Margins[]>(layers, Margins.SequenceConverter.getInstance()); } // <size> | <size> <size> <size> <size> private ParsedValueImpl<Size, Size>[] parseSizeSeries(Term root) throws ParseException { if (root.token == null) error(root, "Parse error"); List<ParsedValueImpl<Size,Size>> sizes = new ArrayList<>(); Term term = root; while(term != null) { Token token = term.token; final int ttype = token.getType(); switch (ttype) { case CssLexer.NUMBER: case CssLexer.PERCENTAGE: case CssLexer.EMS: case CssLexer.EXS: case CssLexer.PX: case CssLexer.CM: case CssLexer.MM: case CssLexer.IN: case CssLexer.PT: case CssLexer.PC: case CssLexer.DEG: case CssLexer.GRAD: case CssLexer.RAD: case CssLexer.TURN: ParsedValueImpl sizeValue = new ParsedValueImpl<Size, Size>(size(token), null); sizes.add(sizeValue); break; default: error (root, "expected series of <size>"); } term = term.nextInSeries; } return sizes.toArray(new ParsedValueImpl[sizes.size()]); } // http://www.w3.org/TR/css3-background/#the-border-radius // <size>{1,4} [ '/' <size>{1,4}]? [',' <size>{1,4} [ '/' <size>{1,4}]?]? private ParsedValueImpl<ParsedValue<ParsedValue<?,Size>[][],CornerRadii>[], CornerRadii[]> parseCornerRadius(Term root) throws ParseException { int nLayers = numberOfLayers(root); Term term = root; int layer = 0; ParsedValueImpl<ParsedValue<?,Size>[][],CornerRadii>[] layers = new ParsedValueImpl[nLayers]; while(term != null) { int nHorizontalTerms = 0; Term temp = term; while (temp != null) { if (temp.token.getType() == CssLexer.SOLIDUS) { temp = temp.nextInSeries; break; } nHorizontalTerms += 1; temp = temp.nextInSeries; }; int nVerticalTerms = 0; while (temp != null) { if (temp.token.getType() == CssLexer.SOLIDUS) { error(temp, "unexpected SOLIDUS"); break; } nVerticalTerms += 1; temp = temp.nextInSeries; } if ((nHorizontalTerms == 0 || nHorizontalTerms > 4) || nVerticalTerms > 4) { error(root, "expected [<length>|<percentage>]{1,4} [/ [<length>|<percentage>]{1,4}]?"); } // used as index into margins[]. horizontal = 0, vertical = 1 int orientation = 0; // at most, there should be four radii in the horizontal orientation and four in the vertical. ParsedValueImpl<?,Size>[][] radii = new ParsedValueImpl[2][4]; ParsedValueImpl<?,Size> zero = new ParsedValueImpl<Size,Size>(new Size(0,SizeUnits.PX), null); for (int r=0; r<4; r++) { radii[0][r] = zero; radii[1][r] = zero; } int hr = 0; int vr = 0; Term lastTerm = term; while ((hr <= 4) && (vr <= 4) && (term != null)) { if (term.token.getType() == CssLexer.SOLIDUS) { orientation += 1; } else { ParsedValueImpl<?,Size> parsedValue = parseSize(term); if (orientation == 0) { radii[orientation][hr++] = parsedValue; } else { radii[orientation][vr++] = parsedValue; } } lastTerm = term; term = term.nextInSeries; } // // http://www.w3.org/TR/css3-background/#the-border-radius // The four values for each radii are given in the order top-left, top-right, bottom-right, bottom-left. // If bottom-left is omitted it is the same as top-right. // If bottom-right is omitted it is the same as top-left. // If top-right is omitted it is the same as top-left. // // If there is no vertical component, then set both equally. // If either is zero, then both are zero. // // if hr == 0, then there were no horizontal radii (which would be an error caught above) if (hr != 0) { if (hr < 2) radii[0][1] = radii[0][0]; // top-right = top-left if (hr < 3) radii[0][2] = radii[0][0]; // bottom-right = top-left if (hr < 4) radii[0][3] = radii[0][1]; // bottom-left = top-right } else { assert(false); } // if vr == 0, then there were no vertical radii if (vr != 0) { if (vr < 2) radii[1][1] = radii[1][0]; // top-right = top-left if (vr < 3) radii[1][2] = radii[1][0]; // bottom-right = top-left if (vr < 4) radii[1][3] = radii[1][1]; // bottom-left = top-right } else { // if no vertical, the vertical value is same as horizontal radii[1][0] = radii[0][0]; radii[1][1] = radii[0][1]; radii[1][2] = radii[0][2]; radii[1][3] = radii[0][3]; } // if either is zero, both are zero if (zero.equals(radii[0][0]) || zero.equals(radii[1][0])) { radii[1][0] = radii[0][0] = zero; } if (zero.equals(radii[0][1]) || zero.equals(radii[1][1])) { radii[1][1] = radii[0][1] = zero; } if (zero.equals(radii[0][2]) || zero.equals(radii[1][2])) { radii[1][2] = radii[0][2] = zero; } if (zero.equals(radii[0][3]) || zero.equals(radii[1][3])) { radii[1][3] = radii[0][3] = zero; } layers[layer++] = new ParsedValueImpl<ParsedValue<?,Size>[][],CornerRadii>(radii, null); term = nextLayer(lastTerm); } return new ParsedValueImpl<ParsedValue<ParsedValue<?,Size>[][],CornerRadii>[], CornerRadii[]>(layers, CornerRadiiConverter.getInstance()); } /* Constant for background position */ private final static ParsedValueImpl<Size,Size> ZERO_PERCENT = new ParsedValueImpl<Size,Size>(new Size(0f, SizeUnits.PERCENT), null); /* Constant for background position */ private final static ParsedValueImpl<Size,Size> FIFTY_PERCENT = new ParsedValueImpl<Size,Size>(new Size(50f, SizeUnits.PERCENT), null); /* Constant for background position */ private final static ParsedValueImpl<Size,Size> ONE_HUNDRED_PERCENT = new ParsedValueImpl<Size,Size>(new Size(100f, SizeUnits.PERCENT), null); private static boolean isPositionKeyWord(String value) { return "center".equalsIgnoreCase(value) || "top".equalsIgnoreCase(value) || "bottom".equalsIgnoreCase(value) || "left".equalsIgnoreCase(value) || "right".equalsIgnoreCase(value); } /* * http://www.w3.org/TR/css3-background/#the-background-position * * <bg-position> = [ * [ top | bottom ] * | * [ <percentage> | <length> | left | center | right ] * [ <percentage> | <length> | top | center | bottom ]? * | * [ center | [ left | right ] [ <percentage> | <length> ]? ] && * [ center | [ top | bottom ] [ <percentage> | <length> ]? ] * ] * * From the W3 spec: * * returned ParsedValueImpl is [size, size, size, size] with the semantics * [top offset, right offset, bottom offset left offset] */ private ParsedValueImpl<ParsedValue[], BackgroundPosition> parseBackgroundPosition(Term term) throws ParseException { if (term.token == null || term.token.getText() == null || term.token.getText().isEmpty()) error(term, "Expected \'<bg-position>\'"); Term termOne = term; Token valueOne = term.token; Term termTwo = termOne.nextInSeries; Token valueTwo = (termTwo != null) ? termTwo.token : null; Term termThree = (termTwo != null) ? termTwo.nextInSeries : null; Token valueThree = (termThree != null) ? termThree.token : null; Term termFour = (termThree != null) ? termThree.nextInSeries : null; Token valueFour = (termFour != null) ? termFour.token : null; // are the horizontal and vertical exchanged if( valueOne != null && valueTwo != null && valueThree == null && valueFour == null ) { // 2 values filled String v1 = valueOne.getText(); String v2 = valueTwo.getText(); if( ("top".equals(v1) || "bottom".equals(v1)) && ("left".equals(v2) || "right".equals(v2) || "center".equals(v2)) ) { { Token tmp = valueTwo; valueTwo = valueOne; valueOne = tmp; } { Term tmp = termTwo; termTwo = termOne; termOne = tmp; } } } else if( valueOne != null && valueTwo != null && valueThree != null ) { Term[] termArray = null; Token[] tokeArray = null; // 4 values filled if( valueFour != null ) { if( ("top".equals(valueOne.getText()) || "bottom".equals(valueOne.getText())) && ("left".equals(valueThree.getText()) || "right".equals(valueThree.getText())) ) { // e.g. top 50 left 20 termArray = new Term[] { termThree, termFour, termOne, termTwo }; tokeArray = new Token[] { valueThree, valueFour, valueOne, valueTwo }; } } else { if( ("top".equals(valueOne.getText()) || "bottom".equals(valueOne.getText())) ) { if( ("left".equals(valueTwo.getText()) || "right".equals(valueTwo.getText())) ) { // e.g. top left 50 termArray = new Term[] { termTwo, termThree, termOne, null }; tokeArray = new Token[] { valueTwo, valueThree, valueOne, null }; } else { // e.g. top 50 left termArray = new Term[] { termThree, termOne, termTwo, null }; tokeArray = new Token[] { valueThree, valueOne, valueTwo, null }; } } } if( termArray != null ) { termOne = termArray[0]; termTwo = termArray[1]; termThree = termArray[2]; termFour = termArray[3]; valueOne = tokeArray[0]; valueTwo = tokeArray[1]; valueThree = tokeArray[2]; valueFour = tokeArray[3]; } } ParsedValueImpl<?,Size> top, right, bottom, left; top = right = bottom = left = ZERO_PERCENT; { if(valueOne == null && valueTwo == null && valueThree == null && valueFour == null) { error(term, "No value found for background-position"); } else if( valueOne != null && valueTwo == null && valueThree == null && valueFour == null ) { // Only one value String v1 = valueOne.getText(); if( "center".equals(v1) ) { left = FIFTY_PERCENT; right = ZERO_PERCENT; top = FIFTY_PERCENT; bottom = ZERO_PERCENT; } else if("left".equals(v1)) { left = ZERO_PERCENT; right = ZERO_PERCENT; top = FIFTY_PERCENT; bottom = ZERO_PERCENT; } else if( "right".equals(v1) ) { left = ONE_HUNDRED_PERCENT; right = ZERO_PERCENT; top = FIFTY_PERCENT; bottom = ZERO_PERCENT; } else if( "top".equals(v1) ) { left = FIFTY_PERCENT; right = ZERO_PERCENT; top = ZERO_PERCENT; bottom = ZERO_PERCENT; } else if( "bottom".equals(v1) ) { left = FIFTY_PERCENT; right = ZERO_PERCENT; top = ONE_HUNDRED_PERCENT; bottom = ZERO_PERCENT; } else { left = parseSize(termOne); right = ZERO_PERCENT; top = FIFTY_PERCENT; bottom = ZERO_PERCENT; } } else if( valueOne != null && valueTwo != null && valueThree == null && valueFour == null ) { // 2 values String v1 = valueOne.getText().toLowerCase(Locale.ROOT); String v2 = valueTwo.getText().toLowerCase(Locale.ROOT); if( ! isPositionKeyWord(v1) ) { left = parseSize(termOne); right = ZERO_PERCENT; if( "top".equals(v2) ) { top = ZERO_PERCENT; bottom = ZERO_PERCENT; } else if( "bottom".equals(v2) ) { top = ONE_HUNDRED_PERCENT; bottom = ZERO_PERCENT; } else if( "center".equals(v2) ) { top = FIFTY_PERCENT; bottom = ZERO_PERCENT; } else if( !isPositionKeyWord(v2) ) { top = parseSize(termTwo); bottom = ZERO_PERCENT; } else { error(termTwo,"Expected 'top', 'bottom', 'center' or <size>"); } } else if( v1.equals("left") || v1.equals("right") ) { left = v1.equals("right") ? ONE_HUNDRED_PERCENT : ZERO_PERCENT; right = ZERO_PERCENT; if( ! isPositionKeyWord(v2) ) { top = parseSize(termTwo); bottom = ZERO_PERCENT; } else if( v2.equals("top") || v2.equals("bottom") || v2.equals("center") ) { if( v2.equals("top") ) { top = ZERO_PERCENT; bottom = ZERO_PERCENT; } else if(v2.equals("center")) { top = FIFTY_PERCENT; bottom = ZERO_PERCENT; } else { top = ONE_HUNDRED_PERCENT; bottom = ZERO_PERCENT; } } else { error(termTwo,"Expected 'top', 'bottom', 'center' or <size>"); } } else if( v1.equals("center") ) { left = FIFTY_PERCENT; right = ZERO_PERCENT; if( v2.equals("top") ) { top = ZERO_PERCENT; bottom = ZERO_PERCENT; } else if( v2.equals("bottom") ) { top = ONE_HUNDRED_PERCENT; bottom = ZERO_PERCENT; } else if( v2.equals("center") ) { top = FIFTY_PERCENT; bottom = ZERO_PERCENT; } else if( ! isPositionKeyWord(v2) ) { top = parseSize(termTwo); bottom = ZERO_PERCENT; } else { error(termTwo,"Expected 'top', 'bottom', 'center' or <size>"); } } } else if( valueOne != null && valueTwo != null && valueThree != null && valueFour == null ) { String v1 = valueOne.getText().toLowerCase(Locale.ROOT); String v2 = valueTwo.getText().toLowerCase(Locale.ROOT); String v3 = valueThree.getText().toLowerCase(Locale.ROOT); if( ! isPositionKeyWord(v1) || "center".equals(v1) ) { // 1 is horizontal // means 2 & 3 are vertical if( "center".equals(v1) ) { left = FIFTY_PERCENT; } else { left = parseSize(termOne); } right = ZERO_PERCENT; if( !isPositionKeyWord(v3) ) { if( "top".equals(v2) ) { top = parseSize(termThree); bottom = ZERO_PERCENT; } else if( "bottom".equals(v2) ) { top = ZERO_PERCENT; bottom = parseSize(termThree); } else { error(termTwo,"Expected 'top' or 'bottom'"); } } else { error(termThree,"Expected <size>"); } } else if( "left".equals(v1) || "right".equals(v1) ) { if( ! isPositionKeyWord(v2) ) { // 1 & 2 are horizontal // 3 is vertical if( "left".equals(v1) ) { left = parseSize(termTwo); right = ZERO_PERCENT; } else { left = ZERO_PERCENT; right = parseSize(termTwo); } if( "top".equals(v3) ) { top = ZERO_PERCENT; bottom = ZERO_PERCENT; } else if( "bottom".equals(v3) ) { top = ONE_HUNDRED_PERCENT; bottom = ZERO_PERCENT; } else if( "center".equals(v3) ) { top = FIFTY_PERCENT; bottom = ZERO_PERCENT; } else { error(termThree,"Expected 'top', 'bottom' or 'center'"); } } else { // 1 is horizontal // 2 & 3 are vertical if( "left".equals(v1) ) { left = ZERO_PERCENT; right = ZERO_PERCENT; } else { left = ONE_HUNDRED_PERCENT; right = ZERO_PERCENT; } if( ! isPositionKeyWord(v3) ) { if( "top".equals(v2) ) { top = parseSize(termThree); bottom = ZERO_PERCENT; } else if( "bottom".equals(v2) ) { top = ZERO_PERCENT; bottom = parseSize(termThree); } else { error(termTwo,"Expected 'top' or 'bottom'"); } } else { error(termThree,"Expected <size>"); } } } } else { String v1 = valueOne.getText().toLowerCase(Locale.ROOT); String v2 = valueTwo.getText().toLowerCase(Locale.ROOT); String v3 = valueThree.getText().toLowerCase(Locale.ROOT); String v4 = valueFour.getText().toLowerCase(Locale.ROOT); if( (v1.equals("left") || v1.equals("right")) && (v3.equals("top") || v3.equals("bottom") ) && ! isPositionKeyWord(v2) && ! isPositionKeyWord(v4) ) { if( v1.equals("left") ) { left = parseSize(termTwo); right = ZERO_PERCENT; } else { left = ZERO_PERCENT; right = parseSize(termTwo); } if( v3.equals("top") ) { top = parseSize(termFour); bottom = ZERO_PERCENT; } else { top = ZERO_PERCENT; bottom = parseSize(termFour); } } else { error(term,"Expected 'left' or 'right' followed by <size> followed by 'top' or 'bottom' followed by <size>"); } } } ParsedValueImpl<?,Size>[] values = new ParsedValueImpl[] {top, right, bottom, left}; return new ParsedValueImpl<ParsedValue[], BackgroundPosition>(values, BackgroundPositionConverter.getInstance()); } private ParsedValueImpl<ParsedValue<ParsedValue[], BackgroundPosition>[], BackgroundPosition[]> parseBackgroundPositionLayers(final Term root) throws ParseException { int nLayers = numberOfLayers(root); ParsedValueImpl<ParsedValue[], BackgroundPosition>[] layers = new ParsedValueImpl[nLayers]; int layer = 0; Term term = root; while (term != null) { layers[layer++] = parseBackgroundPosition(term); term = nextLayer(term); } return new ParsedValueImpl<ParsedValue<ParsedValue[], BackgroundPosition>[], BackgroundPosition[]>(layers, LayeredBackgroundPositionConverter.getInstance()); } /* http://www.w3.org/TR/css3-background/#the-background-repeat <repeat-style> = repeat-x | repeat-y | [repeat | space | round | no-repeat]{1,2} */ private ParsedValueImpl<String, BackgroundRepeat>[] parseRepeatStyle(final Term root) throws ParseException { BackgroundRepeat xAxis, yAxis; xAxis = yAxis = BackgroundRepeat.NO_REPEAT; Term term = root; if (term.token == null || term.token.getType() != CssLexer.IDENT || term.token.getText() == null || term.token.getText().isEmpty()) error(term, "Expected \'<repeat-style>\'"); String text = term.token.getText().toLowerCase(Locale.ROOT); if ("repeat-x".equals(text)) { xAxis = BackgroundRepeat.REPEAT; yAxis = BackgroundRepeat.NO_REPEAT; } else if ("repeat-y".equals(text)) { xAxis = BackgroundRepeat.NO_REPEAT; yAxis = BackgroundRepeat.REPEAT; } else if ("repeat".equals(text)) { xAxis = BackgroundRepeat.REPEAT; yAxis = BackgroundRepeat.REPEAT; } else if ("space".equals(text)) { xAxis = BackgroundRepeat.SPACE; yAxis = BackgroundRepeat.SPACE; } else if ("round".equals(text)) { xAxis = BackgroundRepeat.ROUND; yAxis = BackgroundRepeat.ROUND; } else if ("no-repeat".equals(text)) { xAxis = BackgroundRepeat.NO_REPEAT; yAxis = BackgroundRepeat.NO_REPEAT; } else if ("stretch".equals(text)) { xAxis = BackgroundRepeat.NO_REPEAT; yAxis = BackgroundRepeat.NO_REPEAT; } else { error(term, "Expected \'<repeat-style>\' " + text); } if ((term = term.nextInSeries) != null && term.token != null && term.token.getType() == CssLexer.IDENT && term.token.getText() != null && !term.token.getText().isEmpty()) { text = term.token.getText().toLowerCase(Locale.ROOT); if ("repeat-x".equals(text)) { error(term, "Unexpected \'repeat-x\'"); } else if ("repeat-y".equals(text)) { error(term, "Unexpected \'repeat-y\'"); } else if ("repeat".equals(text)) { yAxis = BackgroundRepeat.REPEAT; } else if ("space".equals(text)) { yAxis = BackgroundRepeat.SPACE; } else if ("round".equals(text)) { yAxis = BackgroundRepeat.ROUND; } else if ("no-repeat".equals(text)) { yAxis = BackgroundRepeat.NO_REPEAT; } else if ("stretch".equals(text)) { yAxis = BackgroundRepeat.NO_REPEAT; } else { error(term, "Expected \'<repeat-style>\'"); } } return new ParsedValueImpl[] { new ParsedValueImpl<String,BackgroundRepeat>(xAxis.name(), new EnumConverter<BackgroundRepeat>(BackgroundRepeat.class)), new ParsedValueImpl<String,BackgroundRepeat>(yAxis.name(), new EnumConverter<BackgroundRepeat>(BackgroundRepeat.class)) }; } private ParsedValueImpl<ParsedValue<String, BackgroundRepeat>[][],RepeatStruct[]> parseBorderImageRepeatStyleLayers(final Term root) throws ParseException { int nLayers = numberOfLayers(root); ParsedValueImpl<String, BackgroundRepeat>[][] layers = new ParsedValueImpl[nLayers][]; int layer = 0; Term term = root; while (term != null) { layers[layer++] = parseRepeatStyle(term); term = nextLayer(term); } return new ParsedValueImpl<ParsedValue<String, BackgroundRepeat>[][],RepeatStruct[]>(layers, RepeatStructConverter.getInstance()); } private ParsedValueImpl<ParsedValue<String, BackgroundRepeat>[][], RepeatStruct[]> parseBackgroundRepeatStyleLayers(final Term root) throws ParseException { int nLayers = numberOfLayers(root); ParsedValueImpl<String, BackgroundRepeat>[][] layers = new ParsedValueImpl[nLayers][]; int layer = 0; Term term = root; while (term != null) { layers[layer++] = parseRepeatStyle(term); term = nextLayer(term); } return new ParsedValueImpl<ParsedValue<String, BackgroundRepeat>[][], RepeatStruct[]>(layers, RepeatStructConverter.getInstance()); } /* http://www.w3.org/TR/css3-background/#the-background-size <bg-size> = [ <length> | <percentage> | auto ]{1,2} | cover | contain */ private ParsedValueImpl<ParsedValue[], BackgroundSize> parseBackgroundSize(final Term root) throws ParseException { ParsedValueImpl<?,Size> height = null, width = null; boolean cover = false, contain = false; Term term = root; if (term.token == null) error(term, "Expected \'<bg-size>\'"); if (term.token.getType() == CssLexer.IDENT) { final String text = (term.token.getText() != null) ? term.token.getText().toLowerCase(Locale.ROOT) : null; if ("auto".equals(text)) { // We don't do anything because width / height are already initialized } else if ("cover".equals(text)) { cover = true; } else if ("contain".equals(text)) { contain = true; } else if ("stretch".equals(text)) { width = ONE_HUNDRED_PERCENT; height = ONE_HUNDRED_PERCENT; } else { error(term, "Expected \'auto\', \'cover\', \'contain\', or \'stretch\'"); } } else if (isSize(term.token)) { width = parseSize(term); height = null; } else { error(term, "Expected \'<bg-size>\'"); } if ((term = term.nextInSeries) != null) { if (cover || contain) error(term, "Unexpected \'<bg-size>\'"); if (term.token.getType() == CssLexer.IDENT) { final String text = (term.token.getText() != null) ? term.token.getText().toLowerCase(Locale.ROOT) : null; if ("auto".equals(text)) { height = null; } else if ("cover".equals(text)) { error(term, "Unexpected \'cover\'"); } else if ("contain".equals(text)) { error(term, "Unexpected \'contain\'"); } else if ("stretch".equals(text)) { height = ONE_HUNDRED_PERCENT; } else { error(term, "Expected \'auto\' or \'stretch\'"); } } else if (isSize(term.token)) { height = parseSize(term); } else { error(term, "Expected \'<bg-size>\'"); } } ParsedValueImpl[] values = new ParsedValueImpl[] { width, height, // TODO: handling of booleans is really bogus new ParsedValueImpl<String,Boolean>((cover ? "true" : "false"), BooleanConverter.getInstance()), new ParsedValueImpl<String,Boolean>((contain ? "true" : "false"), BooleanConverter.getInstance()) }; return new ParsedValueImpl<ParsedValue[], BackgroundSize>(values, BackgroundSizeConverter.getInstance()); } private ParsedValueImpl<ParsedValue<ParsedValue[], BackgroundSize>[], BackgroundSize[]> parseBackgroundSizeLayers(final Term root) throws ParseException { int nLayers = numberOfLayers(root); ParsedValueImpl<ParsedValue[], BackgroundSize>[] layers = new ParsedValueImpl[nLayers]; int layer = 0; Term term = root; while (term != null) { layers[layer++] = parseBackgroundSize(term); term = nextLayer(term); } return new ParsedValueImpl<ParsedValue<ParsedValue[], BackgroundSize>[], BackgroundSize[]>(layers, LayeredBackgroundSizeConverter.getInstance()); } private ParsedValueImpl<ParsedValue<?,Paint>[], Paint[]> parseBorderPaint(final Term root) throws ParseException { Term term = root; ParsedValueImpl<?,Paint>[] paints = new ParsedValueImpl[4]; int paint = 0; while(term != null) { if (term.token == null || paints.length <= paint) error(term, "Expected \'<paint>\'"); paints[paint++] = parse(term); term = term.nextInSeries; } if (paint < 2) paints[1] = paints[0]; // right = top if (paint < 3) paints[2] = paints[0]; // bottom = top if (paint < 4) paints[3] = paints[1]; // left = right return new ParsedValueImpl<ParsedValue<?,Paint>[], Paint[]>(paints, StrokeBorderPaintConverter.getInstance()); } private ParsedValueImpl<ParsedValue<ParsedValue<?,Paint>[],Paint[]>[], Paint[][]> parseBorderPaintLayers(final Term root) throws ParseException { int nLayers = numberOfLayers(root); ParsedValueImpl<ParsedValue<?,Paint>[],Paint[]>[] layers = new ParsedValueImpl[nLayers]; int layer = 0; Term term = root; while (term != null) { layers[layer++] = parseBorderPaint(term); term = nextLayer(term); } return new ParsedValueImpl<ParsedValue<ParsedValue<?,Paint>[],Paint[]>[], Paint[][]>(layers, LayeredBorderPaintConverter.getInstance()); } // borderStyle (borderStyle (borderStyle borderStyle?)?)? private ParsedValueImpl<ParsedValue<ParsedValue[],BorderStrokeStyle>[],BorderStrokeStyle[]> parseBorderStyleSeries(final Term root) throws ParseException { Term term = root; ParsedValueImpl<ParsedValue[],BorderStrokeStyle>[] borders = new ParsedValueImpl[4]; int border = 0; while (term != null) { borders[border++] = parseBorderStyle(term); term = term.nextInSeries; } if (border < 2) borders[1] = borders[0]; // right = top if (border < 3) borders[2] = borders[0]; // bottom = top if (border < 4) borders[3] = borders[1]; // left = right return new ParsedValueImpl<ParsedValue<ParsedValue[],BorderStrokeStyle>[],BorderStrokeStyle[]>(borders, BorderStrokeStyleSequenceConverter.getInstance()); } private ParsedValueImpl<ParsedValue<ParsedValue<ParsedValue[],BorderStrokeStyle>[],BorderStrokeStyle[]>[], BorderStrokeStyle[][]> parseBorderStyleLayers(final Term root) throws ParseException { int nLayers = numberOfLayers(root); ParsedValueImpl<ParsedValue<ParsedValue[],BorderStrokeStyle>[],BorderStrokeStyle[]>[] layers = new ParsedValueImpl[nLayers]; int layer = 0; Term term = root; while (term != null) { layers[layer++] = parseBorderStyleSeries(term); term = nextLayer(term); } return new ParsedValueImpl<ParsedValue<ParsedValue<ParsedValue[],BorderStrokeStyle>[],BorderStrokeStyle[]>[], BorderStrokeStyle[][]>(layers, LayeredBorderStyleConverter.getInstance()); } // Only meant to be used from parseBorderStyle, but might be useful elsewhere private String getKeyword(final Term term) { if (term != null && term.token != null && term.token.getType() == CssLexer.IDENT && term.token.getText() != null && !term.token.getText().isEmpty()) { return term.token.getText().toLowerCase(Locale.ROOT); } return null; } //<border-style> [ , <border-style> ]* // where <border-style> = // <dash-style> [centered | inside | outside]? [line-join [miter <number> | bevel | round]]? [line-cap [square | butt | round]]? // where <dash-style> = // [ none | solid | dotted | dashed ] private ParsedValueImpl<ParsedValue[],BorderStrokeStyle> parseBorderStyle(final Term root) throws ParseException { ParsedValue<ParsedValue[],Number[]> dashStyle = null; ParsedValue<ParsedValue<?,Size>,Number> dashPhase = null; ParsedValue<String,StrokeType> strokeType = null; ParsedValue<String,StrokeLineJoin> strokeLineJoin = null; ParsedValue<ParsedValue<?,Size>,Number> strokeMiterLimit = null; ParsedValue<String,StrokeLineCap> strokeLineCap = null; Term term = root; dashStyle = dashStyle(term); Term prev = term; term = term.nextInSeries; String keyword = getKeyword(term); // dash-style might be followed by 'phase <size>' if ("phase".equals(keyword)) { prev = term; if ((term = term.nextInSeries) == null || term.token == null || !isSize(term.token)) error(term, "Expected \'<size>\'"); ParsedValueImpl<?,Size> sizeVal = parseSize(term); dashPhase = new ParsedValueImpl<ParsedValue<?,Size>,Number>(sizeVal,SizeConverter.getInstance()); prev = term; term = term.nextInSeries; } // stroke type might be next strokeType = parseStrokeType(term); if (strokeType != null) { prev = term; term = term.nextInSeries; } keyword = getKeyword(term); if ("line-join".equals(keyword)) { prev = term; term = term.nextInSeries; ParsedValueImpl[] lineJoinValues = parseStrokeLineJoin(term); if (lineJoinValues != null) { strokeLineJoin = lineJoinValues[0]; strokeMiterLimit = lineJoinValues[1]; } else { error(term, "Expected \'miter <size>?\', \'bevel\' or \'round\'"); } prev = term; term = term.nextInSeries; keyword = getKeyword(term); } if ("line-cap".equals(keyword)) { prev = term; term = term.nextInSeries; strokeLineCap = parseStrokeLineCap(term); if (strokeLineCap == null) { error(term, "Expected \'square\', \'butt\' or \'round\'"); } prev = term; term = term.nextInSeries; } if (term != null) { // if term is not null, then we have gotten to the end of // one border style and term is start of another border style root.nextInSeries = term; } else { // If term is null, then we have gotten to the end of // a border style with no more to follow in this series. // But there may be another layer. root.nextInSeries = null; root.nextLayer = prev.nextLayer; } final ParsedValue[] values = new ParsedValue[]{ dashStyle, dashPhase, strokeType, strokeLineJoin, strokeMiterLimit, strokeLineCap }; return new ParsedValueImpl(values, BorderStyleConverter.getInstance()); } // // segments(<size> [, <size>]+) | <border-style> // private ParsedValue<ParsedValue[],Number[]> dashStyle(final Term root) throws ParseException { if (root.token == null) error(root, "Expected \'<dash-style>\'"); final int ttype = root.token.getType(); ParsedValue<ParsedValue[],Number[]> segments = null; if (ttype == CssLexer.IDENT) { segments = borderStyle(root); } else if (ttype == CssLexer.FUNCTION) { segments = segments(root); } else { error(root, "Expected \'<dash-style>\'"); } return segments; } /* <border-style> = none | hidden | dotted | dashed | solid | double | groove | ridge | inset | outset */ private ParsedValue<ParsedValue[],Number[]> borderStyle(Term root) throws ParseException { if (root.token == null || root.token.getType() != CssLexer.IDENT || root.token.getText() == null || root.token.getText().isEmpty()) error(root, "Expected \'<border-style>\'"); final String text = root.token.getText().toLowerCase(Locale.ROOT); if ("none".equals(text)) { return BorderStyleConverter.NONE; } else if ("hidden".equals(text)) { // The "hidden" mode doesn't make sense for FX, because it is the // same as "none" except for border-collapsed CSS tables return BorderStyleConverter.NONE; } else if ("dotted".equals(text)) { return BorderStyleConverter.DOTTED; } else if ("dashed".equals(text)) { return BorderStyleConverter.DASHED; } else if ("solid".equals(text)) { return BorderStyleConverter.SOLID; } else if ("double".equals(text)) { error(root, "Unsupported <border-style> \'double\'"); } else if ("groove".equals(text)) { error(root, "Unsupported <border-style> \'groove\'"); } else if ("ridge".equals(text)) { error(root, "Unsupported <border-style> \'ridge\'"); } else if ("inset".equals(text)) { error(root, "Unsupported <border-style> \'inset\'"); } else if ("outset".equals(text)) { error(root, "Unsupported <border-style> \'outset\'"); } else { error(root, "Unsupported <border-style> \'" + text + "\'"); } // error throws so we should never get here. // but the compiler wants a return, so here it is. return BorderStyleConverter.SOLID; } private ParsedValueImpl<ParsedValue[],Number[]> segments(Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (!"segments".regionMatches(true, 0, fn, 0, 8)) { error(root,"Expected \'segments\'"); } Term arg = root.firstArg; if (arg == null) error(null, "Expected \'<size>\'"); int nArgs = numberOfArgs(root); ParsedValueImpl<?,Size>[] segments = new ParsedValueImpl[nArgs]; int segment = 0; while(arg != null) { segments[segment++] = parseSize(arg); arg = arg.nextArg; } return new ParsedValueImpl<ParsedValue[],Number[]>(segments,SizeConverter.SequenceConverter.getInstance()); } private ParsedValueImpl<String,StrokeType> parseStrokeType(final Term root) throws ParseException { final String keyword = getKeyword(root); if ("centered".equals(keyword) || "inside".equals(keyword) || "outside".equals(keyword)) { return new ParsedValueImpl<String,StrokeType>(keyword, new EnumConverter(StrokeType.class)); } return null; } // Root term is the term just after the line-join keyword // Returns an array of two Values or null. // ParsedValueImpl[0] is ParsedValueImpl<StrokeLineJoin,StrokeLineJoin> // ParsedValueImpl[1] is ParsedValueImpl<Value<?,Size>,Number> if miter limit is given, null otherwise. // If the token is not a StrokeLineJoin, then null is returned. private ParsedValueImpl[] parseStrokeLineJoin(final Term root) throws ParseException { final String keyword = getKeyword(root); if ("miter".equals(keyword) || "bevel".equals(keyword) || "round".equals(keyword)) { ParsedValueImpl<String,StrokeLineJoin> strokeLineJoin = new ParsedValueImpl<String,StrokeLineJoin>(keyword, new EnumConverter(StrokeLineJoin.class)); ParsedValueImpl<ParsedValue<?,Size>,Number> strokeMiterLimit = null; if ("miter".equals(keyword)) { Term next = root.nextInSeries; if (next != null && next.token != null && isSize(next.token)) { root.nextInSeries = next.nextInSeries; ParsedValueImpl<?,Size> sizeVal = parseSize(next); strokeMiterLimit = new ParsedValueImpl<ParsedValue<?,Size>,Number>(sizeVal,SizeConverter.getInstance()); } } return new ParsedValueImpl[] { strokeLineJoin, strokeMiterLimit }; } return null; } // Root term is the term just after the line-cap keyword // If the token is not a StrokeLineCap, then null is returned. private ParsedValueImpl<String,StrokeLineCap> parseStrokeLineCap(final Term root) throws ParseException { final String keyword = getKeyword(root); if ("square".equals(keyword) || "butt".equals(keyword) || "round".equals(keyword)) { return new ParsedValueImpl<String,StrokeLineCap>(keyword, new EnumConverter(StrokeLineCap.class)); } return null; } /* * http://www.w3.org/TR/css3-background/#the-border-image-slice * [<number> | <percentage>]{1,4} && fill? */ private ParsedValueImpl<ParsedValue[],BorderImageSlices> parseBorderImageSlice(final Term root) throws ParseException { Term term = root; if (term.token == null || !isSize(term.token)) error(term, "Expected \'<size>\'"); ParsedValueImpl<?,Size>[] insets = new ParsedValueImpl[4]; Boolean fill = Boolean.FALSE; int inset = 0; while (inset < 4 && term != null) { insets[inset++] = parseSize(term); if ((term = term.nextInSeries) != null && term.token != null && term.token.getType() == CssLexer.IDENT) { if("fill".equalsIgnoreCase(term.token.getText())) { fill = Boolean.TRUE; break; } } } if (inset < 2) insets[1] = insets[0]; // right = top if (inset < 3) insets[2] = insets[0]; // bottom = top if (inset < 4) insets[3] = insets[1]; // left = right ParsedValueImpl[] values = new ParsedValueImpl[] { new ParsedValueImpl<ParsedValue[],Insets>(insets, InsetsConverter.getInstance()), new ParsedValueImpl<Boolean,Boolean>(fill, null) }; return new ParsedValueImpl<ParsedValue[], BorderImageSlices>(values, BorderImageSliceConverter.getInstance()); } private ParsedValueImpl<ParsedValue<ParsedValue[],BorderImageSlices>[],BorderImageSlices[]> parseBorderImageSliceLayers(final Term root) throws ParseException { int nLayers = numberOfLayers(root); ParsedValueImpl<ParsedValue[], BorderImageSlices>[] layers = new ParsedValueImpl[nLayers]; int layer = 0; Term term = root; while (term != null) { layers[layer++] = parseBorderImageSlice(term); term = nextLayer(term); } return new ParsedValueImpl<ParsedValue<ParsedValue[],BorderImageSlices>[],BorderImageSlices[]> (layers, SliceSequenceConverter.getInstance()); } /* * http://www.w3.org/TR/css3-background/#border-image-width * [ <length> | <percentage> | <number> | auto ]{1,4} */ private ParsedValueImpl<ParsedValue[], BorderWidths> parseBorderImageWidth(final Term root) throws ParseException { Term term = root; if (term.token == null || !isSize(term.token)) error(term, "Expected \'<size>\'"); ParsedValueImpl<?,Size>[] insets = new ParsedValueImpl[4]; int inset = 0; while (inset < 4 && term != null) { insets[inset++] = parseSize(term); if ((term = term.nextInSeries) != null && term.token != null && term.token.getType() == CssLexer.IDENT) { } } if (inset < 2) insets[1] = insets[0]; // right = top if (inset < 3) insets[2] = insets[0]; // bottom = top if (inset < 4) insets[3] = insets[1]; // left = right return new ParsedValueImpl<ParsedValue[], BorderWidths>(insets, BorderImageWidthConverter.getInstance()); } private ParsedValueImpl<ParsedValue<ParsedValue[],BorderWidths>[],BorderWidths[]> parseBorderImageWidthLayers(final Term root) throws ParseException { int nLayers = numberOfLayers(root); ParsedValueImpl<ParsedValue[], BorderWidths>[] layers = new ParsedValueImpl[nLayers]; int layer = 0; Term term = root; while (term != null) { layers[layer++] = parseBorderImageWidth(term); term = nextLayer(term); } return new ParsedValueImpl<ParsedValue<ParsedValue[],BorderWidths>[],BorderWidths[]> (layers, BorderImageWidthsSequenceConverter.getInstance()); } // parse a Region value // i.e., region(".styleClassForRegion") or region("#idForRegion") private static final String SPECIAL_REGION_URL_PREFIX = "SPECIAL-REGION-URL:"; private ParsedValueImpl<String,String> parseRegion(Term root) throws ParseException { // first term in the chain is the function name... final String fn = (root.token != null) ? root.token.getText() : null; if (!"region".regionMatches(true, 0, fn, 0, 6)) { error(root,"Expected \'region\'"); } Term arg = root.firstArg; if (arg == null) error(root, "Expected \'region(\"<styleclass-or-id-string>\")\'"); if (arg.token == null || arg.token.getType() != CssLexer.STRING || arg.token.getText() == null || arg.token.getText().isEmpty()) error(root, "Expected \'region(\"<styleclass-or-id-string>\")\'"); final String styleClassOrId = SPECIAL_REGION_URL_PREFIX+ Utils.stripQuotes(arg.token.getText()); return new ParsedValueImpl<String,String>(styleClassOrId, StringConverter.getInstance()); } // url("<uri>") is tokenized by the lexer, so the root arg should be a URL token. private ParsedValueImpl<ParsedValue[],String> parseURI(Term root) throws ParseException { if (root == null) error(root, "Expected \'url(\"<uri-string>\")\'"); if (root.token == null || root.token.getType() != CssLexer.URL || root.token.getText() == null || root.token.getText().isEmpty()) error(root, "Expected \'url(\"<uri-string>\")\'"); final String uri = root.token.getText(); ParsedValueImpl[] uriValues = new ParsedValueImpl[] { new ParsedValueImpl<String,String>(uri, StringConverter.getInstance()), null // placeholder for Stylesheet URL }; return new ParsedValueImpl<ParsedValue[],String>(uriValues, URLConverter.getInstance()); } // parse a series of URI values separated by commas. // i.e., <uri> [, <uri>]* private ParsedValueImpl<ParsedValue<ParsedValue[],String>[],String[]> parseURILayers(Term root) throws ParseException { int nLayers = numberOfLayers(root); Term temp = root; int layer = 0; ParsedValueImpl<ParsedValue[],String>[] layers = new ParsedValueImpl[nLayers]; while(temp != null) { layers[layer++] = parseURI(temp); temp = nextLayer(temp); } return new ParsedValueImpl<ParsedValue<ParsedValue[],String>[],String[]>(layers, URLConverter.SequenceConverter.getInstance()); } //////////////////////////////////////////////////////////////////////////// // // http://www.w3.org/TR/css3-fonts // //////////////////////////////////////////////////////////////////////////// /* http://www.w3.org/TR/css3-fonts/#font-size-the-font-size-property */ private ParsedValueImpl<ParsedValue<?,Size>,Number> parseFontSize(final Term root) throws ParseException { if (root == null) return null; final Token token = root.token; if (token == null || !isSize(token)) error(root, "Expected \'<font-size>\'"); Size size = null; if (token.getType() == CssLexer.IDENT) { final String ident = token.getText().toLowerCase(Locale.ROOT); double value = -1; if ("inherit".equals(ident)) { value = 100; } else if ("xx-small".equals(ident)) { value = 60; } else if ("x-small".equals(ident)) { value = 75; } else if ("small".equals(ident)) { value = 80; } else if ("medium".equals(ident)) { value = 100; } else if ("large".equals(ident)) { value = 120; } else if ("x-large".equals(ident)) { value = 150; } else if ("xx-large".equals(ident)) { value = 200; } else if ("smaller".equals(ident)) { value = 80; } else if ("larger".equals(ident)) { value = 120; } if (value > -1) { size = new Size(value, SizeUnits.PERCENT); } } // if size is null, then size is not one of the keywords above. if (size == null) { size = size(token); } ParsedValueImpl<?,Size> svalue = new ParsedValueImpl<Size,Size>(size, null); return new ParsedValueImpl<ParsedValue<?,Size>,Number>(svalue, FontConverter.FontSizeConverter.getInstance()); } /* http://www.w3.org/TR/css3-fonts/#font-style-the-font-style-property */ private ParsedValueImpl<String,FontPosture> parseFontStyle(Term root) throws ParseException { if (root == null) return null; final Token token = root.token; if (token == null || token.getType() != CssLexer.IDENT || token.getText() == null || token.getText().isEmpty()) error(root, "Expected \'<font-style>\'"); final String ident = token.getText().toLowerCase(Locale.ROOT); String posture = FontPosture.REGULAR.name(); if ("normal".equals(ident)) { posture = FontPosture.REGULAR.name(); } else if ("italic".equals(ident)) { posture = FontPosture.ITALIC.name(); } else if ("oblique".equals(ident)) { posture = FontPosture.ITALIC.name(); } else if ("inherit".equals(ident)) { posture = "inherit"; } else { return null; } return new ParsedValueImpl<String,FontPosture>(posture, FontConverter.FontStyleConverter.getInstance()); } /* http://www.w3.org/TR/css3-fonts/#font-weight-the-font-weight-property */ private ParsedValueImpl<String, FontWeight> parseFontWeight(Term root) throws ParseException { if (root == null) return null; final Token token = root.token; if (token == null || token.getText() == null || token.getText().isEmpty()) error(root, "Expected \'<font-weight>\'"); final String ident = token.getText().toLowerCase(Locale.ROOT); String weight = FontWeight.NORMAL.name(); if ("inherit".equals(ident)) { weight = FontWeight.NORMAL.name(); } else if ("normal".equals(ident)) { weight = FontWeight.NORMAL.name(); } else if ("bold".equals(ident)) { weight = FontWeight.BOLD.name(); } else if ("bolder".equals(ident)) { weight = FontWeight.BOLD.name(); } else if ("lighter".equals(ident)) { weight = FontWeight.LIGHT.name(); } else if ("100".equals(ident)) { weight = FontWeight.findByWeight(100).name(); } else if ("200".equals(ident)) { weight = FontWeight.findByWeight(200).name(); } else if ("300".equals(ident)) { weight = FontWeight.findByWeight(300).name(); } else if ("400".equals(ident)) { weight = FontWeight.findByWeight(400).name(); } else if ("500".equals(ident)) { weight = FontWeight.findByWeight(500).name(); } else if ("600".equals(ident)) { weight = FontWeight.findByWeight(600).name(); } else if ("700".equals(ident)) { weight = FontWeight.findByWeight(700).name(); } else if ("800".equals(ident)) { weight = FontWeight.findByWeight(800).name(); } else if ("900".equals(ident)) { weight = FontWeight.findByWeight(900).name(); } else { error(root, "Expected \'<font-weight>\'"); } return new ParsedValueImpl<String,FontWeight>(weight, FontConverter.FontWeightConverter.getInstance()); } private ParsedValueImpl<String,String> parseFontFamily(Term root) throws ParseException { if (root == null) return null; final Token token = root.token; String text = null; if (token == null || (token.getType() != CssLexer.IDENT && token.getType() != CssLexer.STRING) || (text = token.getText()) == null || text.isEmpty()) error(root, "Expected \'<font-family>\'"); final String fam = stripQuotes(text.toLowerCase(Locale.ROOT)); if ("inherit".equals(fam)) { return new ParsedValueImpl<String,String>("inherit", StringConverter.getInstance()); } else if ("serif".equals(fam) || "sans-serif".equals(fam) || "cursive".equals(fam) || "fantasy".equals(fam) || "monospace".equals(fam)) { return new ParsedValueImpl<String,String>(fam, StringConverter.getInstance()); } else { return new ParsedValueImpl<String,String>(token.getText(), StringConverter.getInstance()); } } // (fontStyle || fontVariant || fontWeight)* fontSize (SOLIDUS size)? fontFamily private ParsedValueImpl<ParsedValue[],Font> parseFont(Term root) throws ParseException { // Because style, variant, weight, size and family can inherit // AND style, variant and weight are optional, parsing this backwards // is easier. Term next = root.nextInSeries; root.nextInSeries = null; while (next != null) { Term temp = next.nextInSeries; next.nextInSeries = root; root = next; next = temp; } // Now, root should point to fontFamily Token token = root.token; int ttype = token.getType(); if (ttype != CssLexer.IDENT && ttype != CssLexer.STRING) error(root, "Expected \'<font-family>\'"); ParsedValueImpl<String,String> ffamily = parseFontFamily(root); Term term = root; if ((term = term.nextInSeries) == null) error(root, "Expected \'<size>\'"); if (term.token == null || !isSize(term.token)) error(term, "Expected \'<size>\'"); // Now, term could be the font size or it could be the line-height. // If the next term is a forward slash, then it's line-height. Term temp; if (((temp = term.nextInSeries) != null) && (temp.token != null && temp.token.getType() == CssLexer.SOLIDUS)) { root = temp; if ((term = temp.nextInSeries) == null) error(root, "Expected \'<size>\'"); if (term.token == null || !isSize(term.token)) error(term, "Expected \'<size>\'"); token = term.token; } ParsedValueImpl<ParsedValue<?,Size>,Number> fsize = parseFontSize(term); if (fsize == null) error(root, "Expected \'<size>\'"); ParsedValueImpl<String,FontPosture> fstyle = null; ParsedValueImpl<String,FontWeight> fweight = null; String fvariant = null; while ((term = term.nextInSeries) != null) { if (term.token == null || term.token.getType() != CssLexer.IDENT || term.token.getText() == null || term.token.getText().isEmpty()) error(term, "Expected \'<font-weight>\', \'<font-style>\' or \'<font-variant>\'"); if (fstyle == null && ((fstyle = parseFontStyle(term)) != null)) { ; } else if (fvariant == null && "small-caps".equalsIgnoreCase(term.token.getText())) { fvariant = term.token.getText(); } else if (fweight == null && ((fweight = parseFontWeight(term)) != null)) { ; } } ParsedValueImpl[] values = new ParsedValueImpl[]{ ffamily, fsize, fweight, fstyle }; return new ParsedValueImpl<ParsedValue[],Font>(values, FontConverter.getInstance()); } // // Parser state machine // Token currentToken = null; // return the next token that is not whitespace. private Token nextToken(CssLexer lexer) { Token token = null; do { token = lexer.nextToken(); } while ((token != null) && (token.getType() == CssLexer.WS) || (token.getType() == CssLexer.NL)); if (LOGGER.isLoggable(Level.FINEST)) { LOGGER.finest(token.toString()); } return token; } // keep track of what is in process of being parsed to avoid import loops private static Stack<String> imports; private void parse(Stylesheet stylesheet, CssLexer lexer) { // need to read the first token currentToken = nextToken(lexer); while((currentToken != null) && (currentToken.getType() == CssLexer.AT_KEYWORD)) { currentToken = nextToken(lexer); if (currentToken == null || currentToken.getType() != CssLexer.IDENT) { // just using ParseException for a nice error message, not for throwing the exception. ParseException parseException = new ParseException("Expected IDENT", currentToken, this); final String msg = parseException.toString(); ParseError error = createError(msg); if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(error.toString()); } reportError(error); // get past EOL or SEMI do { currentToken = lexer.nextToken(); } while ((currentToken != null) && (currentToken.getType() == CssLexer.SEMI) || (currentToken.getType() == CssLexer.WS) || (currentToken.getType() == CssLexer.NL)); continue; } String keyword = currentToken.getText().toLowerCase(Locale.ROOT); if ("font-face".equals(keyword)) { FontFace fontFace = fontFace(lexer); if (fontFace != null) stylesheet.getFontFaces().add(fontFace); currentToken = nextToken(lexer); continue; } else if ("import".equals(keyword)) { if (CssParser.imports == null) { CssParser.imports = new Stack<>(); } if (!imports.contains(sourceOfStylesheet)) { imports.push(sourceOfStylesheet); Stylesheet importedStylesheet = handleImport(lexer); if (importedStylesheet != null) { stylesheet.importStylesheet(importedStylesheet); } imports.pop(); if (CssParser.imports.isEmpty()) { CssParser.imports = null; } } else { // Import imports import! final int line = currentToken.getLine(); final int pos = currentToken.getOffset(); final String msg = MessageFormat.format("Recursive @import at {2} [{0,number,#},{1,number,#}]", line, pos, imports.peek()); ParseError error = createError(msg); if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(error.toString()); } reportError(error); } // get past EOL or SEMI do { currentToken = lexer.nextToken(); } while ((currentToken != null) && (currentToken.getType() == CssLexer.SEMI) || (currentToken.getType() == CssLexer.WS) || (currentToken.getType() == CssLexer.NL)); continue; } } while ((currentToken != null) && (currentToken.getType() != Token.EOF)) { List<Selector> selectors = selectors(lexer); if (selectors == null) return; if ((currentToken == null) || (currentToken.getType() != CssLexer.LBRACE)) { final int line = currentToken != null ? currentToken.getLine() : -1; final int pos = currentToken != null ? currentToken.getOffset() : -1; final String msg = MessageFormat.format("Expected LBRACE at [{0,number,#},{1,number,#}]", line, pos); ParseError error = createError(msg); if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(error.toString()); } reportError(error); currentToken = null; return; } // get past the LBRACE currentToken = nextToken(lexer); List<Declaration> declarations = declarations(lexer); if (declarations == null) return; if ((currentToken != null) && (currentToken.getType() != CssLexer.RBRACE)) { final int line = currentToken.getLine(); final int pos = currentToken.getOffset(); final String msg = MessageFormat.format("Expected RBRACE at [{0,number,#},{1,number,#}]", line, pos); ParseError error = createError(msg); if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(error.toString()); } reportError(error); currentToken = null; return; } stylesheet.getRules().add(new Rule(selectors, declarations)); currentToken = nextToken(lexer); } currentToken = null; } private FontFace fontFace(CssLexer lexer) { final Map<String,String> descriptors = new HashMap<String,String>(); final List<FontFaceImpl.FontFaceSrc> sources = new ArrayList<FontFaceImpl.FontFaceSrc>(); while(true) { currentToken = nextToken(lexer); if (currentToken.getType() == CssLexer.IDENT) { String key = currentToken.getText(); // ignore the colon that follows currentToken = nextToken(lexer); // get the next token after colon currentToken = nextToken(lexer); // ignore all but "src" if ("src".equalsIgnoreCase(key)) { while(true) { if((currentToken != null) && (currentToken.getType() != CssLexer.SEMI) && (currentToken.getType() != CssLexer.RBRACE) && (currentToken.getType() != Token.EOF)) { if (currentToken.getType() == CssLexer.IDENT) { // simple reference to other font-family sources.add(new FontFaceImpl.FontFaceSrc(FontFaceImpl.FontFaceSrcType.REFERENCE,currentToken.getText())); } else if (currentToken.getType() == CssLexer.URL) { // let URLConverter do the conversion ParsedValueImpl[] uriValues = new ParsedValueImpl[] { new ParsedValueImpl<String,String>(currentToken.getText(), StringConverter.getInstance()), new ParsedValueImpl<String,String>(sourceOfStylesheet, null) }; ParsedValue<ParsedValue[], String> parsedValue = new ParsedValueImpl<ParsedValue[], String>(uriValues, URLConverter.getInstance()); String urlStr = parsedValue.convert(null); URL url = null; try { URI fontUri = new URI(urlStr); url = fontUri.toURL(); } catch (URISyntaxException | MalformedURLException malf) { final int line = currentToken.getLine(); final int pos = currentToken.getOffset(); final String msg = MessageFormat.format("Could not resolve @font-face url [{2}] at [{0,number,#},{1,number,#}]", line, pos, urlStr); ParseError error = createError(msg); if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(error.toString()); } reportError(error); // skip the rest. while(currentToken != null) { int ttype = currentToken.getType(); if (ttype == CssLexer.RBRACE || ttype == Token.EOF) { return null; } currentToken = nextToken(lexer); } } String format = null; while(true) { currentToken = nextToken(lexer); final int ttype = (currentToken != null) ? currentToken.getType() : Token.EOF; if (ttype == CssLexer.FUNCTION) { if ("format(".equalsIgnoreCase(currentToken.getText())) { continue; } else { break; } } else if (ttype == CssLexer.IDENT || ttype == CssLexer.STRING) { format = Utils.stripQuotes(currentToken.getText()); } else if (ttype == CssLexer.RPAREN) { continue; } else { break; } } sources.add(new FontFaceImpl.FontFaceSrc(FontFaceImpl.FontFaceSrcType.URL,url.toExternalForm(), format)); } else if (currentToken.getType() == CssLexer.FUNCTION) { if ("local(".equalsIgnoreCase(currentToken.getText())) { // consume the function token currentToken = nextToken(lexer); // parse function contents final StringBuilder localSb = new StringBuilder(); while(true) { if((currentToken != null) && (currentToken.getType() != CssLexer.RPAREN) && (currentToken.getType() != Token.EOF)) { localSb.append(currentToken.getText()); } else { break; } currentToken = nextToken(lexer); } int start = 0, end = localSb.length(); if (localSb.charAt(start) == '\'' || localSb.charAt(start) == '\"') start ++; if (localSb.charAt(end-1) == '\'' || localSb.charAt(end-1) == '\"') end --; final String local = localSb.substring(start,end); sources.add(new FontFaceImpl.FontFaceSrc(FontFaceImpl.FontFaceSrcType.LOCAL,local)); } else { // error unknown fontface src type final int line = currentToken.getLine(); final int pos = currentToken.getOffset(); final String msg = MessageFormat.format("Unknown @font-face src type [" + currentToken.getText() + ")] at [{0,number,#},{1,number,#}]", line, pos); ParseError error = createError(msg); if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(error.toString()); } reportError(error); } } else if (currentToken.getType() == CssLexer.COMMA) { // ignore } else { // error unexpected token final int line = currentToken.getLine(); final int pos = currentToken.getOffset(); final String msg = MessageFormat.format("Unexpected TOKEN [" + currentToken.getText() + "] at [{0,number,#},{1,number,#}]", line, pos); ParseError error = createError(msg); if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(error.toString()); } reportError(error); } } else { break; } currentToken = nextToken(lexer); } } else { StringBuilder descriptorVal = new StringBuilder(); while(true) { if((currentToken != null) && (currentToken.getType() != CssLexer.SEMI) && (currentToken.getType() != Token.EOF)) { descriptorVal.append(currentToken.getText()); } else { break; } currentToken = nextToken(lexer); } descriptors.put(key,descriptorVal.toString()); } // continue; } if ((currentToken == null) || (currentToken.getType() == CssLexer.RBRACE) || (currentToken.getType() == Token.EOF)) { break; } } return new FontFaceImpl(descriptors, sources); } private Stylesheet handleImport(CssLexer lexer) { currentToken = nextToken(lexer); if (currentToken == null || currentToken.getType() == Token.EOF) { return null; } int ttype = currentToken.getType(); String fname = null; if (ttype == CssLexer.STRING || ttype == CssLexer.URL) { fname = currentToken.getText(); } Stylesheet importedStylesheet = null; final String _sourceOfStylesheet = sourceOfStylesheet; if (fname != null) { // let URLConverter do the conversion ParsedValueImpl[] uriValues = new ParsedValueImpl[] { new ParsedValueImpl<String,String>(fname, StringConverter.getInstance()), new ParsedValueImpl<String,String>(sourceOfStylesheet, null) }; ParsedValue<ParsedValue[], String> parsedValue = new ParsedValueImpl<ParsedValue[], String>(uriValues, URLConverter.getInstance()); String urlString = parsedValue.convert(null); importedStylesheet = StyleManager.loadStylesheet(urlString); // When we load an imported stylesheet, the sourceOfStylesheet field // gets set to the new stylesheet. Once it is done loading we must reset // this field back to the previous value, otherwise we will potentially // run into problems (for example, see RT-40346). sourceOfStylesheet = _sourceOfStylesheet; } if (importedStylesheet == null) { final String msg = MessageFormat.format("Could not import {0}", fname); ParseError error = createError(msg); if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(error.toString()); } reportError(error); } return importedStylesheet; } private List<Selector> selectors(CssLexer lexer) { List<Selector> selectors = new ArrayList<Selector>(); while(true) { Selector selector = selector(lexer); if (selector == null) { // some error happened, skip the rule... while ((currentToken != null) && (currentToken.getType() != CssLexer.RBRACE) && (currentToken.getType() != Token.EOF)) { currentToken = nextToken(lexer); } // current token is either RBRACE or EOF. Calling // currentToken will get the next token or EOF. currentToken = nextToken(lexer); // skipped the last rule? if (currentToken == null || currentToken.getType() == Token.EOF) { currentToken = null; return null; } continue; } selectors.add(selector); if ((currentToken != null) && (currentToken.getType() == CssLexer.COMMA)) { // get past the comma currentToken = nextToken(lexer); continue; } // currentToken was either null or not a comma // so we are done with selectors. break; } return selectors; } private Selector selector(CssLexer lexer) { List<Combinator> combinators = null; List<SimpleSelector> sels = null; SimpleSelector ancestor = simpleSelector(lexer); if (ancestor == null) return null; while (true) { Combinator comb = combinator(lexer); if (comb != null) { if (combinators == null) { combinators = new ArrayList<Combinator>(); } combinators.add(comb); SimpleSelector descendant = simpleSelector(lexer); if (descendant == null) return null; if (sels == null) { sels = new ArrayList<SimpleSelector>(); sels.add(ancestor); } sels.add(descendant); } else { break; } } // RT-15473 // We might return from selector with a NL token instead of an // LBRACE, so skip past the NL here. if (currentToken != null && currentToken.getType() == CssLexer.NL) { currentToken = nextToken(lexer); } if (sels == null) { return ancestor; } else { return new CompoundSelector(sels,combinators); } } private SimpleSelector simpleSelector(CssLexer lexer) { String esel = "*"; // element selector. default to universal String isel = ""; // id selector List<String> csels = null; // class selector List<String> pclasses = null; // pseudoclasses while (true) { final int ttype = (currentToken != null) ? currentToken.getType() : Token.INVALID; switch(ttype) { // element selector case CssLexer.STAR: case CssLexer.IDENT: esel = currentToken.getText(); break; // class selector case CssLexer.DOT: currentToken = nextToken(lexer); if (currentToken != null && currentToken.getType() == CssLexer.IDENT) { if (csels == null) { csels = new ArrayList<String>(); } csels.add(currentToken.getText()); } else { currentToken = Token.INVALID_TOKEN; return null; } break; // id selector case CssLexer.HASH: isel = currentToken.getText().substring(1); break; case CssLexer.COLON: currentToken = nextToken(lexer); if (currentToken != null && pclasses == null) { pclasses = new ArrayList<String>(); } if (currentToken.getType() == CssLexer.IDENT) { pclasses.add(currentToken.getText()); } else if (currentToken.getType() == CssLexer.FUNCTION){ String pclass = functionalPseudo(lexer); pclasses.add(pclass); } else { currentToken = Token.INVALID_TOKEN; } if (currentToken.getType() == Token.INVALID) { return null; } break; case CssLexer.NL: case CssLexer.WS: case CssLexer.COMMA: case CssLexer.GREATER: case CssLexer.LBRACE: case Token.EOF: return new SimpleSelector(esel, csels, pclasses, isel); default: return null; } // get the next token, but don't skip whitespace // since it may be a combinator currentToken = lexer.nextToken(); if (LOGGER.isLoggable(Level.FINEST)) { LOGGER.finest(currentToken.toString()); } } } // From http://www.w3.org/TR/selectors/#grammar // functional_pseudo // : FUNCTION S* expression ')' // ; // expression // /* In CSS3, the expressions are identifiers, strings, */ // /* or of the form "an+b" */ // : [ [ PLUS | '-' | DIMENSION | NUMBER | STRING | IDENT ] S* ]+ // ; private String functionalPseudo(CssLexer lexer) { // TODO: This is not how we should handle functional pseudo-classes in the long-run! StringBuilder pclass = new StringBuilder(currentToken.getText()); while(true) { currentToken = nextToken(lexer); switch(currentToken.getType()) { // TODO: lexer doesn't really scan right and isn't CSS3, // so PLUS, '-', NUMBER, etc are all useless at this point. case CssLexer.STRING: case CssLexer.IDENT: pclass.append(currentToken.getText()); break; case CssLexer.RPAREN: pclass.append(')'); return pclass.toString(); default: currentToken = Token.INVALID_TOKEN; return null; } } } private Combinator combinator(CssLexer lexer) { Combinator combinator = null; while (true) { final int ttype = (currentToken != null) ? currentToken.getType() : Token.INVALID; switch(ttype) { case CssLexer.WS: // need to check if combinator is null since child token // might be surrounded by whitespace. if (combinator == null && " ".equals(currentToken.getText())) { combinator = Combinator.DESCENDANT; } break; case CssLexer.GREATER: // no need to check if combinator is null here combinator = Combinator.CHILD; break; case CssLexer.STAR: case CssLexer.IDENT: case CssLexer.DOT: case CssLexer.HASH: case CssLexer.COLON: return combinator; default: // only selector is expected return null; } // get the next token, but don't skip whitespace currentToken = lexer.nextToken(); if (LOGGER.isLoggable(Level.FINEST)) { LOGGER.finest(currentToken.toString()); } } } private List<Declaration> declarations(CssLexer lexer) { List<Declaration> declarations = new ArrayList<Declaration>(); while (true) { Declaration decl = declaration(lexer); if (decl != null) { declarations.add(decl); } else { // some error happened, skip the decl... while ((currentToken != null) && (currentToken.getType() != CssLexer.SEMI) && (currentToken.getType() != CssLexer.RBRACE) && (currentToken.getType() != Token.EOF)) { currentToken = nextToken(lexer); } // current token is either SEMI, RBRACE or EOF. if (currentToken != null && currentToken.getType() != CssLexer.SEMI) return declarations; } // declaration; declaration; ??? // RT-17830 - allow declaration;; while ((currentToken != null) && (currentToken.getType() == CssLexer.SEMI)) { currentToken = nextToken(lexer); } // if it is delcaration; declaration, then the // next token should be an IDENT. if ((currentToken != null) && (currentToken.getType() == CssLexer.IDENT)) { continue; } break; } return declarations; } private Declaration declaration(CssLexer lexer) { final int ttype = (currentToken != null) ? currentToken.getType() : Token.INVALID; if ((currentToken == null) || (currentToken.getType() != CssLexer.IDENT)) { // // RT-16547: this warning was misleading because an empty rule // not invalid. Some people put in empty rules just as placeholders. // // if (LOGGER.isLoggable(PlatformLogger.WARNING)) { // final int line = currentToken != null ? currentToken.getLine() : -1; // final int pos = currentToken != null ? currentToken.getOffset() : -1; // final String url = // (stylesheet != null && stylesheet.getUrl() != null) ? // stylesheet.getUrl().toExternalForm() : "?"; // LOGGER.warning("Expected IDENT at {0}[{1,number,#},{2,number,#}]", // url,line,pos); // } return null; } String property = currentToken.getText(); currentToken = nextToken(lexer); if ((currentToken == null) || (currentToken.getType() != CssLexer.COLON)) { final int line = currentToken.getLine(); final int pos = currentToken.getOffset(); final String msg = MessageFormat.format("Expected COLON at [{0,number,#},{1,number,#}]", line, pos); ParseError error = createError(msg); if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(error.toString()); } reportError(error); return null; } currentToken = nextToken(lexer); Term root = expr(lexer); ParsedValueImpl value = null; try { value = (root != null) ? valueFor(property, root, lexer) : null; } catch (ParseException re) { Token badToken = re.tok; final int line = badToken != null ? badToken.getLine() : -1; final int pos = badToken != null ? badToken.getOffset() : -1; final String msg = MessageFormat.format("{2} while parsing ''{3}'' at [{0,number,#},{1,number,#}]", line,pos,re.getMessage(),property); ParseError error = createError(msg); if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(error.toString()); } reportError(error); return null; } boolean important = currentToken.getType() == CssLexer.IMPORTANT_SYM; if (important) currentToken = nextToken(lexer); Declaration decl = (value != null) ? new Declaration(property.toLowerCase(Locale.ROOT), value, important) : null; return decl; } private Term expr(CssLexer lexer) { final Term expr = term(lexer); Term current = expr; while(true) { // if current is null, then term returned null final int ttype = (current != null && currentToken != null) ? currentToken.getType() : Token.INVALID; if (ttype == Token.INVALID) { skipExpr(lexer); return null; } else if (ttype == CssLexer.SEMI || ttype == CssLexer.IMPORTANT_SYM || ttype == CssLexer.RBRACE || ttype == Token.EOF) { return expr; } else if (ttype == CssLexer.COMMA) { // comma breaks up sequences of terms. // next series of terms chains off the last term in // the current series. currentToken = nextToken(lexer); current = current.nextLayer = term(lexer); } else { current = current.nextInSeries = term(lexer); } } } private void skipExpr(CssLexer lexer) { while(true) { currentToken = nextToken(lexer); final int ttype = (currentToken != null) ? currentToken.getType() : Token.INVALID; if (ttype == CssLexer.SEMI || ttype == CssLexer.RBRACE || ttype == Token.EOF) { return; } } } private Term term(CssLexer lexer) { final int ttype = (currentToken != null) ? currentToken.getType() : Token.INVALID; switch (ttype) { case CssLexer.NUMBER: case CssLexer.CM: case CssLexer.EMS: case CssLexer.EXS: case CssLexer.IN: case CssLexer.MM: case CssLexer.PC: case CssLexer.PT: case CssLexer.PX: case CssLexer.DEG: case CssLexer.GRAD: case CssLexer.RAD: case CssLexer.TURN: case CssLexer.PERCENTAGE: case CssLexer.SECONDS: case CssLexer.MS: break; case CssLexer.STRING: break; case CssLexer.IDENT: break; case CssLexer.HASH: break; case CssLexer.FUNCTION: case CssLexer.LPAREN: Term function = new Term(currentToken); currentToken = nextToken(lexer); Term arg = term(lexer); function.firstArg = arg; while(true) { final int operator = currentToken != null ? currentToken.getType() : Token.INVALID; if (operator == CssLexer.RPAREN) { currentToken = nextToken(lexer); return function; } else if (operator == CssLexer.COMMA) { // comma breaks up sequences of terms. // next series of terms chains off the last term in // the current series. currentToken = nextToken(lexer); arg = arg.nextArg = term(lexer); } else { arg = arg.nextInSeries = term(lexer); } } case CssLexer.URL: break; case CssLexer.SOLIDUS: break; default: final int line = currentToken != null ? currentToken.getLine() : -1; final int pos = currentToken != null ? currentToken.getOffset() : -1; final String text = currentToken != null ? currentToken.getText() : ""; final String msg = MessageFormat.format("Unexpected token {0}{1}{0} at [{2,number,#},{3,number,#}]", "\'",text,line,pos); ParseError error = createError(msg); if (LOGGER.isLoggable(Level.WARNING)) { LOGGER.warning(error.toString()); } reportError(error); return null; // currentToken = nextToken(lexer); // // return new Term(Token.INVALID_TOKEN); } Term term = new Term(currentToken); currentToken = nextToken(lexer); return term; } public static ObservableList<ParseError> errorsProperty() { return StyleManager.errorsProperty(); }
Encapsulate information about the source and nature of errors encountered while parsing CSS or applying styles to Nodes.
/** * Encapsulate information about the source and nature of errors encountered * while parsing CSS or applying styles to Nodes. */
public static class ParseError {
Returns:The error message from the CSS code.
/** @return The error message from the CSS code. */
public final String getMessage() { return message; } public ParseError(String message) { this.message = message; } final String message; @Override public String toString() { return "CSS Error: " + message; }
Encapsulate errors arising from parsing of stylesheet files
/** Encapsulate errors arising from parsing of stylesheet files */
public final static class StylesheetParsingError extends ParseError { StylesheetParsingError(String url, String message) { super(message); this.url = url; } String getURL() { return url; } private final String url; @Override public String toString() { final String path = url != null ? url : "?"; // TBD: i18n return "CSS Error parsing " + path + ": " + message; } }
Encapsulate errors arising from parsing of Node's style property
/** Encapsulate errors arising from parsing of Node's style property */
public final static class InlineStyleParsingError extends ParseError { InlineStyleParsingError(Styleable styleable, String message) { super(message); this.styleable = styleable; } Styleable getStyleable() { return styleable; } private final Styleable styleable; @Override public String toString() { final String inlineStyle = styleable.getStyle(); final String source = styleable.toString(); // TBD: i18n return "CSS Error parsing in-line style \'" + inlineStyle + "\' from " + source + ": " + message; } }
Encapsulate errors arising from parsing when the style is not an in-line style nor is the style from a stylesheet. Primarily to support unit testing.
/** * Encapsulate errors arising from parsing when the style is not * an in-line style nor is the style from a stylesheet. Primarily to * support unit testing. */
public final static class StringParsingError extends ParseError { private final String style; StringParsingError(String style, String message) { super(message); this.style = style; } String getStyle() { return style; } @Override public String toString() { // TBD: i18n return "CSS Error parsing \'" + style + ": " + message; } }
Encapsulates errors arising from applying a style to a Node.
/** Encapsulates errors arising from applying a style to a Node. */
public final static class PropertySetError extends ParseError { private final CssMetaData styleableProperty; private final Styleable styleable; public PropertySetError(CssMetaData styleableProperty, Styleable styleable, String message) { super(message); this.styleableProperty = styleableProperty; this.styleable = styleable; } Styleable getStyleable() { return styleable; } CssMetaData getProperty() { return styleableProperty; } @Override public String toString() { // TBD: i18n return "CSS Error parsing \'" + styleableProperty + ": " + message; } } } }