/*
* @(#)CSS.java 1.67 06/02/27
*
* Copyright 2006 Sun Microsystems, Inc. All rights reserved.
* SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
*/
package javax.swing.text.html;
import java.awt.Color;
import java.awt.Font;
import java.awt.GraphicsEnvironment;
import java.awt.Toolkit;
import java.awt.HeadlessException;
import java.awt.Image;
import java.io.*;
import java.lang.reflect.Method;
import java.net.URL;
import java.net.MalformedURLException;
import java.util.Enumeration;
import java.util.Hashtable;
import java.util.Vector;
import java.util.Locale;
import javax.swing.ImageIcon;
import javax.swing.SizeRequirements;
import javax.swing.text.*;
/**
* Defines a set of
* <a href="http://www.w3.org/TR/REC-CSS1">CSS attributes</a>
* as a typesafe enumeration. The HTML View implementations use
* CSS attributes to determine how they will render. This also defines
* methods to map between CSS/HTML/StyleConstants. Any shorthand
* properties, such as font, are mapped to the intrinsic properties.
* <p>The following describes the CSS properties that are suppored by the
* rendering engine:
* <ul><li>font-family
* <li>font-style
* <li>font-size (supports relative units)
* <li>font-weight
* <li>font
* <li>color
* <li>background-color (with the exception of transparent)
* <li>background-image
* <li>background-repeat
* <li>background-position
* <li>background
* <li>background-repeat
* <li>text-decoration (with the exception of blink and overline)
* <li>vertical-align (only sup and super)
* <li>text-align (justify is treated as center)
* <li>margin-top
* <li>margin-right
* <li>margin-bottom
* <li>margin-left
* <li>margin
* <li>padding-top
* <li>padding-right
* <li>padding-bottom
* <li>padding-left
* <li>border-style (only supports inset, outset and none)
* <li>list-style-type
* <li>list-style-position
* </ul>
* The following are modeled, but currently not rendered.
* <ul><li>font-variant
* <li>background-attachment (background always treated as scroll)
* <li>word-spacing
* <li>letter-spacing
* <li>text-indent
* <li>text-transform
* <li>line-height
* <li>border-top-width (this is used to indicate if a border should be used)
* <li>border-right-width
* <li>border-bottom-width
* <li>border-left-width
* <li>border-width
* <li>border-top
* <li>border-right
* <li>border-bottom
* <li>border-left
* <li>border
* <li>width
* <li>height
* <li>float
* <li>clear
* <li>display
* <li>white-space
* <li>list-style
* </ul>
* <p><b>Note: for the time being we do not fully support relative units,
* unless noted, so that
* p { margin-top: 10% } will be treated as if no margin-top was specified.
*
* @author Timothy Prinzing
* @author Scott Violet
* @version 1.67 02/27/06
* @see StyleSheet
*/
public class CSS implements Serializable {
/**
* Definitions to be used as a key on AttributeSet's
* that might hold CSS attributes. Since this is a
* closed set (i.e. defined exactly by the specification),
* it is final and cannot be extended.
*/
public static final class Attribute {
private Attribute(String name, String defaultValue, boolean inherited) {
this.name = name;
this.defaultValue = defaultValue;
this.inherited = inherited;
}
/**
* The string representation of the attribute. This
* should exactly match the string specified in the
* CSS specification.
*/
public String toString() {
return name;
}
/**
* Fetch the default value for the attribute.
* If there is no default value (such as for
* composite attributes), null will be returned.
*/
public String getDefaultValue() {
return defaultValue;
}
/**
* Indicates if the attribute should be inherited
* from the parent or not.
*/
public boolean isInherited() {
return inherited;
}
private String name;
private String defaultValue;
private boolean inherited;
public static final Attribute BACKGROUND =
new Attribute("background", null, false);
public static final Attribute BACKGROUND_ATTACHMENT =
new Attribute("background-attachment", "scroll", false);
public static final Attribute BACKGROUND_COLOR =
new Attribute("background-color", "transparent", false);
public static final Attribute BACKGROUND_IMAGE =
new Attribute("background-image", "none", false);
public static final Attribute BACKGROUND_POSITION =
new Attribute("background-position", null, false);
public static final Attribute BACKGROUND_REPEAT =
new Attribute("background-repeat", "repeat", false);
public static final Attribute BORDER =
new Attribute("border", null, false);
public static final Attribute BORDER_BOTTOM =
new Attribute("border-bottom", null, false);
public static final Attribute BORDER_BOTTOM_WIDTH =
new Attribute("border-bottom-width", "medium", false);
public static final Attribute BORDER_COLOR =
new Attribute("border-color", "black", false);
public static final Attribute BORDER_LEFT =
new Attribute("border-left", null, false);
public static final Attribute BORDER_LEFT_WIDTH =
new Attribute("border-left-width", "medium", false);
public static final Attribute BORDER_RIGHT =
new Attribute("border-right", null, false);
public static final Attribute BORDER_RIGHT_WIDTH =
new Attribute("border-right-width", "medium", false);
public static final Attribute BORDER_STYLE =
new Attribute("border-style", "none", false);
public static final Attribute BORDER_TOP =
new Attribute("border-top", null, false);
public static final Attribute BORDER_TOP_WIDTH =
new Attribute("border-top-width", "medium", false);
public static final Attribute BORDER_WIDTH =
new Attribute("border-width", "medium", false);
public static final Attribute CLEAR =
new Attribute("clear", "none", false);
public static final Attribute COLOR =
new Attribute("color", "black", true);
public static final Attribute DISPLAY =
new Attribute("display", "block", false);
public static final Attribute FLOAT =
new Attribute("float", "none", false);
public static final Attribute FONT =
new Attribute("font", null, true);
public static final Attribute FONT_FAMILY =
new Attribute("font-family", null, true);
public static final Attribute FONT_SIZE =
new Attribute("font-size", "medium", true);
public static final Attribute FONT_STYLE =
new Attribute("font-style", "normal", true);
public static final Attribute FONT_VARIANT =
new Attribute("font-variant", "normal", true);
public static final Attribute FONT_WEIGHT =
new Attribute("font-weight", "normal", true);
public static final Attribute HEIGHT =
new Attribute("height", "auto", false);
public static final Attribute LETTER_SPACING =
new Attribute("letter-spacing", "normal", true);
public static final Attribute LINE_HEIGHT =
new Attribute("line-height", "normal", true);
public static final Attribute LIST_STYLE =
new Attribute("list-style", null, true);
public static final Attribute LIST_STYLE_IMAGE =
new Attribute("list-style-image", "none", true);
public static final Attribute LIST_STYLE_POSITION =
new Attribute("list-style-position", "outside", true);
public static final Attribute LIST_STYLE_TYPE =
new Attribute("list-style-type", "disc", true);
public static final Attribute MARGIN =
new Attribute("margin", null, false);
public static final Attribute MARGIN_BOTTOM =
new Attribute("margin-bottom", "0", false);
public static final Attribute MARGIN_LEFT =
new Attribute("margin-left", "0", false);
public static final Attribute MARGIN_RIGHT =
new Attribute("margin-right", "0", false);
/*
* made up css attributes to describe orientation depended
* margins. used for <dir>, <menu>, <ul> etc. see
* 5088268 for more details
*/
static final Attribute MARGIN_LEFT_LTR =
new Attribute("margin-left-ltr",
Integer.toString(Integer.MIN_VALUE), false);
static final Attribute MARGIN_LEFT_RTL =
new Attribute("margin-left-rtl",
Integer.toString(Integer.MIN_VALUE), false);
static final Attribute MARGIN_RIGHT_LTR =
new Attribute("margin-right-ltr",
Integer.toString(Integer.MIN_VALUE), false);
static final Attribute MARGIN_RIGHT_RTL =
new Attribute("margin-right-rtl",
Integer.toString(Integer.MIN_VALUE), false);
public static final Attribute MARGIN_TOP =
new Attribute("margin-top", "0", false);
public static final Attribute PADDING =
new Attribute("padding", null, false);
public static final Attribute PADDING_BOTTOM =
new Attribute("padding-bottom", "0", false);
public static final Attribute PADDING_LEFT =
new Attribute("padding-left", "0", false);
public static final Attribute PADDING_RIGHT =
new Attribute("padding-right", "0", false);
public static final Attribute PADDING_TOP =
new Attribute("padding-top", "0", false);
public static final Attribute TEXT_ALIGN =
new Attribute("text-align", null, true);
public static final Attribute TEXT_DECORATION =
new Attribute("text-decoration", "none", true);
public static final Attribute TEXT_INDENT =
new Attribute("text-indent", "0", true);
public static final Attribute TEXT_TRANSFORM =
new Attribute("text-transform", "none", true);
public static final Attribute VERTICAL_ALIGN =
new Attribute("vertical-align", "baseline", false);
public static final Attribute WORD_SPACING =
new Attribute("word-spacing", "normal", true);
public static final Attribute WHITE_SPACE =
new Attribute("white-space", "normal", true);
public static final Attribute WIDTH =
new Attribute("width", "auto", false);
/*public*/ static final Attribute BORDER_SPACING =
new Attribute("border-spacing", "0", true);
/*public*/ static final Attribute CAPTION_SIDE =
new Attribute("caption-side", "left", true);
// All possible CSS attribute keys.
static final Attribute[] allAttributes = {
BACKGROUND, BACKGROUND_ATTACHMENT, BACKGROUND_COLOR,
BACKGROUND_IMAGE, BACKGROUND_POSITION, BACKGROUND_REPEAT,
BORDER, BORDER_BOTTOM, BORDER_BOTTOM_WIDTH, BORDER_COLOR,
BORDER_LEFT, BORDER_LEFT_WIDTH, BORDER_RIGHT, BORDER_RIGHT_WIDTH,
BORDER_STYLE, BORDER_TOP, BORDER_TOP_WIDTH, BORDER_WIDTH,
CLEAR, COLOR, DISPLAY, FLOAT, FONT, FONT_FAMILY, FONT_SIZE,
FONT_STYLE, FONT_VARIANT, FONT_WEIGHT, HEIGHT, LETTER_SPACING,
LINE_HEIGHT, LIST_STYLE, LIST_STYLE_IMAGE, LIST_STYLE_POSITION,
LIST_STYLE_TYPE, MARGIN, MARGIN_BOTTOM, MARGIN_LEFT, MARGIN_RIGHT,
MARGIN_TOP, PADDING, PADDING_BOTTOM, PADDING_LEFT, PADDING_RIGHT,
PADDING_TOP, TEXT_ALIGN, TEXT_DECORATION, TEXT_INDENT, TEXT_TRANSFORM,
VERTICAL_ALIGN, WORD_SPACING, WHITE_SPACE, WIDTH,
BORDER_SPACING, CAPTION_SIDE,
MARGIN_LEFT_LTR, MARGIN_LEFT_RTL, MARGIN_RIGHT_LTR, MARGIN_RIGHT_RTL
};
private static final Attribute[] ALL_MARGINS =
{ MARGIN_TOP, MARGIN_RIGHT, MARGIN_BOTTOM, MARGIN_LEFT };
private static final Attribute[] ALL_PADDING =
{ PADDING_TOP, PADDING_RIGHT, PADDING_BOTTOM, PADDING_LEFT };
private static final Attribute[] ALL_BORDER_WIDTHS =
{ BORDER_TOP_WIDTH, BORDER_RIGHT_WIDTH, BORDER_BOTTOM_WIDTH,
BORDER_LEFT_WIDTH };
}
static final class Value {
private Value(String name) {
this.name = name;
}
/**
* The string representation of the attribute. This
* should exactly match the string specified in the
* CSS specification.
*/
public String toString() {
return name;
}
static final Value INHERITED = new Value("inherited");
static final Value NONE = new Value("none");
static final Value DOTTED = new Value("dotted");
static final Value DASHED = new Value("dashed");
static final Value SOLID = new Value("solid");
static final Value DOUBLE = new Value("double");
static final Value GROOVE = new Value("groove");
static final Value RIDGE = new Value("ridge");
static final Value INSET = new Value("inset");
static final Value OUTSET = new Value("outset");
// Lists.
static final Value BLANK_LIST_ITEM = new Value("none");
static final Value DISC = new Value("disc");
static final Value CIRCLE = new Value("circle");
static final Value SQUARE = new Value("square");
static final Value DECIMAL = new Value("decimal");
static final Value LOWER_ROMAN = new Value("lower-roman");
static final Value UPPER_ROMAN = new Value("upper-roman");
static final Value LOWER_ALPHA = new Value("lower-alpha");
static final Value UPPER_ALPHA = new Value("upper-alpha");
// background-repeat
static final Value BACKGROUND_NO_REPEAT = new Value("no-repeat");
static final Value BACKGROUND_REPEAT = new Value("repeat");
static final Value BACKGROUND_REPEAT_X = new Value("repeat-x");
static final Value BACKGROUND_REPEAT_Y = new Value("repeat-y");
// background-attachment
static final Value BACKGROUND_SCROLL = new Value("scroll");
static final Value BACKGROUND_FIXED = new Value("fixed");
private String name;
static final Value[] allValues = {
INHERITED, NONE, DOTTED, DASHED, SOLID, DOUBLE, GROOVE,
RIDGE, INSET, OUTSET, DISC, CIRCLE, SQUARE, DECIMAL,
LOWER_ROMAN, UPPER_ROMAN, LOWER_ALPHA, UPPER_ALPHA,
BLANK_LIST_ITEM, BACKGROUND_NO_REPEAT, BACKGROUND_REPEAT,
BACKGROUND_REPEAT_X, BACKGROUND_REPEAT_Y,
BACKGROUND_FIXED, BACKGROUND_FIXED
};
}
public CSS() {
baseFontSize = baseFontSizeIndex + 1;
// setup the css conversion table
valueConvertor = new Hashtable();
valueConvertor.put(CSS.Attribute.FONT_SIZE, new FontSize());
valueConvertor.put(CSS.Attribute.FONT_FAMILY, new FontFamily());
valueConvertor.put(CSS.Attribute.FONT_WEIGHT, new FontWeight());
valueConvertor.put(CSS.Attribute.BORDER_STYLE, new BorderStyle());
Object cv = new ColorValue();
valueConvertor.put(CSS.Attribute.COLOR, cv);
valueConvertor.put(CSS.Attribute.BACKGROUND_COLOR, cv);
valueConvertor.put(CSS.Attribute.BORDER_COLOR, cv);
Object lv = new LengthValue();
valueConvertor.put(CSS.Attribute.MARGIN_TOP, lv);
valueConvertor.put(CSS.Attribute.MARGIN_BOTTOM, lv);
valueConvertor.put(CSS.Attribute.MARGIN_LEFT, lv);
valueConvertor.put(CSS.Attribute.MARGIN_LEFT_LTR, lv);
valueConvertor.put(CSS.Attribute.MARGIN_LEFT_RTL, lv);
valueConvertor.put(CSS.Attribute.MARGIN_RIGHT, lv);
valueConvertor.put(CSS.Attribute.MARGIN_RIGHT_LTR, lv);
valueConvertor.put(CSS.Attribute.MARGIN_RIGHT_RTL, lv);
valueConvertor.put(CSS.Attribute.PADDING_TOP, lv);
valueConvertor.put(CSS.Attribute.PADDING_BOTTOM, lv);
valueConvertor.put(CSS.Attribute.PADDING_LEFT, lv);
valueConvertor.put(CSS.Attribute.PADDING_RIGHT, lv);
Object bv = new BorderWidthValue(null, 0);
valueConvertor.put(CSS.Attribute.BORDER_WIDTH, lv);
valueConvertor.put(CSS.Attribute.BORDER_TOP_WIDTH, bv);
valueConvertor.put(CSS.Attribute.BORDER_BOTTOM_WIDTH, bv);
valueConvertor.put(CSS.Attribute.BORDER_LEFT_WIDTH, bv);
valueConvertor.put(CSS.Attribute.BORDER_RIGHT_WIDTH, bv);
Object nlv = new LengthValue(true);
valueConvertor.put(CSS.Attribute.TEXT_INDENT, nlv);
valueConvertor.put(CSS.Attribute.WIDTH, lv);
valueConvertor.put(CSS.Attribute.HEIGHT, lv);
valueConvertor.put(CSS.Attribute.BORDER_SPACING, lv);
Object sv = new StringValue();
valueConvertor.put(CSS.Attribute.FONT_STYLE, sv);
valueConvertor.put(CSS.Attribute.TEXT_DECORATION, sv);
valueConvertor.put(CSS.Attribute.TEXT_ALIGN, sv);
valueConvertor.put(CSS.Attribute.VERTICAL_ALIGN, sv);
Object valueMapper = new CssValueMapper();
valueConvertor.put(CSS.Attribute.LIST_STYLE_TYPE,
valueMapper);
valueConvertor.put(CSS.Attribute.BACKGROUND_IMAGE,
new BackgroundImage());
valueConvertor.put(CSS.Attribute.BACKGROUND_POSITION,
new BackgroundPosition());
valueConvertor.put(CSS.Attribute.BACKGROUND_REPEAT,
valueMapper);
valueConvertor.put(CSS.Attribute.BACKGROUND_ATTACHMENT,
valueMapper);
Object generic = new CssValue();
int n = CSS.Attribute.allAttributes.length;
for (int i = 0; i < n; i++) {
CSS.Attribute key = CSS.Attribute.allAttributes[i];
if (valueConvertor.get(key) == null) {
valueConvertor.put(key, generic);
}
}
}
/**
* Sets the base font size. <code>sz</code> is a CSS value, and is
* not necessarily the point size. Use getPointSize to determine the
* point size corresponding to <code>sz</code>.
*/
void setBaseFontSize(int sz) {
if (sz < 1)
baseFontSize = 0;
else if (sz > 7)
baseFontSize = 7;
else
baseFontSize = sz;
}
/**
* Sets the base font size from the passed in string.
*/
void setBaseFontSize(String size) {
int relSize, absSize, diff;
if (size != null) {
if (size.startsWith("+")) {
relSize = Integer.valueOf(size.substring(1)).intValue();
setBaseFontSize(baseFontSize + relSize);
} else if (size.startsWith("-")) {
relSize = -Integer.valueOf(size.substring(1)).intValue();
setBaseFontSize(baseFontSize + relSize);
} else {
setBaseFontSize(Integer.valueOf(size).intValue());
}
}
}
/**
* Returns the base font size.
*/
int getBaseFontSize() {
return baseFontSize;
}
/**
* Parses the CSS property <code>key</code> with value
* <code>value</code> placing the result in <code>att</code>.
*/
void addInternalCSSValue(MutableAttributeSet attr,
CSS.Attribute key, String value) {
if (key == CSS.Attribute.FONT) {
ShorthandFontParser.parseShorthandFont(this, value, attr);
}
else if (key == CSS.Attribute.BACKGROUND) {
ShorthandBackgroundParser.parseShorthandBackground
(this, value, attr);
}
else if (key == CSS.Attribute.MARGIN) {
ShorthandMarginParser.parseShorthandMargin(this, value, attr,
CSS.Attribute.ALL_MARGINS);
}
else if (key == CSS.Attribute.PADDING) {
ShorthandMarginParser.parseShorthandMargin(this, value, attr,
CSS.Attribute.ALL_PADDING);
}
else if (key == CSS.Attribute.BORDER_WIDTH) {
ShorthandMarginParser.parseShorthandMargin(this, value, attr,
CSS.Attribute.ALL_BORDER_WIDTHS);
}
else {
Object iValue = getInternalCSSValue(key, value);
if (iValue != null) {
attr.addAttribute(key, iValue);
}
}
}
/**
* Gets the internal CSS representation of <code>value</code> which is
* a CSS value of the CSS attribute named <code>key</code>. The receiver
* should not modify <code>value</code>, and the first <code>count</code>
* strings are valid.
*/
Object getInternalCSSValue(CSS.Attribute key, String value) {
CssValue conv = (CssValue) valueConvertor.get(key);
Object r = conv.parseCssValue(value);
return r != null ? r : conv.parseCssValue(key.getDefaultValue());
}
/**
* Maps from a StyleConstants to a CSS Attribute.
*/
Attribute styleConstantsKeyToCSSKey(StyleConstants sc) {
return (Attribute)styleConstantToCssMap.get(sc);
}
/**
* Maps from a StyleConstants value to a CSS value.
*/
Object styleConstantsValueToCSSValue(StyleConstants sc,
Object styleValue) {
Object cssKey = styleConstantsKeyToCSSKey(sc);
if (cssKey != null) {
CssValue conv = (CssValue)valueConvertor.get(cssKey);
return conv.fromStyleConstants(sc, styleValue);
}
return null;
}
/**
* Converts the passed in CSS value to a StyleConstants value.
* <code>key</code> identifies the CSS attribute being mapped.
*/
Object cssValueToStyleConstantsValue(StyleConstants key, Object value) {
if (value instanceof CssValue) {
return ((CssValue)value).toStyleConstants((StyleConstants)key,
null);
}
return null;
}
/**
* Returns the font for the values in the passed in AttributeSet.
* It is assumed the keys will be CSS.Attribute keys.
* <code>sc</code> is the StyleContext that will be messaged to get
* the font once the size, name and style have been determined.
*/
Font getFont(StyleContext sc, AttributeSet a, int defaultSize, StyleSheet ss) {
ss = getStyleSheet(ss);
int size = getFontSize(a, defaultSize, ss);
/*
* If the vertical alignment is set to either superscirpt or
* subscript we reduce the font size by 2 points.
*/
StringValue vAlignV = (StringValue)a.getAttribute
(CSS.Attribute.VERTICAL_ALIGN);
if ((vAlignV != null)) {
String vAlign = vAlignV.toString();
if ((vAlign.indexOf("sup") >= 0) ||
(vAlign.indexOf("sub") >= 0)) {
size -= 2;
}
}
FontFamily familyValue = (FontFamily)a.getAttribute
(CSS.Attribute.FONT_FAMILY);
String family = (familyValue != null) ? familyValue.getValue() :
Font.SANS_SERIF;
int style = Font.PLAIN;
FontWeight weightValue = (FontWeight) a.getAttribute
(CSS.Attribute.FONT_WEIGHT);
if ((weightValue != null) && (weightValue.getValue() > 400)) {
style |= Font.BOLD;
}
Object fs = a.getAttribute(CSS.Attribute.FONT_STYLE);
if ((fs != null) && (fs.toString().indexOf("italic") >= 0)) {
style |= Font.ITALIC;
}
if (family.equalsIgnoreCase("monospace")) {
family = Font.MONOSPACED;
}
Font f = sc.getFont(family, style, size);
if (f == null
|| (f.getFamily().equals(Font.DIALOG)
&& ! family.equalsIgnoreCase(Font.DIALOG))) {
family = Font.SANS_SERIF;
f = sc.getFont(family, style, size);
}
return f;
}
static int getFontSize(AttributeSet attr, int defaultSize, StyleSheet ss) {
// PENDING(prinz) this is a 1.1 based implementation, need to also
// have a 1.2 version.
FontSize sizeValue = (FontSize)attr.getAttribute(CSS.Attribute.
FONT_SIZE);
return (sizeValue != null) ? sizeValue.getValue(attr, ss)
: defaultSize;
}
/**
* Takes a set of attributes and turn it into a color
* specification. This might be used to specify things
* like brighter, more hue, etc.
* This will return null if there is no value for <code>key</code>.
*
* @param key CSS.Attribute identifying where color is stored.
* @param a the set of attributes
* @return the color
*/
Color getColor(AttributeSet a, CSS.Attribute key) {
ColorValue cv = (ColorValue) a.getAttribute(key);
if (cv != null) {
return cv.getValue();
}
return null;
}
/**
* Returns the size of a font from the passed in string.
*
* @param size CSS string describing font size
* @param baseFontSize size to use for relative units.
*/
float getPointSize(String size, StyleSheet ss) {
int relSize, absSize, diff, index;
ss = getStyleSheet(ss);
if (size != null) {
if (size.startsWith("+")) {
relSize = Integer.valueOf(size.substring(1)).intValue();
return getPointSize(baseFontSize + relSize, ss);
} else if (size.startsWith("-")) {
relSize = -Integer.valueOf(size.substring(1)).intValue();
return getPointSize(baseFontSize + relSize, ss);
} else {
absSize = Integer.valueOf(size).intValue();
return getPointSize(absSize, ss);
}
}
return 0;
}
/**
* Returns the length of the attribute in <code>a</code> with
* key <code>key</code>.
*/
float getLength(AttributeSet a, CSS.Attribute key, StyleSheet ss) {
ss = getStyleSheet(ss);
LengthValue lv = (LengthValue) a.getAttribute(key);
boolean isW3CLengthUnits = (ss == null) ? false : ss.isW3CLengthUnits();
float len = (lv != null) ? lv.getValue(isW3CLengthUnits) : 0;
return len;
}
/**
* Convert a set of HTML attributes to an equivalent
* set of CSS attributes.
*
* @param AttributeSet containing the HTML attributes.
* @return AttributeSet containing the corresponding CSS attributes.
* The AttributeSet will be empty if there are no mapping
* CSS attributes.
*/
AttributeSet translateHTMLToCSS(AttributeSet htmlAttrSet) {
MutableAttributeSet cssAttrSet = new SimpleAttributeSet();
Element elem = (Element)htmlAttrSet;
HTML.Tag tag = getHTMLTag(htmlAttrSet);
if ((tag == HTML.Tag.TD) || (tag == HTML.Tag.TH)) {
// translate border width into the cells
AttributeSet tableAttr = elem.getParentElement().
getParentElement().getAttributes();
translateAttribute(HTML.Attribute.BORDER, tableAttr, cssAttrSet);
String pad = (String)tableAttr.getAttribute(HTML.Attribute.CELLPADDING);
if (pad != null) {
LengthValue v =
(LengthValue)getInternalCSSValue(CSS.Attribute.PADDING_TOP, pad);
v.span = (v.span < 0) ? 0 : v.span;
cssAttrSet.addAttribute(CSS.Attribute.PADDING_TOP, v);
cssAttrSet.addAttribute(CSS.Attribute.PADDING_BOTTOM, v);
cssAttrSet.addAttribute(CSS.Attribute.PADDING_LEFT, v);
cssAttrSet.addAttribute(CSS.Attribute.PADDING_RIGHT, v);
}
}
if (elem.isLeaf()) {
translateEmbeddedAttributes(htmlAttrSet, cssAttrSet);
} else {
translateAttributes(tag, htmlAttrSet, cssAttrSet);
}
if (tag == HTML.Tag.CAPTION) {
/*
* Navigator uses ALIGN for caption placement and IE uses VALIGN.
*/
Object v = htmlAttrSet.getAttribute(HTML.Attribute.ALIGN);
if ((v != null) && (v.equals("top") || v.equals("bottom"))) {
cssAttrSet.addAttribute(CSS.Attribute.CAPTION_SIDE, v);
cssAttrSet.removeAttribute(CSS.Attribute.TEXT_ALIGN);
} else {
v = htmlAttrSet.getAttribute(HTML.Attribute.VALIGN);
if (v != null) {
cssAttrSet.addAttribute(CSS.Attribute.CAPTION_SIDE, v);
}
}
}
return cssAttrSet;
}
private static final Hashtable attributeMap = new Hashtable();
private static final Hashtable valueMap = new Hashtable();
/**
* The hashtable and the static initalization block below,
* set up a mapping from well-known HTML attributes to
* CSS attributes. For the most part, there is a 1-1 mapping
* between the two. However in the case of certain HTML
* attributes for example HTML.Attribute.VSPACE or
* HTML.Attribute.HSPACE, end up mapping to two CSS.Attribute's.
* Therefore, the value associated with each HTML.Attribute.
* key ends up being an array of CSS.Attribute.* objects.
*/
private static final Hashtable htmlAttrToCssAttrMap = new Hashtable(20);
/**
* The hashtable and static initialization that follows sets
* up a translation from StyleConstants (i.e. the <em>well known</em>
* attributes) to the associated CSS attributes.
*/
private static final Hashtable styleConstantToCssMap = new Hashtable(17);
/** Maps from HTML value to a CSS value. Used in internal mapping. */
private static final Hashtable htmlValueToCssValueMap = new Hashtable(8);
/** Maps from CSS value (string) to internal value. */
private static final Hashtable cssValueToInternalValueMap = new Hashtable(13);
static {
// load the attribute map
for (int i = 0; i < Attribute.allAttributes.length; i++ ) {
attributeMap.put(Attribute.allAttributes[i].toString(),
Attribute.allAttributes[i]);
}
// load the value map
for (int i = 0; i < Value.allValues.length; i++ ) {
valueMap.put(Value.allValues[i].toString(),
Value.allValues[i]);
}
htmlAttrToCssAttrMap.put(HTML.Attribute.COLOR,
new CSS.Attribute[]{CSS.Attribute.COLOR});
htmlAttrToCssAttrMap.put(HTML.Attribute.TEXT,
new CSS.Attribute[]{CSS.Attribute.COLOR});
htmlAttrToCssAttrMap.put(HTML.Attribute.CLEAR,
new CSS.Attribute[]{CSS.Attribute.CLEAR});
htmlAttrToCssAttrMap.put(HTML.Attribute.BACKGROUND,
new CSS.Attribute[]{CSS.Attribute.BACKGROUND_IMAGE});
htmlAttrToCssAttrMap.put(HTML.Attribute.BGCOLOR,
new CSS.Attribute[]{CSS.Attribute.BACKGROUND_COLOR});
htmlAttrToCssAttrMap.put(HTML.Attribute.WIDTH,
new CSS.Attribute[]{CSS.Attribute.WIDTH});
htmlAttrToCssAttrMap.put(HTML.Attribute.HEIGHT,
new CSS.Attribute[]{CSS.Attribute.HEIGHT});
htmlAttrToCssAttrMap.put(HTML.Attribute.BORDER,
new CSS.Attribute[]{CSS.Attribute.BORDER_TOP_WIDTH, CSS.Attribute.BORDER_RIGHT_WIDTH, CSS.Attribute.BORDER_BOTTOM_WIDTH, CSS.Attribute.BORDER_LEFT_WIDTH});
htmlAttrToCssAttrMap.put(HTML.Attribute.CELLPADDING,
new CSS.Attribute[]{CSS.Attribute.PADDING});
htmlAttrToCssAttrMap.put(HTML.Attribute.CELLSPACING,
new CSS.Attribute[]{CSS.Attribute.BORDER_SPACING});
htmlAttrToCssAttrMap.put(HTML.Attribute.MARGINWIDTH,
new CSS.Attribute[]{CSS.Attribute.MARGIN_LEFT,
CSS.Attribute.MARGIN_RIGHT});
htmlAttrToCssAttrMap.put(HTML.Attribute.MARGINHEIGHT,
new CSS.Attribute[]{CSS.Attribute.MARGIN_TOP,
CSS.Attribute.MARGIN_BOTTOM});
htmlAttrToCssAttrMap.put(HTML.Attribute.HSPACE,
new CSS.Attribute[]{CSS.Attribute.PADDING_LEFT,
CSS.Attribute.PADDING_RIGHT});
htmlAttrToCssAttrMap.put(HTML.Attribute.VSPACE,
new CSS.Attribute[]{CSS.Attribute.PADDING_BOTTOM,
CSS.Attribute.PADDING_TOP});
htmlAttrToCssAttrMap.put(HTML.Attribute.FACE,
new CSS.Attribute[]{CSS.Attribute.FONT_FAMILY});
htmlAttrToCssAttrMap.put(HTML.Attribute.SIZE,
new CSS.Attribute[]{CSS.Attribute.FONT_SIZE});
htmlAttrToCssAttrMap.put(HTML.Attribute.VALIGN,
new CSS.Attribute[]{CSS.Attribute.VERTICAL_ALIGN});
htmlAttrToCssAttrMap.put(HTML.Attribute.ALIGN,
new CSS.Attribute[]{CSS.Attribute.VERTICAL_ALIGN,
CSS.Attribute.TEXT_ALIGN,
CSS.Attribute.FLOAT});
htmlAttrToCssAttrMap.put(HTML.Attribute.TYPE,
new CSS.Attribute[]{CSS.Attribute.LIST_STYLE_TYPE});
htmlAttrToCssAttrMap.put(HTML.Attribute.NOWRAP,
new CSS.Attribute[]{CSS.Attribute.WHITE_SPACE});
// initialize StyleConstants mapping
styleConstantToCssMap.put(StyleConstants.FontFamily,
CSS.Attribute.FONT_FAMILY);
styleConstantToCssMap.put(StyleConstants.FontSize,
CSS.Attribute.FONT_SIZE);
styleConstantToCssMap.put(StyleConstants.Bold,
CSS.Attribute.FONT_WEIGHT);
styleConstantToCssMap.put(StyleConstants.Italic,
CSS.Attribute.FONT_STYLE);
styleConstantToCssMap.put(StyleConstants.Underline,
CSS.Attribute.TEXT_DECORATION);
styleConstantToCssMap.put(StyleConstants.StrikeThrough,
CSS.Attribute.TEXT_DECORATION);
styleConstantToCssMap.put(StyleConstants.Superscript,
CSS.Attribute.VERTICAL_ALIGN);
styleConstantToCssMap.put(StyleConstants.Subscript,
CSS.Attribute.VERTICAL_ALIGN);
styleConstantToCssMap.put(StyleConstants.Foreground,
CSS.Attribute.COLOR);
styleConstantToCssMap.put(StyleConstants.Background,
CSS.Attribute.BACKGROUND_COLOR);
styleConstantToCssMap.put(StyleConstants.FirstLineIndent,
CSS.Attribute.TEXT_INDENT);
styleConstantToCssMap.put(StyleConstants.LeftIndent,
CSS.Attribute.MARGIN_LEFT);
styleConstantToCssMap.put(StyleConstants.RightIndent,
CSS.Attribute.MARGIN_RIGHT);
styleConstantToCssMap.put(StyleConstants.SpaceAbove,
CSS.Attribute.MARGIN_TOP);
styleConstantToCssMap.put(StyleConstants.SpaceBelow,
CSS.Attribute.MARGIN_BOTTOM);
styleConstantToCssMap.put(StyleConstants.Alignment,
CSS.Attribute.TEXT_ALIGN);
// HTML->CSS
htmlValueToCssValueMap.put("disc", CSS.Value.DISC);
htmlValueToCssValueMap.put("square", CSS.Value.SQUARE);
htmlValueToCssValueMap.put("circle", CSS.Value.CIRCLE);
htmlValueToCssValueMap.put("1", CSS.Value.DECIMAL);
htmlValueToCssValueMap.put("a", CSS.Value.LOWER_ALPHA);
htmlValueToCssValueMap.put("A", CSS.Value.UPPER_ALPHA);
htmlValueToCssValueMap.put("i", CSS.Value.LOWER_ROMAN);
htmlValueToCssValueMap.put("I", CSS.Value.UPPER_ROMAN);
// CSS-> internal CSS
cssValueToInternalValueMap.put("none", CSS.Value.NONE);
cssValueToInternalValueMap.put("disc", CSS.Value.DISC);
cssValueToInternalValueMap.put("square", CSS.Value.SQUARE);
cssValueToInternalValueMap.put("circle", CSS.Value.CIRCLE);
cssValueToInternalValueMap.put("decimal", CSS.Value.DECIMAL);
cssValueToInternalValueMap.put("lower-roman", CSS.Value.LOWER_ROMAN);
cssValueToInternalValueMap.put("upper-roman", CSS.Value.UPPER_ROMAN);
cssValueToInternalValueMap.put("lower-alpha", CSS.Value.LOWER_ALPHA);
cssValueToInternalValueMap.put("upper-alpha", CSS.Value.UPPER_ALPHA);
cssValueToInternalValueMap.put("repeat", CSS.Value.BACKGROUND_REPEAT);
cssValueToInternalValueMap.put("no-repeat",
CSS.Value.BACKGROUND_NO_REPEAT);
cssValueToInternalValueMap.put("repeat-x",
CSS.Value.BACKGROUND_REPEAT_X);
cssValueToInternalValueMap.put("repeat-y",
CSS.Value.BACKGROUND_REPEAT_Y);
cssValueToInternalValueMap.put("scroll",
CSS.Value.BACKGROUND_SCROLL);
cssValueToInternalValueMap.put("fixed",
CSS.Value.BACKGROUND_FIXED);
// Register all the CSS attribute keys for archival/unarchival
Object[] keys = CSS.Attribute.allAttributes;
try {
for (int i = 0; i < keys.length; i++) {
StyleContext.registerStaticAttributeKey(keys[i]);
}
} catch (Throwable e) {
e.printStackTrace();
}
// Register all the CSS Values for archival/unarchival
keys = CSS.Value.allValues;
try {
for (int i = 0; i < keys.length; i++) {
StyleContext.registerStaticAttributeKey(keys[i]);
}
} catch (Throwable e) {
e.printStackTrace();
}
}
/**
* Return the set of all possible CSS attribute keys.
*/
public static Attribute[] getAllAttributeKeys() {
Attribute[] keys = new Attribute[Attribute.allAttributes.length];
System.arraycopy(Attribute.allAttributes, 0, keys, 0, Attribute.allAttributes.length);
return keys;
}
/**
* Translates a string to a <code>CSS.Attribute</code> object.
* This will return <code>null</code> if there is no attribute
* by the given name.
*
* @param name the name of the CSS attribute to fetch the
* typesafe enumeration for
* @return the <code>CSS.Attribute</code> object,
* or <code>null</code> if the string
* doesn't represent a valid attribute key
*/
public static final Attribute getAttribute(String name) {
return (Attribute) attributeMap.get(name);
}
/**
* Translates a string to a <code>CSS.Value</code> object.
* This will return <code>null</code> if there is no value
* by the given name.
*
* @param name the name of the CSS value to fetch the
* typesafe enumeration for
* @return the <code>CSS.Value</code> object,
* or <code>null</code> if the string
* doesn't represent a valid CSS value name; this does
* not mean that it doesn't represent a valid CSS value
*/
static final Value getValue(String name) {
return (Value) valueMap.get(name);
}
//
// Conversion related methods/classes
//
/**
* Returns a URL for the given CSS url string. If relative,
* <code>base</code> is used as the parent. If a valid URL can not
* be found, this will not throw a MalformedURLException, instead
* null will be returned.
*/
static URL getURL(URL base, String cssString) {
if (cssString == null) {
return null;
}
if (cssString.startsWith("url(") &&
cssString.endsWith(")")) {
cssString = cssString.substring(4, cssString.length() - 1);
}
// Absolute first
try {
URL url = new URL(cssString);
if (url != null) {
return url;
}
} catch (MalformedURLException mue) {
}
// Then relative
if (base != null) {
// Relative URL, try from base
try {
URL url = new URL(base, cssString);
return url;
}
catch (MalformedURLException muee) {
}
}
return null;
}
/**
* Converts a type Color to a hex string
* in the format "#RRGGBB"
*/
static String colorToHex(Color color) {
String colorstr = new String("#");
// Red
String str = Integer.toHexString(color.getRed());
if (str.length() > 2)
str = str.substring(0, 2);
else if (str.length() < 2)
colorstr += "0" + str;
else
colorstr += str;
// Green
str = Integer.toHexString(color.getGreen());
if (str.length() > 2)
str = str.substring(0, 2);
else if (str.length() < 2)
colorstr += "0" + str;
else
colorstr += str;
// Blue
str = Integer.toHexString(color.getBlue());
if (str.length() > 2)
str = str.substring(0, 2);
else if (str.length() < 2)
colorstr += "0" + str;
else
colorstr += str;
return colorstr;
}
/**
* Convert a "#FFFFFF" hex string to a Color.
* If the color specification is bad, an attempt
* will be made to fix it up.
*/
static final Color hexToColor(String value) {
String digits;
int n = value.length();
if (value.startsWith("#")) {
digits = value.substring(1, Math.min(value.length(), 7));
} else {
digits = value;
}
String hstr = "0x" + digits;
Color c;
try {
c = Color.decode(hstr);
} catch (NumberFormatException nfe) {
c = null;
}
return c;
}
/**
* Convert a color string such as "RED" or "#NNNNNN" or "rgb(r, g, b)"
* to a Color.
*/
static Color stringToColor(String str) {
Color color = null;
if (str.length() == 0)
color = Color.black;
else if (str.startsWith("rgb(")) {
color = parseRGB(str);
}
else if (str.charAt(0) == '#')
color = hexToColor(str);
else if (str.equalsIgnoreCase("Black"))
color = hexToColor("#000000");
else if(str.equalsIgnoreCase("Silver"))
color = hexToColor("#C0C0C0");
else if(str.equalsIgnoreCase("Gray"))
color = hexToColor("#808080");
else if(str.equalsIgnoreCase("White"))
color = hexToColor("#FFFFFF");
else if(str.equalsIgnoreCase("Maroon"))
color = hexToColor("#800000");
else if(str.equalsIgnoreCase("Red"))
color = hexToColor("#FF0000");
else if(str.equalsIgnoreCase("Purple"))
color = hexToColor("#800080");
else if(str.equalsIgnoreCase("Fuchsia"))
color = hexToColor("#FF00FF");
else if(str.equalsIgnoreCase("Green"))
color = hexToColor("#008000");
else if(str.equalsIgnoreCase("Lime"))
color = hexToColor("#00FF00");
else if(str.equalsIgnoreCase("Olive"))
color = hexToColor("#808000");
else if(str.equalsIgnoreCase("Yellow"))
color = hexToColor("#FFFF00");
else if(str.equalsIgnoreCase("Navy"))
color = hexToColor("#000080");
else if(str.equalsIgnoreCase("Blue"))
color = hexToColor("#0000FF");
else if(str.equalsIgnoreCase("Teal"))
color = hexToColor("#008080");
else if(str.equalsIgnoreCase("Aqua"))
color = hexToColor("#00FFFF");
else
color = hexToColor(str); // sometimes get specified without leading #
return color;
}
/**
* Parses a String in the format <code>rgb(r, g, b)</code> where
* each of the Color components is either an integer, or a floating number
* with a % after indicating a percentage value of 255. Values are
* constrained to fit with 0-255. The resulting Color is returned.
*/
private static Color parseRGB(String string) {
// Find the next numeric char
int[] index = new int[1];
index[0] = 4;
int red = getColorComponent(string, index);
int green = getColorComponent(string, index);
int blue = getColorComponent(string, index);
return new Color(red, green, blue);
}
/**
* Returns the next integer value from <code>string</code> starting
* at <code>index[0]</code>. The value can either can an integer, or
* a percentage (floating number ending with %), in which case it is
* multiplied by 255.
*/
private static int getColorComponent(String string, int[] index) {
int length = string.length();
char aChar;
// Skip non-decimal chars
while(index[0] < length && (aChar = string.charAt(index[0])) != '-' &&
!Character.isDigit(aChar) && aChar != '.') {
index[0]++;
}
int start = index[0];
if (start < length && string.charAt(index[0]) == '-') {
index[0]++;
}
while(index[0] < length &&
Character.isDigit(string.charAt(index[0]))) {
index[0]++;
}
if (index[0] < length && string.charAt(index[0]) == '.') {
// Decimal value
index[0]++;
while(index[0] < length &&
Character.isDigit(string.charAt(index[0]))) {
index[0]++;
}
}
if (start != index[0]) {
try {
float value = Float.parseFloat(string.substring
(start, index[0]));
if (index[0] < length && string.charAt(index[0]) == '%') {
index[0]++;
value = value * 255f / 100f;
}
return Math.min(255, Math.max(0, (int)value));
} catch (NumberFormatException nfe) {
// Treat as 0
}
}
return 0;
}
static int getIndexOfSize(float pt, int[] sizeMap) {
for (int i = 0; i < sizeMap.length; i ++ )
if (pt <= sizeMap[i])
return i + 1;
return sizeMap.length;
}
static int getIndexOfSize(float pt, StyleSheet ss) {
int[] sizeMap = (ss != null) ? ss.getSizeMap() :
StyleSheet.sizeMapDefault;
return getIndexOfSize(pt, sizeMap);
}
/**
* @return an array of all the strings in <code>value</code>
* that are separated by whitespace.
*/
static String[] parseStrings(String value) {
int current, last;
int length = (value == null) ? 0 : value.length();
Vector temp = new Vector(4);
current = 0;
while (current < length) {
// Skip ws
while (current < length && Character.isWhitespace
(value.charAt(current))) {
current++;
}
last = current;
while (current < length && !Character.isWhitespace
(value.charAt(current))) {
current++;
}
if (last != current) {
temp.addElement(value.substring(last, current));
}
current++;
}
String[] retValue = new String[temp.size()];
temp.copyInto(retValue);
return retValue;
}
/**
* Return the point size, given a size index. Legal HTML index sizes
* are 1-7.
*/
float getPointSize(int index, StyleSheet ss) {
ss = getStyleSheet(ss);
int[] sizeMap = (ss != null) ? ss.getSizeMap() :
StyleSheet.sizeMapDefault;
--index;
if (index < 0)
return sizeMap[0];
else if (index > sizeMap.length - 1)
return sizeMap[sizeMap.length - 1];
else
return sizeMap[index];
}
private void translateEmbeddedAttributes(AttributeSet htmlAttrSet,
MutableAttributeSet cssAttrSet) {
Enumeration keys = htmlAttrSet.getAttributeNames();
if (htmlAttrSet.getAttribute(StyleConstants.NameAttribute) ==
HTML.Tag.HR) {
// HR needs special handling due to us treating it as a leaf.
translateAttributes(HTML.Tag.HR, htmlAttrSet, cssAttrSet);
}
while (keys.hasMoreElements()) {
Object key = keys.nextElement();
if (key instanceof HTML.Tag) {
HTML.Tag tag = (HTML.Tag)key;
Object o = htmlAttrSet.getAttribute(tag);
if (o != null && o instanceof AttributeSet) {
translateAttributes(tag, (AttributeSet)o, cssAttrSet);
}
} else if (key instanceof CSS.Attribute) {
cssAttrSet.addAttribute(key, htmlAttrSet.getAttribute(key));
}
}
}
private void translateAttributes(HTML.Tag tag,
AttributeSet htmlAttrSet,
MutableAttributeSet cssAttrSet) {
Enumeration names = htmlAttrSet.getAttributeNames();
while (names.hasMoreElements()) {
Object name = names.nextElement();
if (name instanceof HTML.Attribute) {
HTML.Attribute key = (HTML.Attribute)name;
/*
* HTML.Attribute.ALIGN needs special processing.
* It can map to to 1 of many(3) possible CSS attributes
* depending on the nature of the tag the attribute is
* part off and depending on the value of the attribute.
*/
if (key == HTML.Attribute.ALIGN) {
String htmlAttrValue = (String)htmlAttrSet.getAttribute(HTML.Attribute.ALIGN);
if (htmlAttrValue != null) {
CSS.Attribute cssAttr = getCssAlignAttribute(tag, htmlAttrSet);
if (cssAttr != null) {
Object o = getCssValue(cssAttr, htmlAttrValue);
if (o != null) {
cssAttrSet.addAttribute(cssAttr, o);
}
}
}
} else {
/*
* The html size attribute has a mapping in the CSS world only
* if it is par of a font or base font tag.
*/
if (key == HTML.Attribute.SIZE && !isHTMLFontTag(tag)) {
continue;
}
translateAttribute(key, htmlAttrSet, cssAttrSet);
}
} else if (name instanceof CSS.Attribute) {
cssAttrSet.addAttribute(name, htmlAttrSet.getAttribute(name));
}
}
}
private void translateAttribute(HTML.Attribute key,
AttributeSet htmlAttrSet,
MutableAttributeSet cssAttrSet) {
/*
* In the case of all remaining HTML.Attribute's they
* map to 1 or more CCS.Attribute.
*/
CSS.Attribute[] cssAttrList = getCssAttribute(key);
String htmlAttrValue = (String)htmlAttrSet.getAttribute(key);
if (cssAttrList == null || htmlAttrValue == null) {
return;
}
for (int i = 0; i < cssAttrList.length; i++) {
Object o = getCssValue(cssAttrList[i], htmlAttrValue);
if (o != null) {
cssAttrSet.addAttribute(cssAttrList[i], o);
}
}
}
/**
* Given a CSS.Attribute object and its corresponding HTML.Attribute's
* value, this method returns a CssValue object to associate with the
* CSS attribute.
*
* @param the CSS.Attribute
* @param a String containing the value associated HTML.Attribtue.
*/
Object getCssValue(CSS.Attribute cssAttr, String htmlAttrValue) {
CssValue value = (CssValue)valueConvertor.get(cssAttr);
Object o = value.parseHtmlValue(htmlAttrValue);
return o;
}
/**
* Maps an HTML.Attribute object to its appropriate CSS.Attributes.
*
* @param HTML.Attribute
* @return CSS.Attribute[]
*/
private CSS.Attribute[] getCssAttribute(HTML.Attribute hAttr) {
return (CSS.Attribute[])htmlAttrToCssAttrMap.get(hAttr);
}
/**
* Maps HTML.Attribute.ALIGN to either:
* CSS.Attribute.TEXT_ALIGN
* CSS.Attribute.FLOAT
* CSS.Attribute.VERTICAL_ALIGN
* based on the tag associated with the attribute and the
* value of the attribute.
*
* @param AttributeSet containing HTML attributes.
* @return CSS.Attribute mapping for HTML.Attribute.ALIGN.
*/
private CSS.Attribute getCssAlignAttribute(HTML.Tag tag,
AttributeSet htmlAttrSet) {
return CSS.Attribute.TEXT_ALIGN;
/*
String htmlAttrValue = (String)htmlAttrSet.getAttribute(HTML.Attribute.ALIGN);
CSS.Attribute cssAttr = CSS.Attribute.TEXT_ALIGN;
if (htmlAttrValue != null && htmlAttrSet instanceof Element) {
Element elem = (Element)htmlAttrSet;
if (!elem.isLeaf() && tag.isBlock() && validTextAlignValue(htmlAttrValue)) {
return CSS.Attribute.TEXT_ALIGN;
} else if (isFloater(htmlAttrValue)) {
return CSS.Attribute.FLOAT;
} else if (elem.isLeaf()) {
return CSS.Attribute.VERTICAL_ALIGN;
}
}
return null;
*/
}
/**
* Fetches the tag associated with the HTML AttributeSet.
*
* @param AttributeSet containing the HTML attributes.
* @return HTML.Tag
*/
private HTML.Tag getHTMLTag(AttributeSet htmlAttrSet) {
Object o = htmlAttrSet.getAttribute(StyleConstants.NameAttribute);
if (o instanceof HTML.Tag) {
HTML.Tag tag = (HTML.Tag) o;
return tag;
}
return null;
}
private boolean isHTMLFontTag(HTML.Tag tag) {
return (tag != null && ((tag == HTML.Tag.FONT) || (tag == HTML.Tag.BASEFONT)));
}
private boolean isFloater(String alignValue) {
return (alignValue.equals("left") || alignValue.equals("right"));
}
private boolean validTextAlignValue(String alignValue) {
return (isFloater(alignValue) || alignValue.equals("center"));
}
/**
* Base class to CSS values in the attribute sets. This
* is intended to act as a convertor to/from other attribute
* formats.
* <p>
* The CSS parser uses the parseCssValue method to convert
* a string to whatever format is appropriate a given key
* (i.e. these convertors are stored in a map using the
* CSS.Attribute as a key and the CssValue as the value).
* <p>
* The HTML to CSS conversion process first converts the
* HTML.Attribute to a CSS.Attribute, and then calls
* the parseHtmlValue method on the value of the HTML
* attribute to produce the corresponding CSS value.
* <p>
* The StyleConstants to CSS conversion process first
* converts the StyleConstants attribute to a
* CSS.Attribute, and then calls the fromStyleConstants
* method to convert the StyleConstants value to a
* CSS value.
* <p>
* The CSS to StyleConstants conversion process first
* converts the StyleConstants attribute to a
* CSS.Attribute, and then calls the toStyleConstants
* method to convert the CSS value to a StyleConstants
* value.
*/
static class CssValue implements Serializable {
/**
* Convert a CSS value string to the internal format
* (for fast processing) used in the attribute sets.
* The fallback storage for any value that we don't
* have a special binary format for is a String.
*/
Object parseCssValue(String value) {
return value;
}
/**
* Convert an HTML attribute value to a CSS attribute
* value. If there is no conversion, return null.
* This is implemented to simply forward to the CSS
* parsing by default (since some of the attribute
* values are the same). If the attribute value
* isn't recognized as a CSS value it is generally
* returned as null.
*/
Object parseHtmlValue(String value) {
return parseCssValue(value);
}
/**
* Converts a <code>StyleConstants</code> attribute value to
* a CSS attribute value. If there is no conversion,
* returns <code>null</code>. By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @param value the value of a <code>StyleConstants</code>
* attribute to be converted
* @return the CSS value that represents the
* <code>StyleConstants</code> value
*/
Object fromStyleConstants(StyleConstants key, Object value) {
return null;
}
/**
* Converts a CSS attribute value to a
* <code>StyleConstants</code>
* value. If there is no conversion, returns
* <code>null</code>.
* By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @param v the view containing <code>AttributeSet</code>
* @return the <code>StyleConstants</code> attribute value that
* represents the CSS attribute value
*/
Object toStyleConstants(StyleConstants key, View v) {
return null;
}
/**
* Return the CSS format of the value
*/
public String toString() {
return svalue;
}
/**
* The value as a string... before conversion to a
* binary format.
*/
String svalue;
}
/**
* By default CSS attributes are represented as simple
* strings. They also have no conversion to/from
* StyleConstants by default. This class represents the
* value as a string (via the superclass), but
* provides StyleConstants conversion support for the
* CSS attributes that are held as strings.
*/
static class StringValue extends CssValue {
/**
* Convert a CSS value string to the internal format
* (for fast processing) used in the attribute sets.
* This produces a StringValue, so that it can be
* used to convert from CSS to StyleConstants values.
*/
Object parseCssValue(String value) {
StringValue sv = new StringValue();
sv.svalue = value;
return sv;
}
/**
* Converts a <code>StyleConstants</code> attribute value to
* a CSS attribute value. If there is no conversion
* returns <code>null</code>.
*
* @param key the <code>StyleConstants</code> attribute
* @param value the value of a <code>StyleConstants</code>
* attribute to be converted
* @return the CSS value that represents the
* <code>StyleConstants</code> value
*/
Object fromStyleConstants(StyleConstants key, Object value) {
if (key == StyleConstants.Italic) {
if (value.equals(Boolean.TRUE)) {
return parseCssValue("italic");
}
return parseCssValue("");
} else if (key == StyleConstants.Underline) {
if (value.equals(Boolean.TRUE)) {
return parseCssValue("underline");
}
return parseCssValue("");
} else if (key == StyleConstants.Alignment) {
int align = ((Integer)value).intValue();
String ta;
switch(align) {
case StyleConstants.ALIGN_LEFT:
ta = "left";
break;
case StyleConstants.ALIGN_RIGHT:
ta = "right";
break;
case StyleConstants.ALIGN_CENTER:
ta = "center";
break;
case StyleConstants.ALIGN_JUSTIFIED:
ta = "justify";
break;
default:
ta = "left";
}
return parseCssValue(ta);
} else if (key == StyleConstants.StrikeThrough) {
if (value.equals(Boolean.TRUE)) {
return parseCssValue("line-through");
}
return parseCssValue("");
} else if (key == StyleConstants.Superscript) {
if (value.equals(Boolean.TRUE)) {
return parseCssValue("super");
}
return parseCssValue("");
} else if (key == StyleConstants.Subscript) {
if (value.equals(Boolean.TRUE)) {
return parseCssValue("sub");
}
return parseCssValue("");
}
return null;
}
/**
* Converts a CSS attribute value to a
* <code>StyleConstants</code> value.
* If there is no conversion, returns <code>null</code>.
* By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @return the <code>StyleConstants</code> attribute value that
* represents the CSS attribute value
*/
Object toStyleConstants(StyleConstants key, View v) {
if (key == StyleConstants.Italic) {
if (svalue.indexOf("italic") >= 0) {
return Boolean.TRUE;
}
return Boolean.FALSE;
} else if (key == StyleConstants.Underline) {
if (svalue.indexOf("underline") >= 0) {
return Boolean.TRUE;
}
return Boolean.FALSE;
} else if (key == StyleConstants.Alignment) {
if (svalue.equals("right")) {
return new Integer(StyleConstants.ALIGN_RIGHT);
} else if (svalue.equals("center")) {
return new Integer(StyleConstants.ALIGN_CENTER);
} else if (svalue.equals("justify")) {
return new Integer(StyleConstants.ALIGN_JUSTIFIED);
}
return new Integer(StyleConstants.ALIGN_LEFT);
} else if (key == StyleConstants.StrikeThrough) {
if (svalue.indexOf("line-through") >= 0) {
return Boolean.TRUE;
}
return Boolean.FALSE;
} else if (key == StyleConstants.Superscript) {
if (svalue.indexOf("super") >= 0) {
return Boolean.TRUE;
}
return Boolean.FALSE;
} else if (key == StyleConstants.Subscript) {
if (svalue.indexOf("sub") >= 0) {
return Boolean.TRUE;
}
return Boolean.FALSE;
}
return null;
}
// Used by ViewAttributeSet
boolean isItalic() {
return (svalue.indexOf("italic") != -1);
}
boolean isStrike() {
return (svalue.indexOf("line-through") != -1);
}
boolean isUnderline() {
return (svalue.indexOf("underline") != -1);
}
boolean isSub() {
return (svalue.indexOf("sub") != -1);
}
boolean isSup() {
return (svalue.indexOf("sup") != -1);
}
}
/**
* Represents a value for the CSS.FONT_SIZE attribute.
* The binary format of the value can be one of several
* types. If the type is Float,
* the value is specified in terms of point or
* percentage, depending upon the ending of the
* associated string.
* If the type is Integer, the value is specified
* in terms of a size index.
*/
class FontSize extends CssValue {
/**
* Returns the size in points. This is ultimately
* what we need for the purpose of creating/fetching
* a Font object.
*
* @param a the attribute set the value is being
* requested from. We may need to walk up the
* resolve hierarchy if it's relative.
*/
int getValue(AttributeSet a, StyleSheet ss) {
ss = getStyleSheet(ss);
if (index) {
// it's an index, translate from size table
return Math.round(getPointSize((int) value, ss));
}
else if (lu == null) {
return Math.round(value);
}
else {
if (lu.type == 0) {
boolean isW3CLengthUnits = (ss == null) ? false : ss.isW3CLengthUnits();
return Math.round(lu.getValue(isW3CLengthUnits));
}
if (a != null) {
AttributeSet resolveParent = a.getResolveParent();
if (resolveParent != null) {
int pValue = StyleConstants.getFontSize(resolveParent);
float retValue;
if (lu.type == 1 || lu.type == 3) {
retValue = lu.value * (float)pValue;
}
else {
retValue = lu.value + (float)pValue;
}
return Math.round(retValue);
}
}
// a is null, or no resolve parent.
return 12;
}
}
Object parseCssValue(String value) {
FontSize fs = new FontSize();
fs.svalue = value;
try {
if (value.equals("xx-small")) {
fs.value = 1;
fs.index = true;
} else if (value.equals("x-small")) {
fs.value = 2;
fs.index = true;
} else if (value.equals("small")) {
fs.value = 3;
fs.index = true;
} else if (value.equals("medium")) {
fs.value = 4;
fs.index = true;
} else if (value.equals("large")) {
fs.value = 5;
fs.index = true;
} else if (value.equals("x-large")) {
fs.value = 6;
fs.index = true;
} else if (value.equals("xx-large")) {
fs.value = 7;
fs.index = true;
} else {
fs.lu = new LengthUnit(value, (short)1, 1f);
}
// relative sizes, larger | smaller (adjust from parent by
// 1.5 pixels)
// em, ex refer to parent sizes
// lengths: pt, mm, cm, pc, in, px
// em (font height 3em would be 3 times font height)
// ex (height of X)
// lengths are (+/-) followed by a number and two letter
// unit identifier
} catch (NumberFormatException nfe) {
fs = null;
}
return fs;
}
Object parseHtmlValue(String value) {
FontSize fs = new FontSize();
fs.svalue = value;
try {
/*
* relative sizes in the size attribute are relative
* to the <basefont>'s size.
*/
int baseFontSize = getBaseFontSize();
if ((value != null) && (value.charAt(0) == '+')) {
int relSize = Integer.valueOf(value.substring(1)).intValue();
fs.value = baseFontSize + relSize;
fs.index = true;
} else if ((value != null) && (value.charAt(0) == '-')) {
int relSize = -Integer.valueOf(value.substring(1)).intValue();
fs.value = baseFontSize + relSize;
fs.index = true;
} else {
fs.value = Integer.parseInt(value);
if (fs.value > 7) {
fs.value = 7;
} else if (fs.value < 0) {
fs.value = 0;
}
fs.index = true;
}
} catch (NumberFormatException nfe) {
fs = null;
}
return fs;
}
/**
* Converts a <code>StyleConstants</code> attribute value to
* a CSS attribute value. If there is no conversion
* returns <code>null</code>. By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @param value the value of a <code>StyleConstants</code>
* attribute to be converted
* @return the CSS value that represents the
* <code>StyleConstants</code> value
*/
Object fromStyleConstants(StyleConstants key, Object value) {
if (value instanceof Number) {
FontSize fs = new FontSize();
fs.value = getIndexOfSize(((Number)value).floatValue(), StyleSheet.sizeMapDefault);
fs.svalue = Integer.toString((int)fs.value);
fs.index = true;
return fs;
}
return parseCssValue(value.toString());
}
/**
* Converts a CSS attribute value to a <code>StyleConstants</code>
* value. If there is no conversion, returns <code>null</code>.
* By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @return the <code>StyleConstants</code> attribute value that
* represents the CSS attribute value
*/
Object toStyleConstants(StyleConstants key, View v) {
if (v != null) {
return Integer.valueOf(getValue(v.getAttributes(), null));
}
return Integer.valueOf(getValue(null, null));
}
float value;
boolean index;
LengthUnit lu;
}
static class FontFamily extends CssValue {
/**
* Returns the font family to use.
*/
String getValue() {
return family;
}
Object parseCssValue(String value) {
int cIndex = value.indexOf(',');
FontFamily ff = new FontFamily();
ff.svalue = value;
ff.family = null;
if (cIndex == -1) {
setFontName(ff, value);
}
else {
boolean done = false;
int lastIndex;
int length = value.length();
cIndex = 0;
while (!done) {
// skip ws.
while (cIndex < length &&
Character.isWhitespace(value.charAt(cIndex)))
cIndex++;
// Find next ','
lastIndex = cIndex;
cIndex = value.indexOf(',', cIndex);
if (cIndex == -1) {
cIndex = length;
}
if (lastIndex < length) {
if (lastIndex != cIndex) {
int lastCharIndex = cIndex;
if (cIndex > 0 && value.charAt(cIndex - 1) == ' '){
lastCharIndex--;
}
setFontName(ff, value.substring
(lastIndex, lastCharIndex));
done = (ff.family != null);
}
cIndex++;
}
else {
done = true;
}
}
}
if (ff.family == null) {
ff.family = Font.SANS_SERIF;
}
return ff;
}
private void setFontName(FontFamily ff, String fontName) {
ff.family = fontName;
}
Object parseHtmlValue(String value) {
// TBD
return parseCssValue(value);
}
/**
* Converts a <code>StyleConstants</code> attribute value to
* a CSS attribute value. If there is no conversion
* returns <code>null</code>. By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @param value the value of a <code>StyleConstants</code>
* attribute to be converted
* @return the CSS value that represents the
* <code>StyleConstants</code> value
*/
Object fromStyleConstants(StyleConstants key, Object value) {
return parseCssValue(value.toString());
}
/**
* Converts a CSS attribute value to a <code>StyleConstants</code>
* value. If there is no conversion, returns <code>null</code>.
* By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @return the <code>StyleConstants</code> attribute value that
* represents the CSS attribute value
*/
Object toStyleConstants(StyleConstants key, View v) {
return family;
}
String family;
}
static class FontWeight extends CssValue {
int getValue() {
return weight;
}
Object parseCssValue(String value) {
FontWeight fw = new FontWeight();
fw.svalue = value;
if (value.equals("bold")) {
fw.weight = 700;
} else if (value.equals("normal")) {
fw.weight = 400;
} else {
// PENDING(prinz) add support for relative values
try {
fw.weight = Integer.parseInt(value);
} catch (NumberFormatException nfe) {
fw = null;
}
}
return fw;
}
/**
* Converts a <code>StyleConstants</code> attribute value to
* a CSS attribute value. If there is no conversion
* returns <code>null</code>. By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @param value the value of a <code>StyleConstants</code>
* attribute to be converted
* @return the CSS value that represents the
* <code>StyleConstants</code> value
*/
Object fromStyleConstants(StyleConstants key, Object value) {
if (value.equals(Boolean.TRUE)) {
return parseCssValue("bold");
}
return parseCssValue("normal");
}
/**
* Converts a CSS attribute value to a <code>StyleConstants</code>
* value. If there is no conversion, returns <code>null</code>.
* By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @return the <code>StyleConstants</code> attribute value that
* represents the CSS attribute value
*/
Object toStyleConstants(StyleConstants key, View v) {
return (weight > 500) ? Boolean.TRUE : Boolean.FALSE;
}
boolean isBold() {
return (weight > 500);
}
int weight;
}
static class ColorValue extends CssValue {
/**
* Returns the color to use.
*/
Color getValue() {
return c;
}
Object parseCssValue(String value) {
Color c = stringToColor(value);
if (c != null) {
ColorValue cv = new ColorValue();
cv.svalue = value;
cv.c = c;
return cv;
}
return null;
}
Object parseHtmlValue(String value) {
return parseCssValue(value);
}
/**
* Converts a <code>StyleConstants</code> attribute value to
* a CSS attribute value. If there is no conversion
* returns <code>null</code>. By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @param value the value of a <code>StyleConstants</code>
* attribute to be converted
* @return the CSS value that represents the
* <code>StyleConstants</code> value
*/
Object fromStyleConstants(StyleConstants key, Object value) {
ColorValue colorValue = new ColorValue();
colorValue.c = (Color)value;
colorValue.svalue = colorToHex(colorValue.c);
return colorValue;
}
/**
* Converts a CSS attribute value to a <code>StyleConstants</code>
* value. If there is no conversion, returns <code>null</code>.
* By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @return the <code>StyleConstants</code> attribute value that
* represents the CSS attribute value
*/
Object toStyleConstants(StyleConstants key, View v) {
return c;
}
Color c;
}
static class BorderStyle extends CssValue {
CSS.Value getValue() {
return style;
}
Object parseCssValue(String value) {
CSS.Value cssv = CSS.getValue(value);
if (cssv != null) {
if ((cssv == CSS.Value.INSET) ||
(cssv == CSS.Value.OUTSET) ||
(cssv == CSS.Value.NONE) ||
(cssv == CSS.Value.DOTTED) ||
(cssv == CSS.Value.DASHED) ||
(cssv == CSS.Value.SOLID) ||
(cssv == CSS.Value.DOUBLE) ||
(cssv == CSS.Value.GROOVE) ||
(cssv == CSS.Value.RIDGE)) {
BorderStyle bs = new BorderStyle();
bs.svalue = value;
bs.style = cssv;
return bs;
}
}
return null;
}
private void writeObject(java.io.ObjectOutputStream s)
throws IOException {
s.defaultWriteObject();
if (style == null) {
s.writeObject(null);
}
else {
s.writeObject(style.toString());
}
}
private void readObject(ObjectInputStream s)
throws ClassNotFoundException, IOException {
s.defaultReadObject();
Object value = s.readObject();
if (value != null) {
style = CSS.getValue((String)value);
}
}
// CSS.Values are static, don't archive it.
transient private CSS.Value style;
}
static class LengthValue extends CssValue {
/**
* if this length value may be negative.
*/
boolean mayBeNegative;
LengthValue() {
this(false);
}
LengthValue(boolean mayBeNegative) {
this.mayBeNegative = mayBeNegative;
}
/**
* Returns the length (span) to use.
*/
float getValue() {
return getValue(false);
}
float getValue(boolean isW3CLengthUnits) {
return getValue(0, isW3CLengthUnits);
}
/**
* Returns the length (span) to use. If the value represents
* a percentage, it is scaled based on <code>currentValue</code>.
*/
float getValue(float currentValue) {
return getValue(currentValue, false);
}
float getValue(float currentValue, boolean isW3CLengthUnits) {
if (percentage) {
return span * currentValue;
}
return LengthUnit.getValue(span, units, isW3CLengthUnits);
}
/**
* Returns true if the length represents a percentage of the
* containing box.
*/
boolean isPercentage() {
return percentage;
}
Object parseCssValue(String value) {
LengthValue lv;
try {
// Assume pixels
float absolute = Float.valueOf(value).floatValue();
lv = new LengthValue();
lv.span = absolute;
} catch (NumberFormatException nfe) {
// Not pixels, use LengthUnit
LengthUnit lu = new LengthUnit(value,
LengthUnit.UNINITALIZED_LENGTH,
0);
// PENDING: currently, we only support absolute values and
// percentages.
switch (lu.type) {
case 0:
// Absolute
lv = new LengthValue();
lv.span =
(mayBeNegative) ? lu.value : Math.max(0, lu.value);
lv.units = lu.units;
break;
case 1:
// %
lv = new LengthValue();
lv.span = Math.max(0, Math.min(1, lu.value));
lv.percentage = true;
break;
default:
return null;
}
}
lv.svalue = value;
return lv;
}
Object parseHtmlValue(String value) {
if (value.equals(HTML.NULL_ATTRIBUTE_VALUE)) {
value = "1";
}
return parseCssValue(value);
}
/**
* Converts a <code>StyleConstants</code> attribute value to
* a CSS attribute value. If there is no conversion,
* returns <code>null</code>. By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @param value the value of a <code>StyleConstants</code>
* attribute to be converted
* @return the CSS value that represents the
* <code>StyleConstants</code> value
*/
Object fromStyleConstants(StyleConstants key, Object value) {
LengthValue v = new LengthValue();
v.svalue = value.toString();
v.span = ((Float)value).floatValue();
return v;
}
/**
* Converts a CSS attribute value to a <code>StyleConstants</code>
* value. If there is no conversion, returns <code>null</code>.
* By default, there is no conversion.
*
* @param key the <code>StyleConstants</code> attribute
* @return the <code>StyleConstants</code> attribute value that
* represents the CSS attribute value
*/
Object toStyleConstants(StyleConstants key, View v) {
return new Float(getValue(false));
}
/** If true, span is a percentage value, and that to determine
* the length another value needs to be passed in. */
boolean percentage;
/** Either the absolute value (percentage == false) or
* a percentage value. */
float span;
String units = null;
}
/**
* BorderWidthValue is used to model BORDER_XXX_WIDTH and adds support
* for the thin/medium/thick values.
*/
static class BorderWidthValue extends LengthValue {
BorderWidthValue(String svalue, int index) {
this.svalue = svalue;
span = values[index];
percentage = false;
}
Object parseCssValue(String value) {
if (value != null) {
if (value.equals("thick")) {
return new BorderWidthValue(value, 2);
}
else if (value.equals("medium")) {
return new BorderWidthValue(value, 1);
}
else if (value.equals("thin")) {
return new BorderWidthValue(value, 0);
}
}
// Assume its a length.
return super.parseCssValue(value);
}
Object parseHtmlValue(String value) {
if (value == HTML.NULL_ATTRIBUTE_VALUE) {
return parseCssValue("medium");
}
return parseCssValue(value);
}
/** Values used to represent border width. */
private static final float[] values = { 1, 2, 4 };
}
/**
* Handles uniquing of CSS values, like lists, and background image
* repeating.
*/
static class CssValueMapper extends CssValue {
Object parseCssValue(String value) {
Object retValue = cssValueToInternalValueMap.get(value);
if (retValue == null) {
retValue = cssValueToInternalValueMap.get(value.toLowerCase());
}
return retValue;
}
Object parseHtmlValue(String value) {
Object retValue = htmlValueToCssValueMap.get(value);
if (retValue == null) {
retValue = htmlValueToCssValueMap.get(value.toLowerCase());
}
return retValue;
}
}
/**
* Used for background images, to represent the position.
*/
static class BackgroundPosition extends CssValue {
float horizontalPosition;
float verticalPosition;
// bitmask: bit 0, horizontal relative, bit 1 horizontal relative to
// font size, 2 vertical relative to size, 3 vertical relative to
// font size.
//
short relative;
Object parseCssValue(String value) {
// 'top left' and 'left top' both mean the same as '0% 0%'.
// 'top', 'top center' and 'center top' mean the same as '50% 0%'.
// 'right top' and 'top right' mean the same as '100% 0%'.
// 'left', 'left center' and 'center left' mean the same as
// '0% 50%'.
// 'center' and 'center center' mean the same as '50% 50%'.
// 'right', 'right center' and 'center right' mean the same as
// '100% 50%'.
// 'bottom left' and 'left bottom' mean the same as '0% 100%'.
// 'bottom', 'bottom center' and 'center bottom' mean the same as
// '50% 100%'.
// 'bottom right' and 'right bottom' mean the same as '100% 100%'.
String[] strings = CSS.parseStrings(value);
int count = strings.length;
BackgroundPosition bp = new BackgroundPosition();
bp.relative = 5;
bp.svalue = value;
if (count > 0) {
// bit 0 for vert, 1 hor, 2 for center
short found = 0;
int index = 0;
while (index < count) {
// First, check for keywords
String string = strings[index++];
if (string.equals("center")) {
found |= 4;
continue;
}
else {
if ((found & 1) == 0) {
if (string.equals("top")) {
found |= 1;
}
else if (string.equals("bottom")) {
found |= 1;
bp.verticalPosition = 1;
continue;
}
}
if ((found & 2) == 0) {
if (string.equals("left")) {
found |= 2;
bp.horizontalPosition = 0;
}
else if (string.equals("right")) {
found |= 2;
bp.horizontalPosition = 1;
}
}
}
}
if (found != 0) {
if ((found & 1) == 1) {
if ((found & 2) == 0) {
// vert and no horiz.
bp.horizontalPosition = .5f;
}
}
else if ((found & 2) == 2) {
// horiz and no vert.
bp.verticalPosition = .5f;
}
else {
// no horiz, no vert, but center
bp.horizontalPosition = bp.verticalPosition = .5f;
}
}
else {
// Assume lengths
LengthUnit lu = new LengthUnit(strings[0], (short)0, 0f);
if (lu.type == 0) {
bp.horizontalPosition = lu.value;
bp.relative = (short)(1 ^ bp.relative);
}
else if (lu.type == 1) {
bp.horizontalPosition = lu.value;
}
else if (lu.type == 3) {
bp.horizontalPosition = lu.value;
bp.relative = (short)((1 ^ bp.relative) | 2);
}
if (count > 1) {
lu = new LengthUnit(strings[1], (short)0, 0f);
if (lu.type == 0) {
bp.verticalPosition = lu.value;
bp.relative = (short)(4 ^ bp.relative);
}
else if (lu.type == 1) {
bp.verticalPosition = lu.value;
}
else if (lu.type == 3) {
bp.verticalPosition = lu.value;
bp.relative = (short)((4 ^ bp.relative) | 8);
}
}
else {
bp.verticalPosition = .5f;
}
}
}
return bp;
}
boolean isHorizontalPositionRelativeToSize() {
return ((relative & 1) == 1);
}
boolean isHorizontalPositionRelativeToFontSize() {
return ((relative & 2) == 2);
}
float getHorizontalPosition() {
return horizontalPosition;
}
boolean isVerticalPositionRelativeToSize() {
return ((relative & 4) == 4);
}
boolean isVerticalPositionRelativeToFontSize() {
return ((relative & 8) == 8);
}
float getVerticalPosition() {
return verticalPosition;
}
}
/**
* Used for BackgroundImages.
*/
static class BackgroundImage extends CssValue {
private boolean loadedImage;
private ImageIcon image;
Object parseCssValue(String value) {
BackgroundImage retValue = new BackgroundImage();
retValue.svalue = value;
return retValue;
}
Object parseHtmlValue(String value) {
return parseCssValue(value);
}
// PENDING: this base is wrong for linked style sheets.
ImageIcon getImage(URL base) {
if (!loadedImage) {
synchronized(this) {
if (!loadedImage) {
URL url = CSS.getURL(base, svalue);
loadedImage = true;
if (url != null) {
image = new ImageIcon();
Image tmpImg = Toolkit.getDefaultToolkit().createImage(url);
if (tmpImg != null) {
image.setImage(tmpImg);
}
}
}
}
}
return image;
}
}
/**
* Parses a length value, this is used internally, and never added
* to an AttributeSet or returned to the developer.
*/
static class LengthUnit implements Serializable {
static Hashtable lengthMapping = new Hashtable(6);
static Hashtable w3cLengthMapping = new Hashtable(6);
static {
lengthMapping.put("pt", new Float(1f));
// Not sure about 1.3, determined by experiementation.
lengthMapping.put("px", new Float(1.3f));
lengthMapping.put("mm", new Float(2.83464f));
lengthMapping.put("cm", new Float(28.3464f));
lengthMapping.put("pc", new Float(12f));
lengthMapping.put("in", new Float(72f));
int res = 72;
try {
res = Toolkit.getDefaultToolkit().getScreenResolution();
} catch (HeadlessException e) {
}
// mapping according to the CSS2 spec
w3cLengthMapping.put("pt", new Float(res/72f));
w3cLengthMapping.put("px", new Float(1f));
w3cLengthMapping.put("mm", new Float(res/25.4f));
w3cLengthMapping.put("cm", new Float(res/2.54f));
w3cLengthMapping.put("pc", new Float(res/6f));
w3cLengthMapping.put("in", new Float(res));
}
LengthUnit(String value, short defaultType, float defaultValue) {
parse(value, defaultType, defaultValue);
}
void parse(String value, short defaultType, float defaultValue) {
type = defaultType;
this.value = defaultValue;
int length = value.length();
if (length > 0 && value.charAt(length - 1) == '%') {
try {
this.value = Float.valueOf(value.substring(0, length - 1)).
floatValue() / 100.0f;
type = 1;
}
catch (NumberFormatException nfe) { }
}
if (length >= 2) {
units = value.substring(length - 2, length);
Float scale = (Float)lengthMapping.get(units);
if (scale != null) {
try {
this.value = Float.valueOf(value.substring(0,
length - 2)).floatValue();
type = 0;
}
catch (NumberFormatException nfe) { }
}
else if (units.equals("em") ||
units.equals("ex")) {
try {
this.value = Float.valueOf(value.substring(0,
length - 2)).floatValue();
type = 3;
}
catch (NumberFormatException nfe) { }
}
else if (value.equals("larger")) {
this.value = 2f;
type = 2;
}
else if (value.equals("smaller")) {
this.value = -2;
type = 2;
}
else {
// treat like points.
try {
this.value = Float.valueOf(value).floatValue();
type = 0;
} catch (NumberFormatException nfe) {}
}
}
else if (length > 0) {
// treat like points.
try {
this.value = Float.valueOf(value).floatValue();
type = 0;
} catch (NumberFormatException nfe) {}
}
}
float getValue(boolean w3cLengthUnits) {
Hashtable mapping = (w3cLengthUnits) ? w3cLengthMapping : lengthMapping;
float scale = 1;
if (units != null) {
Float scaleFloat = (Float)mapping.get(units);
if (scaleFloat != null) {
scale = scaleFloat.floatValue();
}
}
return this.value * scale;
}
static float getValue(float value, String units, Boolean w3cLengthUnits) {
Hashtable mapping = (w3cLengthUnits) ? w3cLengthMapping : lengthMapping;
float scale = 1;
if (units != null) {
Float scaleFloat = (Float)mapping.get(units);
if (scaleFloat != null) {
scale = scaleFloat.floatValue();
}
}
return value * scale;
}
public String toString() {
return type + " " + value;
}
// 0 - value indicates real value
// 1 - % value, value relative to depends upon key.
// 50% will have a value = .5
// 2 - add value to parent value.
// 3 - em/ex relative to font size of element (except for
// font-size, which is relative to parent).
short type;
float value;
String units = null;
static final short UNINITALIZED_LENGTH = (short)10;
}
/**
* Class used to parse font property. The font property is shorthand
* for the other font properties. This expands the properties, placing
* them in the attributeset.
*/
static class ShorthandFontParser {
/**
* Parses the shorthand font string <code>value</code>, placing the
* result in <code>attr</code>.
*/
static void parseShorthandFont(CSS css, String value,
MutableAttributeSet attr) {
// font is of the form:
// [ <font-style> || <font-variant> || <font-weight> ]? <font-size>
// [ / <line-height> ]? <font-family>
String[] strings = CSS.parseStrings(value);
int count = strings.length;
int index = 0;
// bitmask, 1 for style, 2 for variant, 3 for weight
short found = 0;
int maxC = Math.min(3, count);
// Check for font-style font-variant font-weight
while (index < maxC) {
if ((found & 1) == 0 && isFontStyle(strings[index])) {
css.addInternalCSSValue(attr, CSS.Attribute.FONT_STYLE,
strings[index++]);
found |= 1;
}
else if ((found & 2) == 0 && isFontVariant(strings[index])) {
css.addInternalCSSValue(attr, CSS.Attribute.FONT_VARIANT,
strings[index++]);
found |= 2;
}
else if ((found & 4) == 0 && isFontWeight(strings[index])) {
css.addInternalCSSValue(attr, CSS.Attribute.FONT_WEIGHT,
strings[index++]);
found |= 4;
}
else if (strings[index].equals("normal")) {
index++;
}
else {
break;
}
}
if ((found & 1) == 0) {
css.addInternalCSSValue(attr, CSS.Attribute.FONT_STYLE,
"normal");
}
if ((found & 2) == 0) {
css.addInternalCSSValue(attr, CSS.Attribute.FONT_VARIANT,
"normal");
}
if ((found & 4) == 0) {
css.addInternalCSSValue(attr, CSS.Attribute.FONT_WEIGHT,
"normal");
}
// string at index should be the font-size
if (index < count) {
String fontSize = strings[index];
int slashIndex = fontSize.indexOf('/');
if (slashIndex != -1) {
fontSize = fontSize.substring(0, slashIndex);
strings[index] = strings[index].substring(slashIndex);
}
else {
index++;
}
css.addInternalCSSValue(attr, CSS.Attribute.FONT_SIZE,
fontSize);
}
else {
css.addInternalCSSValue(attr, CSS.Attribute.FONT_SIZE,
"medium");
}
// Check for line height
if (index < count && strings[index].startsWith("/")) {
String lineHeight = null;
if (strings[index].equals("/")) {
if (++index < count) {
lineHeight = strings[index++];
}
}
else {
lineHeight = strings[index++].substring(1);
}
// line height
if (lineHeight != null) {
css.addInternalCSSValue(attr, CSS.Attribute.LINE_HEIGHT,
lineHeight);
}
else {
css.addInternalCSSValue(attr, CSS.Attribute.LINE_HEIGHT,
"normal");
}
}
else {
css.addInternalCSSValue(attr, CSS.Attribute.LINE_HEIGHT,
"normal");
}
// remainder of strings are font-family
if (index < count) {
String family = strings[index++];
while (index < count) {
family += " " + strings[index++];
}
css.addInternalCSSValue(attr, CSS.Attribute.FONT_FAMILY,
family);
}
else {
css.addInternalCSSValue(attr, CSS.Attribute.FONT_FAMILY,
Font.SANS_SERIF);
}
}
private static boolean isFontStyle(String string) {
return (string.equals("italic") ||
string.equals("oblique"));
}
private static boolean isFontVariant(String string) {
return (string.equals("small-caps"));
}
private static boolean isFontWeight(String string) {
if (string.equals("bold") || string.equals("bolder") ||
string.equals("italic") || string.equals("lighter")) {
return true;
}
// test for 100-900
return (string.length() == 3 &&
string.charAt(0) >= '1' && string.charAt(0) <= '9' &&
string.charAt(1) == '0' && string.charAt(2) == '0');
}
}
/**
* Parses the background property into its intrinsic values.
*/
static class ShorthandBackgroundParser {
/**
* Parses the shorthand font string <code>value</code>, placing the
* result in <code>attr</code>.
*/
static void parseShorthandBackground(CSS css, String value,
MutableAttributeSet attr) {
String[] strings = parseStrings(value);
int count = strings.length;
int index = 0;
// bitmask: 0 for image, 1 repeat, 2 attachment, 3 position,
// 4 color
short found = 0;
while (index < count) {
String string = strings[index++];
if ((found & 1) == 0 && isImage(string)) {
css.addInternalCSSValue(attr, CSS.Attribute.
BACKGROUND_IMAGE, string);
found |= 1;
}
else if ((found & 2) == 0 && isRepeat(string)) {
css.addInternalCSSValue(attr, CSS.Attribute.
BACKGROUND_REPEAT, string);
found |= 2;
}
else if ((found & 4) == 0 && isAttachment(string)) {
css.addInternalCSSValue(attr, CSS.Attribute.
BACKGROUND_ATTACHMENT, string);
found |= 4;
}
else if ((found & 8) == 0 && isPosition(string)) {
if (index < count && isPosition(strings[index])) {
css.addInternalCSSValue(attr, CSS.Attribute.
BACKGROUND_POSITION,
string + " " +
strings[index++]);
}
else {
css.addInternalCSSValue(attr, CSS.Attribute.
BACKGROUND_POSITION, string);
}
found |= 8;
}
else if ((found & 16) == 0 && isColor(string)) {
css.addInternalCSSValue(attr, CSS.Attribute.
BACKGROUND_COLOR, string);
found |= 16;
}
}
if ((found & 1) == 0) {
css.addInternalCSSValue(attr, CSS.Attribute.BACKGROUND_IMAGE,
null);
}
if ((found & 2) == 0) {
css.addInternalCSSValue(attr, CSS.Attribute.BACKGROUND_REPEAT,
"repeat");
}
if ((found & 4) == 0) {
css.addInternalCSSValue(attr, CSS.Attribute.
BACKGROUND_ATTACHMENT, "scroll");
}
if ((found & 8) == 0) {
css.addInternalCSSValue(attr, CSS.Attribute.
BACKGROUND_POSITION, null);
}
// Currently, there is no good way to express this.
/*
if ((found & 16) == 0) {
css.addInternalCSSValue(attr, CSS.Attribute.BACKGROUND_COLOR,
null);
}
*/
}
static boolean isImage(String string) {
return (string.startsWith("url(") && string.endsWith(")"));
}
static boolean isRepeat(String string) {
return (string.equals("repeat-x") || string.equals("repeat-y") ||
string.equals("repeat") || string.equals("no-repeat"));
}
static boolean isAttachment(String string) {
return (string.equals("fixed") || string.equals("scroll"));
}
static boolean isPosition(String string) {
return (string.equals("top") || string.equals("bottom") ||
string.equals("left") || string.equals("right") ||
string.equals("center") ||
(string.length() > 0 &&
Character.isDigit(string.charAt(0))));
}
static boolean isColor(String string) {
return (CSS.stringToColor(string) != null);
}
}
/**
* Used to parser margin and padding.
*/
static class ShorthandMarginParser {
/**
* Parses the shorthand margin/padding/border string
* <code>value</code>, placing the result in <code>attr</code>.
* <code>names</code> give the 4 instrinsic property names.
*/
static void parseShorthandMargin(CSS css, String value,
MutableAttributeSet attr,
CSS.Attribute[] names) {
String[] strings = parseStrings(value);
int count = strings.length;
int index = 0;
switch (count) {
case 0:
// empty string
return;
case 1:
// Identifies all values.
for (int counter = 0; counter < 4; counter++) {
css.addInternalCSSValue(attr, names[counter], strings[0]);
}
break;
case 2:
// 0 & 2 = strings[0], 1 & 3 = strings[1]
css.addInternalCSSValue(attr, names[0], strings[0]);
css.addInternalCSSValue(attr, names[2], strings[0]);
css.addInternalCSSValue(attr, names[1], strings[1]);
css.addInternalCSSValue(attr, names[3], strings[1]);
break;
case 3:
css.addInternalCSSValue(attr, names[0], strings[0]);
css.addInternalCSSValue(attr, names[1], strings[1]);
css.addInternalCSSValue(attr, names[2], strings[2]);
css.addInternalCSSValue(attr, names[3], strings[1]);
break;
default:
for (int counter = 0; counter < 4; counter++) {
css.addInternalCSSValue(attr, names[counter],
strings[counter]);
}
break;
}
}
}
/**
* Calculate the requirements needed to tile the requirements
* given by the iterator that would be tiled. The calculation
* takes into consideration margin and border spacing.
*/
static SizeRequirements calculateTiledRequirements(LayoutIterator iter, SizeRequirements r) {
long minimum = 0;
long maximum = 0;
long preferred = 0;
int lastMargin = 0;
int totalSpacing = 0;
int n = iter.getCount();
for (int i = 0; i < n; i++) {
iter.setIndex(i);
int margin0 = lastMargin;
int margin1 = (int) iter.getLeadingCollapseSpan();
totalSpacing += Math.max(margin0, margin1);;
preferred += (int) iter.getPreferredSpan(0);
minimum += iter.getMinimumSpan(0);
maximum += iter.getMaximumSpan(0);
lastMargin = (int) iter.getTrailingCollapseSpan();
}
totalSpacing += lastMargin;
totalSpacing += 2 * iter.getBorderWidth();
// adjust for the spacing area
minimum += totalSpacing;
preferred += totalSpacing;
maximum += totalSpacing;
// set return value
if (r == null) {
r = new SizeRequirements();
}
r.minimum = (minimum > Integer.MAX_VALUE) ? Integer.MAX_VALUE : (int)minimum;
r.preferred = (preferred > Integer.MAX_VALUE) ? Integer.MAX_VALUE :(int) preferred;
r.maximum = (maximum > Integer.MAX_VALUE) ? Integer.MAX_VALUE :(int) maximum;
return r;
}
/**
* Calculate a tiled layout for the given iterator.
* This should be done collapsing the neighboring
* margins to be a total of the maximum of the two
* neighboring margin areas as described in the CSS spec.
*/
static void calculateTiledLayout(LayoutIterator iter, int targetSpan) {
/*
* first pass, calculate the preferred sizes, adjustments needed because
* of margin collapsing, and the flexibility to adjust the sizes.
*/
long preferred = 0;
long currentPreferred = 0;
int lastMargin = 0;
int totalSpacing = 0;
int n = iter.getCount();
int adjustmentWeightsCount = LayoutIterator.WorstAdjustmentWeight + 1;
//max gain we can get adjusting elements with adjustmentWeight <= i
long gain[] = new long[adjustmentWeightsCount];
//max loss we can get adjusting elements with adjustmentWeight <= i
long loss[] = new long[adjustmentWeightsCount];
for (int i = 0; i < adjustmentWeightsCount; i++) {
gain[i] = loss[i] = 0;
}
for (int i = 0; i < n; i++) {
iter.setIndex(i);
int margin0 = lastMargin;
int margin1 = (int) iter.getLeadingCollapseSpan();
iter.setOffset(Math.max(margin0, margin1));
totalSpacing += iter.getOffset();
currentPreferred = (long)iter.getPreferredSpan(targetSpan);
iter.setSpan((int) currentPreferred);
preferred += currentPreferred;
gain[iter.getAdjustmentWeight()] +=
(long)iter.getMaximumSpan(targetSpan) - currentPreferred;
loss[iter.getAdjustmentWeight()] +=
currentPreferred - (long)iter.getMinimumSpan(targetSpan);
lastMargin = (int) iter.getTrailingCollapseSpan();
}
totalSpacing += lastMargin;
totalSpacing += 2 * iter.getBorderWidth();
for (int i = 1; i < adjustmentWeightsCount; i++) {
gain[i] += gain[i - 1];
loss[i] += loss[i - 1];
}
/*
* Second pass, expand or contract by as much as possible to reach
* the target span. This takes the margin collapsing into account
* prior to adjusting the span.
*/
// determine the adjustment to be made
int allocated = targetSpan - totalSpacing;
long desiredAdjustment = allocated - preferred;
long adjustmentsArray[] = (desiredAdjustment > 0) ? gain : loss;
desiredAdjustment = Math.abs(desiredAdjustment);
int adjustmentLevel = 0;
for (;adjustmentLevel <= LayoutIterator.WorstAdjustmentWeight;
adjustmentLevel++) {
// adjustmentsArray[] is sorted. I do not bother about
// binary search though
if (adjustmentsArray[adjustmentLevel] >= desiredAdjustment) {
break;
}
}
float adjustmentFactor = 0.0f;
if (adjustmentLevel <= LayoutIterator.WorstAdjustmentWeight) {
desiredAdjustment -= (adjustmentLevel > 0) ?
adjustmentsArray[adjustmentLevel - 1] : 0;
if (desiredAdjustment != 0) {
float maximumAdjustment =
adjustmentsArray[adjustmentLevel] -
((adjustmentLevel > 0) ?
adjustmentsArray[adjustmentLevel - 1] : 0
);
adjustmentFactor = desiredAdjustment / maximumAdjustment;
}
}
// make the adjustments
int totalOffset = (int)iter.getBorderWidth();;
for (int i = 0; i < n; i++) {
iter.setIndex(i);
iter.setOffset( iter.getOffset() + totalOffset);
if (iter.getAdjustmentWeight() < adjustmentLevel) {
iter.setSpan((int)
((allocated > preferred) ?
Math.floor(iter.getMaximumSpan(targetSpan)) :
Math.ceil(iter.getMinimumSpan(targetSpan))
)
);
} else if (iter.getAdjustmentWeight() == adjustmentLevel) {
int availableSpan = (allocated > preferred) ?
(int) iter.getMaximumSpan(targetSpan) - iter.getSpan() :
iter.getSpan() - (int) iter.getMinimumSpan(targetSpan);
int adj = (int)Math.floor(adjustmentFactor * availableSpan);
iter.setSpan(iter.getSpan() +
((allocated > preferred) ? adj : -adj));
}
totalOffset = (int) Math.min((long) iter.getOffset() +
(long) iter.getSpan(),
Integer.MAX_VALUE);
}
// while rounding we could lose several pixels.
int roundError = targetSpan - totalOffset -
(int)iter.getTrailingCollapseSpan() -
(int)iter.getBorderWidth();
int adj = (roundError > 0) ? 1 : -1;
roundError *= adj;
boolean canAdjust = true;
while (roundError > 0 && canAdjust) {
// check for infinite loop
canAdjust = false;
int offsetAdjust = 0;
// try to distribute roundError. one pixel per cell
for (int i = 0; i < n; i++) {
iter.setIndex(i);
iter.setOffset(iter.getOffset() + offsetAdjust);
int curSpan = iter.getSpan();
if (roundError > 0) {
int boundGap = (adj > 0) ?
(int)Math.floor(iter.getMaximumSpan(targetSpan)) - curSpan :
curSpan - (int)Math.ceil(iter.getMinimumSpan(targetSpan));
if (boundGap >= 1) {
canAdjust = true;
iter.setSpan(curSpan + adj);
offsetAdjust += adj;
roundError--;
}
}
}
}
}
/**
* An iterator to express the requirements to use when computing
* layout.
*/
interface LayoutIterator {
void setOffset(int offs);
int getOffset();
void setSpan(int span);
int getSpan();
int getCount();
void setIndex(int i);
float getMinimumSpan(float parentSpan);
float getPreferredSpan(float parentSpan);
float getMaximumSpan(float parentSpan);
int getAdjustmentWeight(); //0 is the best weight WorstAdjustmentWeight is a worst one
//float getAlignment();
float getBorderWidth();
float getLeadingCollapseSpan();
float getTrailingCollapseSpan();
public static final int WorstAdjustmentWeight = 2;
}
//
// Serialization support
//
private void writeObject(java.io.ObjectOutputStream s)
throws IOException
{
s.defaultWriteObject();
// Determine what values in valueConvertor need to be written out.
Enumeration keys = valueConvertor.keys();
s.writeInt(valueConvertor.size());
if (keys != null) {
while (keys.hasMoreElements()) {
Object key = keys.nextElement();
Object value = valueConvertor.get(key);
if (!(key instanceof Serializable) &&
(key = StyleContext.getStaticAttributeKey(key)) == null) {
// Should we throw an exception here?
key = null;
value = null;
}
else if (!(value instanceof Serializable) &&
(value = StyleContext.getStaticAttributeKey(value)) == null){
// Should we throw an exception here?
key = null;
value = null;
}
s.writeObject(key);
s.writeObject(value);
}
}
}
private void readObject(ObjectInputStream s)
throws ClassNotFoundException, IOException
{
s.defaultReadObject();
// Reconstruct the hashtable.
int numValues = s.readInt();
valueConvertor = new Hashtable(Math.max(1, numValues));
while (numValues-- > 0) {
Object key = s.readObject();
Object value = s.readObject();
Object staticKey = StyleContext.getStaticAttribute(key);
if (staticKey != null) {
key = staticKey;
}
Object staticValue = StyleContext.getStaticAttribute(value);
if (staticValue != null) {
value = staticValue;
}
if (key != null && value != null) {
valueConvertor.put(key, value);
}
}
}
/*
* we need StyleSheet for resolving lenght units. (see
* isW3CLengthUnits)
* we can not pass stylesheet for handling relative sizes. (do not
* think changing public API is necessary)
* CSS is not likely to be accessed from more then one thread.
* Having local storage for StyleSheet for resolving relative
* sizes is safe
*
* idk 08/30/2004
*/
private StyleSheet getStyleSheet(StyleSheet ss) {
if (ss != null) {
styleSheet = ss;
}
return styleSheet;
}
//
// Instance variables
//
/** Maps from CSS key to CssValue. */
private transient Hashtable valueConvertor;
/** Size used for relative units. */
private int baseFontSize;
private transient StyleSheet styleSheet = null;
static int baseFontSizeIndex = 3;
}