toString method is required
* to return a string representation of CSS value.
* * The primary entry point for HTML View implementations * to get their attributes is the * {@link #getViewAttributes getViewAttributes} * method. This should be implemented to establish the * desired policy used to associate attributes with the view. * Each HTMLEditorKit (i.e. and therefore each associated * JEditorPane) can have its own StyleSheet, but by default one * sheet will be shared by all of the HTMLEditorKit instances. * HTMLDocument instance can also have a StyleSheet, which * holds the document-specific CSS specifications. *
* In order for Views to store less state and therefore be * more lightweight, the StyleSheet can act as a factory for * painters that handle some of the rendering tasks. This allows * implementations to determine what they want to cache * and have the sharing potentially at the level that a * selector is common to multiple views. Since the StyleSheet * may be used by views over multiple documents and typically * the HTML attributes don't effect the selector being used, * the potential for sharing is significant. *
* The rules are stored as named styles, and other information * is stored to translate the context of an element to a * rule quickly. The following code fragment will display * the named styles, and therefore the CSS rules contained. *
*
* import java.util.*;
* import javax.swing.text.*;
* import javax.swing.text.html.*;
*
* public class ShowStyles {
*
* public static void main(String[] args) {
* HTMLEditorKit kit = new HTMLEditorKit();
* HTMLDocument doc = (HTMLDocument) kit.createDefaultDocument();
* StyleSheet styles = doc.getStyleSheet();
*
* Enumeration rules = styles.getStyleNames();
* while (rules.hasMoreElements()) {
* String name = (String) rules.nextElement();
* Style rule = styles.getStyle(name);
* System.out.println(rule.toString());
* }
* System.exit(0);
* }
* }
*
*
* The semantics for when a CSS style should overide visual attributes
* defined by an element are not well defined. For example, the html
* <body bgcolor=red> makes the body have a red
* background. But if the html file also contains the CSS rule
* body { background: blue } it becomes less clear as to
* what color the background of the body should be. The current
* implementation gives visual attributes defined in the element the
* highest precedence, that is they are always checked before any styles.
* Therefore, in the previous example the background would have a
* red color as the body element defines the background color to be red.
*
* As already mentioned this supports CSS. We don't support the full CSS
* spec. Refer to the javadoc of the CSS class to see what properties
* we support. The two major CSS parsing related
* concepts we do not currently
* support are pseudo selectors, such as
* The attributes of the returned Style will change
* as rules are added and removed. That is if you to ask for a rule
* with a selector "table p" and a new rule was added with a selector
* of "p" the returned Style would include the new attributes from
* the rule "p".
*
* @param selector a space separated String of the element names.
* @return the rule that best matches the selector.
*/
public Style getRule(String selector) {
selector = cleanSelectorString(selector);
if (selector != null) {
Style style = getResolvedStyle(selector);
return style;
}
return null;
}
/**
* Adds a set of rules to the sheet. The rules are expected to
* be in valid CSS format. Typically this would be called as
* a result of parsing a <style> tag.
*
* @param rule a set of rules
*/
public void addRule(String rule) {
if (rule != null) {
//tweaks to control display properties
//see BasicEditorPaneUI
final String baseUnitsDisable = "BASE_SIZE_DISABLE";
final String baseUnits = "BASE_SIZE ";
final String w3cLengthUnitsEnable = "W3C_LENGTH_UNITS_ENABLE";
final String w3cLengthUnitsDisable = "W3C_LENGTH_UNITS_DISABLE";
if (rule == baseUnitsDisable) {
sizeMap = sizeMapDefault;
} else if (rule.startsWith(baseUnits)) {
rebaseSizeMap(Integer.
parseInt(rule.substring(baseUnits.length())));
} else if (rule == w3cLengthUnitsEnable) {
w3cLengthUnits = true;
} else if (rule == w3cLengthUnitsDisable) {
w3cLengthUnits = false;
} else {
CssParser parser = new CssParser();
try {
parser.parse(getBase(), new StringReader(rule), false, false);
} catch (IOException ioe) { }
}
}
}
/**
* Translates a CSS declaration to an AttributeSet that represents
* the CSS declaration. Typically this would be called as a
* result of encountering an HTML style attribute.
*
* @param decl a CSS declaration
* @return a set of attributes that represents the CSS declaration.
*/
public AttributeSet getDeclaration(String decl) {
if (decl == null) {
return SimpleAttributeSet.EMPTY;
}
CssParser parser = new CssParser();
return parser.parseDeclaration(decl);
}
/**
* Loads a set of rules that have been specified in terms of
* CSS1 grammar. If there are collisions with existing rules,
* the newly specified rule will win.
*
* @param in the stream to read the CSS grammar from
* @param ref the reference URL. This value represents the
* location of the stream and may be null. All relative
* URLs specified in the stream will be based upon this
* parameter.
* @throws java.io.IOException if I/O error occured.
*/
public void loadRules(Reader in, URL ref) throws IOException {
CssParser parser = new CssParser();
parser.parse(ref, in, false, false);
}
/**
* Fetches a set of attributes to use in the view for
* displaying. This is basically a set of attributes that
* can be used for View.getAttributes.
*
* @param v a view
* @return the of attributes
*/
public AttributeSet getViewAttributes(View v) {
return new ViewAttributeSet(v);
}
/**
* Removes a named style previously added to the document.
*
* @param nm the name of the style to remove
*/
public void removeStyle(String nm) {
Style aStyle = getStyle(nm);
if (aStyle != null) {
String selector = cleanSelectorString(nm);
String[] selectors = getSimpleSelectors(selector);
synchronized(this) {
SelectorMapping mapping = getRootSelectorMapping();
for (int i = selectors.length - 1; i >= 0; i--) {
mapping = mapping.getChildSelectorMapping(selectors[i],
true);
}
Style rule = mapping.getStyle();
if (rule != null) {
mapping.setStyle(null);
if (resolvedStyles.size() > 0) {
Enumeration
* As a delegate of Views, this object is responsible for
* the insets of a View and making sure the background
* is maintained according to the CSS attributes.
*/
@SuppressWarnings("serial") // Same-version serialization only
public static class BoxPainter implements Serializable {
BoxPainter(AttributeSet a, CSS css, StyleSheet ss) {
this.ss = ss;
this.css = css;
border = getBorder(a);
binsets = border.getBorderInsets(null);
topMargin = getLength(CSS.Attribute.MARGIN_TOP, a);
bottomMargin = getLength(CSS.Attribute.MARGIN_BOTTOM, a);
leftMargin = getLength(CSS.Attribute.MARGIN_LEFT, a);
rightMargin = getLength(CSS.Attribute.MARGIN_RIGHT, a);
bg = ss.getBackground(a);
if (ss.getBackgroundImage(a) != null) {
bgPainter = new BackgroundImagePainter(a, css, ss);
}
}
/**
* Fetches a border to render for the given attributes.
* PENDING(prinz) This is pretty badly hacked at the
* moment.
*/
Border getBorder(AttributeSet a) {
return new CSSBorder(a);
}
/**
* Fetches the color to use for borders. This will either be
* the value specified by the border-color attribute (which
* is not inherited), or it will default to the color attribute
* (which is inherited).
*/
Color getBorderColor(AttributeSet a) {
Color color = css.getColor(a, CSS.Attribute.BORDER_COLOR);
if (color == null) {
color = css.getColor(a, CSS.Attribute.COLOR);
if (color == null) {
return Color.black;
}
}
return color;
}
/**
* Fetches the inset needed on a given side to
* account for the margin, border, and padding.
*
* @param side The size of the box to fetch the
* inset for. This can be View.TOP,
* View.LEFT, View.BOTTOM, or View.RIGHT.
* @param v the view making the request. This is
* used to get the AttributeSet, and may be used to
* resolve percentage arguments.
* @return the inset needed for the margin, border and padding.
* @exception IllegalArgumentException for an invalid direction
*/
public float getInset(int side, View v) {
AttributeSet a = v.getAttributes();
float inset = 0;
switch(side) {
case View.LEFT:
inset += getOrientationMargin(HorizontalMargin.LEFT,
leftMargin, a, isLeftToRight(v));
inset += binsets.left;
inset += getLength(CSS.Attribute.PADDING_LEFT, a);
break;
case View.RIGHT:
inset += getOrientationMargin(HorizontalMargin.RIGHT,
rightMargin, a, isLeftToRight(v));
inset += binsets.right;
inset += getLength(CSS.Attribute.PADDING_RIGHT, a);
break;
case View.TOP:
inset += topMargin;
inset += binsets.top;
inset += getLength(CSS.Attribute.PADDING_TOP, a);
break;
case View.BOTTOM:
inset += bottomMargin;
inset += binsets.bottom;
inset += getLength(CSS.Attribute.PADDING_BOTTOM, a);
break;
default:
throw new IllegalArgumentException("Invalid side: " + side);
}
return inset;
}
/**
* Paints the CSS box according to the attributes
* given. This should paint the border, padding,
* and background.
*
* @param g the rendering surface.
* @param x the x coordinate of the allocated area to
* render into.
* @param y the y coordinate of the allocated area to
* render into.
* @param w the width of the allocated area to render into.
* @param h the height of the allocated area to render into.
* @param v the view making the request. This is
* used to get the AttributeSet, and may be used to
* resolve percentage arguments.
*/
public void paint(Graphics g, float x, float y, float w, float h, View v) {
// PENDING(prinz) implement real rendering... which would
// do full set of border and background capabilities.
// remove margin
float dx = 0;
float dy = 0;
float dw = 0;
float dh = 0;
AttributeSet a = v.getAttributes();
boolean isLeftToRight = isLeftToRight(v);
float localLeftMargin = getOrientationMargin(HorizontalMargin.LEFT,
leftMargin,
a, isLeftToRight);
float localRightMargin = getOrientationMargin(HorizontalMargin.RIGHT,
rightMargin,
a, isLeftToRight);
if (!(v instanceof HTMLEditorKit.HTMLFactory.BodyBlockView)) {
dx = localLeftMargin;
dy = topMargin;
dw = -(localLeftMargin + localRightMargin);
dh = -(topMargin + bottomMargin);
}
if (bg != null) {
g.setColor(bg);
g.fillRect((int) (x + dx),
(int) (y + dy),
(int) (w + dw),
(int) (h + dh));
}
if (bgPainter != null) {
bgPainter.paint(g, x + dx, y + dy, w + dw, h + dh, v);
}
x += localLeftMargin;
y += topMargin;
w -= localLeftMargin + localRightMargin;
h -= topMargin + bottomMargin;
if (border instanceof BevelBorder) {
//BevelBorder does not support border width
int bw = (int) getLength(CSS.Attribute.BORDER_TOP_WIDTH, a);
for (int i = bw - 1; i >= 0; i--) {
border.paintBorder(null, g, (int) x + i, (int) y + i,
(int) w - 2 * i, (int) h - 2 * i);
}
} else {
border.paintBorder(null, g, (int) x, (int) y, (int) w, (int) h);
}
}
float getLength(CSS.Attribute key, AttributeSet a) {
return css.getLength(a, key, ss);
}
static boolean isLeftToRight(View v) {
boolean ret = true;
if (isOrientationAware(v)) {
Container container;
if (v != null && (container = v.getContainer()) != null) {
ret = container.getComponentOrientation().isLeftToRight();
}
}
return ret;
}
/*
* only certain tags are concerned about orientation
*
* This is not thread safe, it is assumed the caller will take the
* necessary precations if this is to be used in a threaded environment.
*/
@SuppressWarnings("serial") // Same-version serialization only
static class SelectorMapping implements Serializable {
public SelectorMapping(int specificity) {
this.specificity = specificity;
}
/**
* Returns the specificity this mapping represents.
*/
public int getSpecificity() {
return specificity;
}
/**
* Sets the Style associated with this mapping.
*/
public void setStyle(Style style) {
this.style = style;
}
/**
* Returns the Style associated with this mapping.
*/
public Style getStyle() {
return style;
}
/**
* Returns the child mapping identified by the simple selector
*
* This class is NOT thread safe, do not ask it to parse while it is
* in the middle of parsing.
*/
class CssParser implements CSSParser.CSSParserCallback {
/**
* Parses the passed in CSS declaration into an AttributeSet.
*/
public AttributeSet parseDeclaration(String string) {
try {
return parseDeclaration(new StringReader(string));
} catch (IOException ioe) {}
return null;
}
/**
* Parses the passed in CSS declaration into an AttributeSet.
*/
public AttributeSet parseDeclaration(Reader r) throws IOException {
parse(base, r, true, false);
return declaration.copyAttributes();
}
/**
* Parse the given CSS stream
*/
public void parse(URL base, Reader r, boolean parseDeclaration,
boolean isLink) throws IOException {
this.base = base;
this.isLink = isLink;
this.parsingDeclaration = parseDeclaration;
declaration.removeAttributes(declaration);
selectorTokens.removeAllElements();
selectors.removeAllElements();
propertyName = null;
parser.parse(r, this, parseDeclaration);
}
//
// CSSParserCallback methods, public to implement the interface.
//
/**
* Invoked when a valid @import is encountered, will call
* A:link { color: red },
* and the important modifier.
*
* @implNote This implementation is currently
* incomplete. It can be replaced with alternative implementations
* that are complete. Future versions of this class will provide
* better CSS support.
*
* @author Timothy Prinzing
* @author Sunita Mani
* @author Sara Swanson
* @author Jill Nakata
*/
@SuppressWarnings("serial") // Superclass is not serializable across versions
public class StyleSheet extends StyleContext {
// As the javadoc states, this class maintains a mapping between
// a CSS selector (such as p.bar) and a Style.
// This consists of a number of parts:
// . Each selector is broken down into its constituent simple selectors,
// and stored in an inverted graph, for example:
// p { color: red } ol p { font-size: 10pt } ul p { font-size: 12pt }
// results in the graph:
// root
// |
// p
// / \
// ol ul
// each node (an instance of SelectorMapping) has an associated
// specificity and potentially a Style.
// . Every rule that is asked for (either by way of getRule(String) or
// getRule(HTML.Tag, Element)) results in a unique instance of
// ResolvedStyle. ResolvedStyles contain the AttributeSets from the
// SelectorMapping.
// . When a new rule is created it is inserted into the graph, and
// the AttributeSets of each ResolvedStyles are updated appropriately.
// . This class creates special AttributeSets, LargeConversionSet and
// SmallConversionSet, that maintain a mapping between StyleConstants
// and CSS so that developers that wish to use the StyleConstants
// methods can do so.
// . When one of the AttributeSets is mutated by way of a
// StyleConstants key, all the associated CSS keys are removed. This is
// done so that the two representations don't get out of sync. For
// example, if the developer adds StyleConstants.BOLD, FALSE to an
// AttributeSet that contains HTML.Tag.B, the HTML.Tag.B entry will
// be removed.
/**
* Construct a StyleSheet
*/
public StyleSheet() {
super();
selectorMapping = new SelectorMapping(0);
resolvedStyles = new Hashtableselector is a space separated
* String of the element names. For example, selector
* might be 'html body tr td''ss to those of
* the receiver. ss's rules will override the rules of
* any previously added style sheets. An added StyleSheet will never
* override the rules of the receiving style sheet.
*
* @param ss a StyleSheet
* @since 1.3
*/
public void addStyleSheet(StyleSheet ss) {
synchronized(this) {
if (linkedStyleSheets == null) {
linkedStyleSheets = new Vectorss from those of the receiver.
*
* @param ss a StyleSheet
* @since 1.3
*/
public void removeStyleSheet(StyleSheet ss) {
synchronized(this) {
if (linkedStyleSheets != null) {
int index = linkedStyleSheets.indexOf(ss);
if (index != -1) {
linkedStyleSheets.removeElementAt(index);
unlinkStyleSheet(ss, index);
if (index == 0 && linkedStyleSheets.size() == 0) {
linkedStyleSheets = null;
}
}
}
}
}
//
// The following is used to import style sheets.
//
/**
* Returns an array of the linked StyleSheets. Will return null
* if there are no linked StyleSheets.
*
* @return an array of StyleSheets.
* @since 1.3
*/
public StyleSheet[] getStyleSheets() {
StyleSheet[] retValue;
synchronized(this) {
if (linkedStyleSheets != null) {
retValue = new StyleSheet[linkedStyleSheets.size()];
linkedStyleSheets.copyInto(retValue);
}
else {
retValue = null;
}
}
return retValue;
}
/**
* Imports a style sheet from url. The resulting rules
* are directly added to the receiver. If you do not want the rules
* to become part of the receiver, create a new StyleSheet and use
* addStyleSheet to link it in.
*
* @param url an url
* @since 1.3
*/
public void importStyleSheet(URL url) {
try {
InputStream is;
is = url.openStream();
Reader r = new BufferedReader(new InputStreamReader(is));
CssParser parser = new CssParser();
parser.parse(url, r, false, true);
r.close();
is.close();
} catch (Throwable e) {
// on error we simply have no styles... the html
// will look mighty wrong but still function.
}
}
/**
* Sets the base. All import statements that are relative, will be
* relative to base.
*
* @param base a base.
* @since 1.3
*/
public void setBase(URL base) {
this.base = base;
}
/**
* Returns the base.
*
* @return the base.
* @since 1.3
*/
public URL getBase() {
return base;
}
/**
* Adds a CSS attribute to the given set.
*
* @param attr a set of attributes
* @param key a CSS property
* @param value an HTML attribute value
* @since 1.3
*/
public void addCSSAttribute(MutableAttributeSet attr, CSS.Attribute key,
String value) {
css.addInternalCSSValue(attr, key, value);
}
/**
* Adds a CSS attribute to the given set.
*
* @param attr a set of attributes
* @param key a CSS property
* @param value an HTML attribute value
* @return {@code true} if an HTML attribute {@code value} can be converted
* to a CSS attribute, false otherwise.
* @since 1.3
*/
public boolean addCSSAttributeFromHTML(MutableAttributeSet attr,
CSS.Attribute key, String value) {
Object iValue = css.getCssValue(key, value);
if (iValue != null) {
attr.addAttribute(key, iValue);
return true;
}
return false;
}
// ---- Conversion functionality ---------------------------------
/**
* Converts a set of HTML attributes to an equivalent
* set of CSS attributes.
*
* @param htmlAttrSet AttributeSet containing the HTML attributes.
* @return the set of CSS attributes.
*/
public AttributeSet translateHTMLToCSS(AttributeSet htmlAttrSet) {
AttributeSet cssAttrSet = css.translateHTMLToCSS(htmlAttrSet);
MutableAttributeSet cssStyleSet = addStyle(null, null);
cssStyleSet.addAttributes(cssAttrSet);
return cssStyleSet;
}
/**
* Adds an attribute to the given set, and returns
* the new representative set. This is reimplemented to
* convert StyleConstant attributes to CSS prior to forwarding
* to the superclass behavior. The StyleConstants attribute
* has no corresponding CSS entry, the StyleConstants attribute
* is stored (but will likely be unused).
*
* @param old the old attribute set
* @param key the non-null attribute key
* @param value the attribute value
* @return the updated attribute set
* @see MutableAttributeSet#addAttribute
*/
public AttributeSet addAttribute(AttributeSet old, Object key,
Object value) {
if (css == null) {
// supers constructor will call this before returning,
// and we need to make sure CSS is non null.
css = new CSS();
}
if (key instanceof StyleConstants) {
HTML.Tag tag = HTML.getTagForStyleConstantsKey(
(StyleConstants)key);
if (tag != null && old.isDefined(tag)) {
old = removeAttribute(old, tag);
}
Object cssValue = css.styleConstantsValueToCSSValue
((StyleConstants)key, value);
if (cssValue != null) {
Object cssKey = css.styleConstantsKeyToCSSKey
((StyleConstants)key);
if (cssKey != null) {
return super.addAttribute(old, cssKey, cssValue);
}
}
}
return super.addAttribute(old, key, value);
}
/**
* Adds a set of attributes to the element. If any of these attributes
* are StyleConstants attributes, they will be converted to CSS prior
* to forwarding to the superclass behavior.
*
* @param old the old attribute set
* @param attr the attributes to add
* @return the updated attribute set
* @see MutableAttributeSet#addAttribute
*/
public AttributeSet addAttributes(AttributeSet old, AttributeSet attr) {
if (!(attr instanceof HTMLDocument.TaggedAttributeSet)) {
old = removeHTMLTags(old, attr);
}
return super.addAttributes(old, convertAttributeSet(attr));
}
/**
* Removes an attribute from the set. If the attribute is a StyleConstants
* attribute, the request will be converted to a CSS attribute prior to
* forwarding to the superclass behavior.
*
* @param old the old set of attributes
* @param key the non-null attribute name
* @return the updated attribute set
* @see MutableAttributeSet#removeAttribute
*/
public AttributeSet removeAttribute(AttributeSet old, Object key) {
if (key instanceof StyleConstants) {
HTML.Tag tag = HTML.getTagForStyleConstantsKey(
(StyleConstants)key);
if (tag != null) {
old = super.removeAttribute(old, tag);
}
Object cssKey = css.styleConstantsKeyToCSSKey((StyleConstants)key);
if (cssKey != null) {
return super.removeAttribute(old, cssKey);
}
}
return super.removeAttribute(old, key);
}
/**
* Removes a set of attributes for the element. If any of the attributes
* is a StyleConstants attribute, the request will be converted to a CSS
* attribute prior to forwarding to the superclass behavior.
*
* @param old the old attribute set
* @param names the attribute names
* @return the updated attribute set
* @see MutableAttributeSet#removeAttributes
*/
public AttributeSet removeAttributes(AttributeSet old, Enumeration names) {
// PENDING: Should really be doing something similar to
// removeHTMLTags here, but it is rather expensive to have to
// clone names
return super.removeAttributes(old, names);
}
/**
* Removes a set of attributes. If any of the attributes
* is a StyleConstants attribute, the request will be converted to a CSS
* attribute prior to forwarding to the superclass behavior.
*
* @param old the old attribute set
* @param attrs the attributes
* @return the updated attribute set
* @see MutableAttributeSet#removeAttributes
*/
public AttributeSet removeAttributes(AttributeSet old, AttributeSet attrs) {
if (old != attrs) {
old = removeHTMLTags(old, attrs);
}
return super.removeAttributes(old, convertAttributeSet(attrs));
}
/**
* Creates a compact set of attributes that might be shared.
* This is a hook for subclasses that want to alter the
* behavior of SmallAttributeSet. This can be reimplemented
* to return an AttributeSet that provides some sort of
* attribute conversion.
*
* @param a The set of attributes to be represented in the
* the compact form.
*/
protected SmallAttributeSet createSmallAttributeSet(AttributeSet a) {
return new SmallConversionSet(a);
}
/**
* Creates a large set of attributes that should trade off
* space for time. This set will not be shared. This is
* a hook for subclasses that want to alter the behavior
* of the larger attribute storage format (which is
* SimpleAttributeSet by default). This can be reimplemented
* to return a MutableAttributeSet that provides some sort of
* attribute conversion.
*
* @param a The set of attributes to be represented in the
* the larger form.
*/
protected MutableAttributeSet createLargeAttributeSet(AttributeSet a) {
return new LargeConversionSet(a);
}
/**
* For any StyleConstants key in attr that has an associated HTML.Tag,
* it is removed from old. The resulting AttributeSet is then returned.
*/
private AttributeSet removeHTMLTags(AttributeSet old, AttributeSet attr) {
if (!(attr instanceof LargeConversionSet) &&
!(attr instanceof SmallConversionSet)) {
Enumeration names = attr.getAttributeNames();
while (names.hasMoreElements()) {
Object key = names.nextElement();
if (key instanceof StyleConstants) {
HTML.Tag tag = HTML.getTagForStyleConstantsKey(
(StyleConstants)key);
if (tag != null && old.isDefined(tag)) {
old = super.removeAttribute(old, tag);
}
}
}
}
return old;
}
/**
* Converts a set of attributes (if necessary) so that
* any attributes that were specified as StyleConstants
* attributes and have a CSS mapping, will be converted
* to CSS attributes.
*/
AttributeSet convertAttributeSet(AttributeSet a) {
if ((a instanceof LargeConversionSet) ||
(a instanceof SmallConversionSet)) {
// known to be converted.
return a;
}
// in most cases, there are no StyleConstants attributes
// so we iterate the collection of keys to avoid creating
// a new set.
Enumeration names = a.getAttributeNames();
while (names.hasMoreElements()) {
Object name = names.nextElement();
if (name instanceof StyleConstants) {
// we really need to do a conversion, iterate again
// building a new set.
MutableAttributeSet converted = new LargeConversionSet();
Enumeration keys = a.getAttributeNames();
while (keys.hasMoreElements()) {
Object key = keys.nextElement();
Object cssValue = null;
if (key instanceof StyleConstants) {
// convert the StyleConstants attribute if possible
Object cssKey = css.styleConstantsKeyToCSSKey
((StyleConstants)key);
if (cssKey != null) {
Object value = a.getAttribute(key);
cssValue = css.styleConstantsValueToCSSValue
((StyleConstants)key, value);
if (cssValue != null) {
converted.addAttribute(cssKey, cssValue);
}
}
}
if (cssValue == null) {
converted.addAttribute(key, a.getAttribute(key));
}
}
return converted;
}
}
return a;
}
/**
* Large set of attributes that does conversion of requests
* for attributes of type StyleConstants.
*/
@SuppressWarnings("serial") // Superclass is not serializable across versions
class LargeConversionSet extends SimpleAttributeSet {
/**
* Creates a new attribute set based on a supplied set of attributes.
*
* @param source the set of attributes
*/
public LargeConversionSet(AttributeSet source) {
super(source);
}
public LargeConversionSet() {
super();
}
/**
* Checks whether a given attribute is defined.
*
* @param key the attribute key
* @return true if the attribute is defined
* @see AttributeSet#isDefined
*/
public boolean isDefined(Object key) {
if (key instanceof StyleConstants) {
Object cssKey = css.styleConstantsKeyToCSSKey
((StyleConstants)key);
if (cssKey != null) {
return super.isDefined(cssKey);
}
}
return super.isDefined(key);
}
/**
* Gets the value of an attribute.
*
* @param key the attribute name
* @return the attribute value
* @see AttributeSet#getAttribute
*/
public Object getAttribute(Object key) {
if (key instanceof StyleConstants) {
Object cssKey = css.styleConstantsKeyToCSSKey
((StyleConstants)key);
if (cssKey != null) {
Object value = super.getAttribute(cssKey);
if (value != null) {
return css.cssValueToStyleConstantsValue
((StyleConstants)key, value);
}
}
}
return super.getAttribute(key);
}
}
/**
* Small set of attributes that does conversion of requests
* for attributes of type StyleConstants.
*/
class SmallConversionSet extends SmallAttributeSet {
/**
* Creates a new attribute set based on a supplied set of attributes.
*
* @param attrs the set of attributes
*/
public SmallConversionSet(AttributeSet attrs) {
super(attrs);
}
/**
* Checks whether a given attribute is defined.
*
* @param key the attribute key
* @return true if the attribute is defined
* @see AttributeSet#isDefined
*/
public boolean isDefined(Object key) {
if (key instanceof StyleConstants) {
Object cssKey = css.styleConstantsKeyToCSSKey
((StyleConstants)key);
if (cssKey != null) {
return super.isDefined(cssKey);
}
}
return super.isDefined(key);
}
/**
* Gets the value of an attribute.
*
* @param key the attribute name
* @return the attribute value
* @see AttributeSet#getAttribute
*/
public Object getAttribute(Object key) {
if (key instanceof StyleConstants) {
Object cssKey = css.styleConstantsKeyToCSSKey
((StyleConstants)key);
if (cssKey != null) {
Object value = super.getAttribute(cssKey);
if (value != null) {
return css.cssValueToStyleConstantsValue
((StyleConstants)key, value);
}
}
}
return super.getAttribute(key);
}
}
// ---- Resource handling ----------------------------------------
/**
* Fetches the font to use for the given set of attributes.
*/
public Font getFont(AttributeSet a) {
return css.getFont(this, a, 12, this);
}
/**
* Takes a set of attributes and turn it into a foreground color
* specification. This might be used to specify things
* like brighter, more hue, etc.
*
* @param a the set of attributes
* @return the color
*/
public Color getForeground(AttributeSet a) {
Color c = css.getColor(a, CSS.Attribute.COLOR);
if (c == null) {
return Color.black;
}
return c;
}
/**
* Takes a set of attributes and turn it into a background color
* specification. This might be used to specify things
* like brighter, more hue, etc.
*
* @param a the set of attributes
* @return the color
*/
public Color getBackground(AttributeSet a) {
return css.getColor(a, CSS.Attribute.BACKGROUND_COLOR);
}
/**
* Fetches the box formatter to use for the given set
* of CSS attributes.
*
* @param a a set of CSS attributes
* @return the box formatter.
*/
public BoxPainter getBoxPainter(AttributeSet a) {
return new BoxPainter(a, css, this);
}
/**
* Fetches the list formatter to use for the given set
* of CSS attributes.
*
* @param a a set of CSS attributes
* @return the list formatter.
*/
public ListPainter getListPainter(AttributeSet a) {
return new ListPainter(a, this);
}
/**
* Sets the base font size, with valid values between 1 and 7.
*
* @param sz a font size.
*/
public void setBaseFontSize(int sz) {
css.setBaseFontSize(sz);
}
/**
* Sets the base font size from the passed in String. The string
* can either identify a specific font size, with legal values between
* 1 and 7, or identify a relative font size such as +1 or -2.
*
* @param size a font size.
*/
public void setBaseFontSize(String size) {
css.setBaseFontSize(size);
}
/**
*
* Returns the index of HTML/CSS size model.
*
* @param pt a size of point
* @return the index of HTML/CSS size model.
*/
public static int getIndexOfSize(float pt) {
return CSS.getIndexOfSize(pt, sizeMapDefault);
}
/**
* Returns the point size, given a size index.
*
* @param index a size index
* @return the point size value.
*/
public float getPointSize(int index) {
return css.getPointSize(index, this);
}
/**
* Given a string such as "+2", "-2", or "2",
* returns a point size value.
*
* @param size a CSS string describing font size
* @return the point size value.
*/
public float getPointSize(String size) {
return css.getPointSize(size, this);
}
/**
* Converts a color string such as "RED" or "#NNNNNN" to a Color.
* Note: This will only convert the HTML3.2 color strings
* or a string of length 7;
* otherwise, it will return null.
*
* @param string color string such as "RED" or "#NNNNNN"
* @return the color
*/
public Color stringToColor(String string) {
return CSS.stringToColor(string);
}
/**
* Returns the ImageIcon to draw in the background for
* attr.
*/
ImageIcon getBackgroundImage(AttributeSet attr) {
Object value = attr.getAttribute(CSS.Attribute.BACKGROUND_IMAGE);
if (value != null) {
return ((CSS.BackgroundImage)value).getImage(getBase());
}
return null;
}
/**
* Adds a rule into the StyleSheet.
*
* @param selector the selector to use for the rule.
* This will be a set of simple selectors, and must
* be a length of 1 or greater.
* @param declaration the set of CSS attributes that
* make up the rule.
*/
void addRule(String[] selector, AttributeSet declaration,
boolean isLinked) {
int n = selector.length;
StringBuilder sb = new StringBuilder();
sb.append(selector[0]);
for (int counter = 1; counter < n; counter++) {
sb.append(' ');
sb.append(selector[counter]);
}
String selectorName = sb.toString();
Style rule = getStyle(selectorName);
if (rule == null) {
// Notice how the rule is first created, and it not part of
// the synchronized block. It is done like this as creating
// a new rule will fire a ChangeEvent. We do not want to be
// holding the lock when calling to other objects, it can
// result in deadlock.
Style altRule = addStyle(selectorName, null);
synchronized(this) {
SelectorMapping mapping = getRootSelectorMapping();
for (int i = n - 1; i >= 0; i--) {
mapping = mapping.getChildSelectorMapping
(selector[i], true);
}
rule = mapping.getStyle();
if (rule == null) {
rule = altRule;
mapping.setStyle(rule);
refreshResolvedRules(selectorName, selector, rule,
mapping.getSpecificity());
}
}
}
if (isLinked) {
rule = getLinkedStyle(rule);
}
rule.addAttributes(declaration);
}
//
// The following gaggle of methods is used in maintaining the rules from
// the sheet.
//
/**
* Updates the attributes of the rules to reference any related
* rules in ss.
*/
private synchronized void linkStyleSheetAt(StyleSheet ss, int index) {
if (resolvedStyles.size() > 0) {
Enumerationss.
* index gives the index the StyleSheet was at, that is
* how many StyleSheets had been added before it.
*/
private synchronized void unlinkStyleSheet(StyleSheet ss, int index) {
if (resolvedStyles.size() > 0) {
Enumerationselector. This will
* create the resolved style, if necessary.
*/
private synchronized Style getResolvedStyle(String selector,
Vectorselector. This will
* create the resolved style, if necessary.
*/
private synchronized Style getResolvedStyle(String selector) {
Style retStyle = resolvedStyles.get(selector);
if (retStyle == null) {
retStyle = createResolvedStyle(selector);
}
return retStyle;
}
/**
* Adds mapping to elements. It is added
* such that elements will remain ordered by
* specificity.
*/
private void addSortedStyle(SelectorMapping mapping, VectorparentMapping to styles, and
* recursively calls this method if parentMapping has
* any child mappings for any of the Elements in elements.
*/
private synchronized void getStyles(SelectorMapping parentMapping,
Vectorselector.
*/
private synchronized Style createResolvedStyle(String selector,
String[] tags,
String[] ids, String[] classes) {
SearchBuffer sb = SearchBuffer.obtainSearchBuffer();
@SuppressWarnings("unchecked")
Vectorselector.
*
* @param elements a Vector of all the Elements
* the style is being asked for. The
* first Element is the deepest Element, with the last Element
* representing the root.
* @param t the Tag to use for
* the first Element in elements
*/
private Style createResolvedStyle(String selector, Vectorselector. It is assumed that each simple selector
* in selector is separated by a space.
*/
private Style createResolvedStyle(String selector) {
SearchBuffer sb = SearchBuffer.obtainSearchBuffer();
// Will contain the tags, ids, and classes, in that order.
@SuppressWarnings("unchecked")
Vectorsb to the stack of SearchBuffers that can
* be used.
*/
static void releaseSearchBuffer(SearchBuffer sb) {
sb.empty();
searchBuffers.push(sb);
}
StringBuffer getStringBuffer() {
if (stringBuffer == null) {
stringBuffer = new StringBuffer();
}
return stringBuffer;
}
Vector getVector() {
if (vector == null) {
vector = new Vector();
}
return vector;
}
Hashtable getHashtable() {
if (hashtable == null) {
hashtable = new Hashtable();
}
return hashtable;
}
void empty() {
if (stringBuffer != null) {
stringBuffer.setLength(0);
}
if (vector != null) {
vector.removeAllElements();
}
if (hashtable != null) {
hashtable.clear();
}
}
}
static final Border noBorder = new EmptyBorder(0,0,0,0);
/**
* Class to carry out some of the duties of
* CSS formatting. Implementations of this
* class enable views to present the CSS formatting
* while not knowing anything about how the CSS values
* are being cached.
* ,
* for all others we return true. It is implemented this way
* for performance purposes
*/
static boolean isOrientationAware(View v) {
boolean ret = false;
AttributeSet attr;
Object obj;
if (v != null
&& (attr = v.getElement().getAttributes()) != null
&& (obj = attr.getAttribute(StyleConstants.NameAttribute)) instanceof HTML.Tag
&& (obj == HTML.Tag.DIR
|| obj == HTML.Tag.MENU
|| obj == HTML.Tag.UL
|| obj == HTML.Tag.OL)) {
ret = true;
}
return ret;
}
static enum HorizontalMargin { LEFT, RIGHT }
/**
* for
etc.
* margins are Left-To-Right/Right-To-Left depended.
* see 5088268 for more details
* margin-(left|right)-(ltr|rtl) were introduced to describe it
* if margin-(left|right) is present we are to use it.
*
* @param side The horizontal side to fetch margin for
* This can be HorizontalMargin.LEFT or HorizontalMargin.RIGHT
* @param cssMargin margin from css
* @param a AttributeSet for the View we getting margin for
* @param isLeftToRight
* @return orientation depended margin
*/
float getOrientationMargin(HorizontalMargin side, float cssMargin,
AttributeSet a, boolean isLeftToRight) {
float margin = cssMargin;
float orientationMargin = cssMargin;
Object cssMarginValue = null;
switch (side) {
case RIGHT:
{
orientationMargin = (isLeftToRight) ?
getLength(CSS.Attribute.MARGIN_RIGHT_LTR, a) :
getLength(CSS.Attribute.MARGIN_RIGHT_RTL, a);
cssMarginValue = a.getAttribute(CSS.Attribute.MARGIN_RIGHT);
}
break;
case LEFT :
{
orientationMargin = (isLeftToRight) ?
getLength(CSS.Attribute.MARGIN_LEFT_LTR, a) :
getLength(CSS.Attribute.MARGIN_LEFT_RTL, a);
cssMarginValue = a.getAttribute(CSS.Attribute.MARGIN_LEFT);
}
break;
}
if (cssMarginValue == null
&& orientationMargin != Integer.MIN_VALUE) {
margin = orientationMargin;
}
return margin;
}
float topMargin;
float bottomMargin;
float leftMargin;
float rightMargin;
// Bitmask, used to indicate what margins are relative:
// bit 0 for top, 1 for bottom, 2 for left and 3 for right.
short marginFlags;
Border border;
Insets binsets;
CSS css;
StyleSheet ss;
Color bg;
BackgroundImagePainter bgPainter;
}
/**
* Class to carry out some of the duties of CSS list
* formatting. Implementations of this
* class enable views to present the CSS formatting
* while not knowing anything about how the CSS values
* are being cached.
*/
@SuppressWarnings("serial") // Same-version serialization only
public static class ListPainter implements Serializable {
ListPainter(AttributeSet attr, StyleSheet ss) {
this.ss = ss;
/* Get the image to use as a list bullet */
String imgstr = (String)attr.getAttribute(CSS.Attribute.
LIST_STYLE_IMAGE);
type = null;
if (imgstr != null && !imgstr.equals("none")) {
String tmpstr = null;
try {
StringTokenizer st = new StringTokenizer(imgstr, "()");
if (st.hasMoreTokens())
tmpstr = st.nextToken();
if (st.hasMoreTokens())
tmpstr = st.nextToken();
URL u = new URL(tmpstr);
img = new ImageIcon(u);
} catch (MalformedURLException e) {
if (tmpstr != null && ss != null && ss.getBase() != null) {
try {
URL u = new URL(ss.getBase(), tmpstr);
img = new ImageIcon(u);
} catch (MalformedURLException murle) {
img = null;
}
}
else {
img = null;
}
}
}
/* Get the type of bullet to use in the list */
if (img == null) {
type = (CSS.Value)attr.getAttribute(CSS.Attribute.
LIST_STYLE_TYPE);
}
start = 1;
paintRect = new Rectangle();
}
/**
* Returns a string that represents the value
* of the HTML.Attribute.TYPE attribute.
* If this attributes is not defined, then
* then the type defaults to "disc" unless
* the tag is on Ordered list. In the case
* of the latter, the default type is "decimal".
*/
private CSS.Value getChildType(View childView) {
CSS.Value childtype = (CSS.Value)childView.getAttributes().
getAttribute(CSS.Attribute.LIST_STYLE_TYPE);
if (childtype == null) {
if (type == null) {
// Parent view.
View v = childView.getParent();
HTMLDocument doc = (HTMLDocument)v.getDocument();
if (HTMLDocument.matchNameAttribute(v.getElement().getAttributes(),
HTML.Tag.OL)) {
childtype = CSS.Value.DECIMAL;
} else {
childtype = CSS.Value.DISC;
}
} else {
childtype = type;
}
}
return childtype;
}
/**
* Obtains the starting index from
parent.
*/
private void getStart(View parent) {
checkedForStart = true;
Element element = parent.getElement();
if (element != null) {
AttributeSet attr = element.getAttributes();
Object startValue;
if (attr != null && attr.isDefined(HTML.Attribute.START) &&
(startValue = attr.getAttribute
(HTML.Attribute.START)) != null &&
(startValue instanceof String)) {
try {
start = Integer.parseInt((String)startValue);
}
catch (NumberFormatException nfe) {}
}
}
}
/**
* Returns an integer that should be used to render the child at
* childIndex with. The retValue will usually be
* childIndex + 1, unless parentView
* has some Views that do not represent LI's, or one of the views
* has a HTML.Attribute.START specified.
*/
private int getRenderIndex(View parentView, int childIndex) {
if (!checkedForStart) {
getStart(parentView);
}
int retIndex = childIndex;
for (int counter = childIndex; counter >= 0; counter--) {
AttributeSet as = parentView.getElement().getElement(counter).
getAttributes();
if (as.getAttribute(StyleConstants.NameAttribute) !=
HTML.Tag.LI) {
retIndex--;
} else if (as.isDefined(HTML.Attribute.VALUE)) {
Object value = as.getAttribute(HTML.Attribute.VALUE);
if (value != null &&
(value instanceof String)) {
try {
int iValue = Integer.parseInt((String)value);
return retIndex - counter + iValue;
}
catch (NumberFormatException nfe) {}
}
}
}
return retIndex + start;
}
/**
* Paints the CSS list decoration according to the
* attributes given.
*
* @param g the rendering surface.
* @param x the x coordinate of the list item allocation
* @param y the y coordinate of the list item allocation
* @param w the width of the list item allocation
* @param h the height of the list item allocation
* @param v the allocated area to paint into.
* @param item which list item is being painted. This
* is a number greater than or equal to 0.
*/
public void paint(Graphics g, float x, float y, float w, float h, View v, int item) {
View cv = v.getView(item);
Container host = v.getContainer();
Object name = cv.getElement().getAttributes().getAttribute
(StyleConstants.NameAttribute);
// Only draw something if the View is a list item. This won't
// be the case for comments.
if (!(name instanceof HTML.Tag) ||
name != HTML.Tag.LI) {
return;
}
// deside on what side draw bullets, etc.
isLeftToRight =
host.getComponentOrientation().isLeftToRight();
// How the list indicator is aligned is not specified, it is
// left up to the UA. IE and NS differ on this behavior.
// This is closer to NS where we align to the first line of text.
// If the child is not text we draw the indicator at the
// origin (0).
float align = 0;
if (cv.getViewCount() > 0) {
View pView = cv.getView(0);
Object cName = pView.getElement().getAttributes().
getAttribute(StyleConstants.NameAttribute);
if ((cName == HTML.Tag.P || cName == HTML.Tag.IMPLIED) &&
pView.getViewCount() > 0) {
paintRect.setBounds((int)x, (int)y, (int)w, (int)h);
Shape shape = cv.getChildAllocation(0, paintRect);
if (shape != null && (shape = pView.getView(0).
getChildAllocation(0, shape)) != null) {
Rectangle rect = (shape instanceof Rectangle) ?
(Rectangle)shape : shape.getBounds();
align = pView.getView(0).getAlignment(View.Y_AXIS);
y = rect.y;
h = rect.height;
}
}
}
// set the color of a decoration
Color c = (host.isEnabled()
? (ss != null
? ss.getForeground(cv.getAttributes())
: host.getForeground())
: UIManager.getColor("textInactiveText"));
g.setColor(c);
if (img != null) {
drawIcon(g, (int) x, (int) y, (int) w, (int) h, align, host);
return;
}
CSS.Value childtype = getChildType(cv);
Font font = ((StyledDocument)cv.getDocument()).
getFont(cv.getAttributes());
if (font != null) {
g.setFont(font);
}
if (childtype == CSS.Value.SQUARE || childtype == CSS.Value.CIRCLE
|| childtype == CSS.Value.DISC) {
drawShape(g, childtype, (int) x, (int) y,
(int) w, (int) h, align);
} else if (childtype == CSS.Value.DECIMAL) {
drawLetter(g, '1', (int) x, (int) y, (int) w, (int) h, align,
getRenderIndex(v, item));
} else if (childtype == CSS.Value.LOWER_ALPHA) {
drawLetter(g, 'a', (int) x, (int) y, (int) w, (int) h, align,
getRenderIndex(v, item));
} else if (childtype == CSS.Value.UPPER_ALPHA) {
drawLetter(g, 'A', (int) x, (int) y, (int) w, (int) h, align,
getRenderIndex(v, item));
} else if (childtype == CSS.Value.LOWER_ROMAN) {
drawLetter(g, 'i', (int) x, (int) y, (int) w, (int) h, align,
getRenderIndex(v, item));
} else if (childtype == CSS.Value.UPPER_ROMAN) {
drawLetter(g, 'I', (int) x, (int) y, (int) w, (int) h, align,
getRenderIndex(v, item));
}
}
/**
* Draws the bullet icon specified by the list-style-image argument.
*
* @param g the graphics context
* @param ax x coordinate to place the bullet
* @param ay y coordinate to place the bullet
* @param aw width of the container the bullet is placed in
* @param ah height of the container the bullet is placed in
* @param align preferred alignment factor for the child view
*/
void drawIcon(Graphics g, int ax, int ay, int aw, int ah,
float align, Component c) {
// Align to bottom of icon.
int gap = isLeftToRight ? - (img.getIconWidth() + bulletgap) :
(aw + bulletgap);
int x = ax + gap;
int y = Math.max(ay, ay + (int)(align * ah) -img.getIconHeight());
img.paintIcon(c, g, x, y);
}
/**
* Draws the graphical bullet item specified by the type argument.
*
* @param g the graphics context
* @param type type of bullet to draw (circle, square, disc)
* @param ax x coordinate to place the bullet
* @param ay y coordinate to place the bullet
* @param aw width of the container the bullet is placed in
* @param ah height of the container the bullet is placed in
* @param align preferred alignment factor for the child view
*/
void drawShape(Graphics g, CSS.Value type, int ax, int ay, int aw,
int ah, float align) {
final Object origAA = ((Graphics2D) g).getRenderingHint(
RenderingHints.KEY_ANTIALIASING);
((Graphics2D) g).setRenderingHint(RenderingHints.KEY_ANTIALIASING,
RenderingHints.VALUE_ANTIALIAS_ON);
int size = g.getFont().getSize();
// Position shape to the middle of the html text.
int gap = isLeftToRight ? - (bulletgap + size/3) : (aw + bulletgap);
int x = ax + gap;
int y = Math.max(ay, ay + (int)Math.ceil(ah/2));
if (type == CSS.Value.SQUARE) {
g.drawRect(x, y, size/3, size/3);
} else if (type == CSS.Value.CIRCLE) {
g.drawOval(x, y, size/3, size/3);
} else {
g.fillOval(x, y, size/3, size/3);
}
((Graphics2D) g).setRenderingHint(RenderingHints.KEY_ANTIALIASING,
origAA);
}
/**
* Draws the letter or number for an ordered list.
*
* @param g the graphics context
* @param letter type of ordered list to draw
* @param ax x coordinate to place the bullet
* @param ay y coordinate to place the bullet
* @param aw width of the container the bullet is placed in
* @param ah height of the container the bullet is placed in
* @param index position of the list item in the list
*/
void drawLetter(Graphics g, char letter, int ax, int ay, int aw,
int ah, float align, int index) {
String str = formatItemNum(index, letter);
str = isLeftToRight ? str + "." : "." + str;
FontMetrics fm = SwingUtilities2.getFontMetrics(null, g);
int stringwidth = SwingUtilities2.stringWidth(null, fm, str);
int gap = isLeftToRight ? - (stringwidth + bulletgap) :
(aw + bulletgap);
int x = ax + gap;
int y = Math.max(ay + fm.getAscent(), ay + (int)(ah * align));
SwingUtilities2.drawString(null, g, str, x, y);
}
/**
* Converts the item number into the ordered list number
* (i.e. 1 2 3, i ii iii, a b c, etc.
*
* @param itemNum number to format
* @param type type of ordered list
*/
@SuppressWarnings("fallthrough")
String formatItemNum(int itemNum, char type) {
String numStyle = "1";
boolean uppercase = false;
String formattedNum;
switch (type) {
case '1':
default:
formattedNum = String.valueOf(itemNum);
break;
case 'A':
uppercase = true;
// fall through
case 'a':
formattedNum = formatAlphaNumerals(itemNum);
break;
case 'I':
uppercase = true;
// fall through
case 'i':
formattedNum = formatRomanNumerals(itemNum);
}
if (uppercase) {
formattedNum = formattedNum.toUpperCase();
}
return formattedNum;
}
/**
* Converts the item number into an alphabetic character
*
* @param itemNum number to format
*/
String formatAlphaNumerals(int itemNum) {
String result;
if (itemNum > 26) {
result = formatAlphaNumerals(itemNum / 26) +
formatAlphaNumerals(itemNum % 26);
} else {
// -1 because item is 1 based.
result = String.valueOf((char)('a' + itemNum - 1));
}
return result;
}
/* list of roman numerals */
static final char[][] romanChars = {
{'i', 'v'},
{'x', 'l' },
{'c', 'd' },
{'m', '?' },
};
/**
* Converts the item number into a roman numeral
*
* @param num number to format
*/
String formatRomanNumerals(int num) {
return formatRomanNumerals(0, num);
}
/**
* Converts the item number into a roman numeral
*
* @param num number to format
*/
String formatRomanNumerals(int level, int num) {
if (num < 10) {
return formatRomanDigit(level, num);
} else {
return formatRomanNumerals(level + 1, num / 10) +
formatRomanDigit(level, num % 10);
}
}
/**
* Converts the item number into a roman numeral
*
* @param level position
* @param digit digit to format
*/
String formatRomanDigit(int level, int digit) {
String result = "";
if (digit == 9) {
result = result + romanChars[level][0];
result = result + romanChars[level + 1][0];
return result;
} else if (digit == 4) {
result = result + romanChars[level][0];
result = result + romanChars[level][1];
return result;
} else if (digit >= 5) {
result = result + romanChars[level][1];
digit -= 5;
}
for (int i = 0; i < digit; i++) {
result = result + romanChars[level][0];
}
return result;
}
private Rectangle paintRect;
private boolean checkedForStart;
private int start;
private CSS.Value type;
URL imageurl;
private StyleSheet ss = null;
Icon img = null;
private int bulletgap = 5;
private boolean isLeftToRight;
}
/**
* Paints the background image.
*/
@SuppressWarnings("serial") // Same-version serialization only
static class BackgroundImagePainter implements Serializable {
ImageIcon backgroundImage;
float hPosition;
float vPosition;
// bit mask: 0 for repeat x, 1 for repeat y, 2 for horiz relative,
// 3 for vert relative
short flags;
// These are used when painting, updatePaintCoordinates updates them.
private int paintX;
private int paintY;
private int paintMaxX;
private int paintMaxY;
BackgroundImagePainter(AttributeSet a, CSS css, StyleSheet ss) {
backgroundImage = ss.getBackgroundImage(a);
// Determine the position.
CSS.BackgroundPosition pos = (CSS.BackgroundPosition)a.getAttribute
(CSS.Attribute.BACKGROUND_POSITION);
if (pos != null) {
hPosition = pos.getHorizontalPosition();
vPosition = pos.getVerticalPosition();
if (pos.isHorizontalPositionRelativeToSize()) {
flags |= 4;
}
else if (pos.isHorizontalPositionRelativeToFontSize()) {
hPosition *= CSS.getFontSize(a, 12, ss);
}
if (pos.isVerticalPositionRelativeToSize()) {
flags |= 8;
}
else if (pos.isVerticalPositionRelativeToFontSize()) {
vPosition *= CSS.getFontSize(a, 12, ss);
}
}
// Determine any repeating values.
CSS.Value repeats = (CSS.Value)a.getAttribute(CSS.Attribute.
BACKGROUND_REPEAT);
if (repeats == null || repeats == CSS.Value.BACKGROUND_REPEAT) {
flags |= 3;
}
else if (repeats == CSS.Value.BACKGROUND_REPEAT_X) {
flags |= 1;
}
else if (repeats == CSS.Value.BACKGROUND_REPEAT_Y) {
flags |= 2;
}
}
@SuppressWarnings("deprecation")
void paint(Graphics g, float x, float y, float w, float h, View v) {
Rectangle clip = g.getClipRect();
if (clip != null) {
// Constrain the clip so that images don't draw outside the
// legal bounds.
g.clipRect((int)x, (int)y, (int)w, (int)h);
}
if ((flags & 3) == 0) {
// no repeating
int width = backgroundImage.getIconWidth();
int height = backgroundImage.getIconWidth();
if ((flags & 4) == 4) {
paintX = (int)(x + w * hPosition -
(float)width * hPosition);
}
else {
paintX = (int)x + (int)hPosition;
}
if ((flags & 8) == 8) {
paintY = (int)(y + h * vPosition -
(float)height * vPosition);
}
else {
paintY = (int)y + (int)vPosition;
}
if (clip == null ||
!((paintX + width <= clip.x) ||
(paintY + height <= clip.y) ||
(paintX >= clip.x + clip.width) ||
(paintY >= clip.y + clip.height))) {
backgroundImage.paintIcon(null, g, paintX, paintY);
}
}
else {
int width = backgroundImage.getIconWidth();
int height = backgroundImage.getIconHeight();
if (width > 0 && height > 0) {
paintX = (int)x;
paintY = (int)y;
paintMaxX = (int)(x + w);
paintMaxY = (int)(y + h);
if (updatePaintCoordinates(clip, width, height)) {
while (paintX < paintMaxX) {
int ySpot = paintY;
while (ySpot < paintMaxY) {
backgroundImage.paintIcon(null, g, paintX,
ySpot);
ySpot += height;
}
paintX += width;
}
}
}
}
if (clip != null) {
// Reset clip.
g.setClip(clip.x, clip.y, clip.width, clip.height);
}
}
private boolean updatePaintCoordinates
(Rectangle clip, int width, int height){
if ((flags & 3) == 1) {
paintMaxY = paintY + 1;
}
else if ((flags & 3) == 2) {
paintMaxX = paintX + 1;
}
if (clip != null) {
if ((flags & 3) == 1 && ((paintY + height <= clip.y) ||
(paintY > clip.y + clip.height))) {
// not visible.
return false;
}
if ((flags & 3) == 2 && ((paintX + width <= clip.x) ||
(paintX > clip.x + clip.width))) {
// not visible.
return false;
}
if ((flags & 1) == 1) {
if ((clip.x + clip.width) < paintMaxX) {
if ((clip.x + clip.width - paintX) % width == 0) {
paintMaxX = clip.x + clip.width;
}
else {
paintMaxX = ((clip.x + clip.width - paintX) /
width + 1) * width + paintX;
}
}
if (clip.x > paintX) {
paintX = (clip.x - paintX) / width * width + paintX;
}
}
if ((flags & 2) == 2) {
if ((clip.y + clip.height) < paintMaxY) {
if ((clip.y + clip.height - paintY) % height == 0) {
paintMaxY = clip.y + clip.height;
}
else {
paintMaxY = ((clip.y + clip.height - paintY) /
height + 1) * height + paintY;
}
}
if (clip.y > paintY) {
paintY = (clip.y - paintY) / height * height + paintY;
}
}
}
// Valid
return true;
}
}
/**
* A subclass of MuxingAttributeSet that translates between
* CSS and HTML and StyleConstants. The AttributeSets used are
* the CSS rules that match the Views Elements.
*/
@SuppressWarnings("serial") // Same-version serialization only
class ViewAttributeSet extends MuxingAttributeSet {
ViewAttributeSet(View v) {
host = v;
// PENDING(prinz) fix this up to be a more realistic
// implementation.
Document doc = v.getDocument();
SearchBuffer sb = SearchBuffer.obtainSearchBuffer();
@SuppressWarnings("unchecked")
Vectorstyle will be added before any extended styles, that
* is before extendedIndex.
*/
synchronized void insertStyle(Style style, int specificity) {
AttributeSet[] attrs = getAttributes();
int maxCounter = attrs.length;
int counter = 0;
for (;counter < extendedIndex; counter++) {
if (specificity > getSpecificity(((Style)attrs[counter]).
getName())) {
break;
}
}
insertAttributeSetAt(style, counter);
extendedIndex++;
}
/**
* Removes a previously added style. This will do nothing if
* style is not referenced by the receiver.
*/
synchronized void removeStyle(Style style) {
AttributeSet[] attrs = getAttributes();
for (int counter = attrs.length - 1; counter >= 0; counter--) {
if (attrs[counter] == style) {
removeAttributeSetAt(counter);
if (counter < extendedIndex) {
extendedIndex--;
}
break;
}
}
}
/**
* Adds s as one of the Attributesets to look up
* attributes in.
*/
synchronized void insertExtendedStyleAt(Style attr, int index) {
insertAttributeSetAt(attr, extendedIndex + index);
}
/**
* Adds s as one of the AttributeSets to look up
* attributes in. It will be the AttributeSet last checked.
*/
synchronized void addExtendedStyle(Style attr) {
insertAttributeSetAt(attr, getAttributes().length);
}
/**
* Removes the style at index +
* extendedIndex.
*/
synchronized void removeExtendedStyleAt(int index) {
removeAttributeSetAt(extendedIndex + index);
}
/**
* Returns true if the receiver matches selector, where
* a match is defined by the CSS rule matching.
* Each simple selector must be separated by a single space.
*/
protected boolean matches(String selector) {
int sLast = selector.length();
if (sLast == 0) {
return false;
}
int thisLast = name.length();
int sCurrent = selector.lastIndexOf(' ');
int thisCurrent = name.lastIndexOf(' ');
if (sCurrent >= 0) {
sCurrent++;
}
if (thisCurrent >= 0) {
thisCurrent++;
}
if (!matches(selector, sCurrent, sLast, thisCurrent, thisLast)) {
return false;
}
while (sCurrent != -1) {
sLast = sCurrent - 1;
sCurrent = selector.lastIndexOf(' ', sLast - 1);
if (sCurrent >= 0) {
sCurrent++;
}
boolean match = false;
while (!match && thisCurrent != -1) {
thisLast = thisCurrent - 1;
thisCurrent = name.lastIndexOf(' ', thisLast - 1);
if (thisCurrent >= 0) {
thisCurrent++;
}
match = matches(selector, sCurrent, sLast, thisCurrent,
thisLast);
}
if (!match) {
return false;
}
}
return true;
}
/**
* Returns true if the substring of the receiver, in the range
* thisCurrent, thisLast matches the substring of selector in
* the ranme sCurrent to sLast based on CSS selector matching.
*/
boolean matches(String selector, int sCurrent, int sLast,
int thisCurrent, int thisLast) {
sCurrent = Math.max(sCurrent, 0);
thisCurrent = Math.max(thisCurrent, 0);
int thisDotIndex = boundedIndexOf(name, '.', thisCurrent,
thisLast);
int thisPoundIndex = boundedIndexOf(name, '#', thisCurrent,
thisLast);
int sDotIndex = boundedIndexOf(selector, '.', sCurrent, sLast);
int sPoundIndex = boundedIndexOf(selector, '#', sCurrent, sLast);
if (sDotIndex != -1) {
// Selector has a '.', which indicates name must match it,
// or if the '.' starts the selector than name must have
// the same class (doesn't matter what element name).
if (thisDotIndex == -1) {
return false;
}
if (sCurrent == sDotIndex) {
if ((thisLast - thisDotIndex) != (sLast - sDotIndex) ||
!selector.regionMatches(sCurrent, name, thisDotIndex,
(thisLast - thisDotIndex))) {
return false;
}
}
else {
// Has to fully match.
if ((sLast - sCurrent) != (thisLast - thisCurrent) ||
!selector.regionMatches(sCurrent, name, thisCurrent,
(thisLast - thisCurrent))) {
return false;
}
}
return true;
}
if (sPoundIndex != -1) {
// Selector has a '#', which indicates name must match it,
// or if the '#' starts the selector than name must have
// the same id (doesn't matter what element name).
if (thisPoundIndex == -1) {
return false;
}
if (sCurrent == sPoundIndex) {
if ((thisLast - thisPoundIndex) !=(sLast - sPoundIndex) ||
!selector.regionMatches(sCurrent, name, thisPoundIndex,
(thisLast - thisPoundIndex))) {
return false;
}
}
else {
// Has to fully match.
if ((sLast - sCurrent) != (thisLast - thisCurrent) ||
!selector.regionMatches(sCurrent, name, thisCurrent,
(thisLast - thisCurrent))) {
return false;
}
}
return true;
}
if (thisDotIndex != -1) {
// Receiver references a class, just check element name.
return (((thisDotIndex - thisCurrent) == (sLast - sCurrent)) &&
selector.regionMatches(sCurrent, name, thisCurrent,
thisDotIndex - thisCurrent));
}
if (thisPoundIndex != -1) {
// Receiver references an id, just check element name.
return (((thisPoundIndex - thisCurrent) ==(sLast - sCurrent))&&
selector.regionMatches(sCurrent, name, thisCurrent,
thisPoundIndex - thisCurrent));
}
// Fail through, no classes or ides, just check string.
return (((thisLast - thisCurrent) == (sLast - sCurrent)) &&
selector.regionMatches(sCurrent, name, thisCurrent,
thisLast - thisCurrent));
}
/**
* Similar to String.indexOf, but allows an upper bound
* (this is slower in that it will still check string starting at
* start.
*/
int boundedIndexOf(String string, char search, int start,
int end) {
int retValue = string.indexOf(search, start);
if (retValue >= end) {
return -1;
}
return retValue;
}
public void addAttribute(Object name, Object value) {}
public void addAttributes(AttributeSet attributes) {}
public void removeAttribute(Object name) {}
public void removeAttributes(Enumeration names) {}
public void removeAttributes(AttributeSet attributes) {}
public void setResolveParent(AttributeSet parent) {}
public String getName() {return name;}
public void addChangeListener(ChangeListener l) {}
public void removeChangeListener(ChangeListener l) {}
public ChangeListener[] getChangeListeners() {
return new ChangeListener[0];
}
/** The name of the Style, which is the selector.
* This will NEVER change!
*/
String name;
/** Start index of styles coming from other StyleSheets. */
private int extendedIndex;
}
/**
* SelectorMapping contains a specifitiy, as an integer, and an associated
* Style. It can also reference children SelectorMappings,
* so that it behaves like a tree.
* selector. If a child mapping does not exist for
*selector, and create is true, a new
* one will be created.
*/
public SelectorMapping getChildSelectorMapping(String selector,
boolean create) {
SelectorMapping retValue = null;
if (children != null) {
retValue = children.get(selector);
}
else if (create) {
children = new HashMapSelectorMapping with the specified
* specificity.
*/
protected SelectorMapping createChildSelectorMapping(int specificity) {
return new SelectorMapping(specificity);
}
/**
* Returns the specificity for the child selector
* selector.
*/
protected int getChildSpecificity(String selector) {
// class (.) 100
// id (#) 10000
char firstChar = selector.charAt(0);
int specificity = getSpecificity();
if (firstChar == '.') {
specificity += 100;
}
else if (firstChar == '#') {
specificity += 10000;
}
else {
specificity += 1;
if (selector.indexOf('.') != -1) {
specificity += 100;
}
if (selector.indexOf('#') != -1) {
specificity += 10000;
}
}
return specificity;
}
/**
* The specificity for this selector.
*/
private int specificity;
/**
* Style for this selector.
*/
private Style style;
/**
* Any sub selectors. Key will be String, and value will be
* another SelectorMapping.
*/
private HashMapimportStyleSheet if a
* MalformedURLException is not thrown in creating
* the URL.
*/
public void handleImport(String importString) {
URL url = CSS.getURL(base, importString);
if (url != null) {
importStyleSheet(url);
}
}
/**
* A selector has been encountered.
*/
public void handleSelector(String selector) {
//class and index selectors are case sensitive
if (!(selector.startsWith(".")
|| selector.startsWith("#"))) {
selector = selector.toLowerCase();
}
int length = selector.length();
if (selector.endsWith(",")) {
if (length > 1) {
selector = selector.substring(0, length - 1);
selectorTokens.addElement(selector);
}
addSelector();
}
else if (length > 0) {
selectorTokens.addElement(selector);
}
}
/**
* Invoked when the start of a rule is encountered.
*/
public void startRule() {
if (selectorTokens.size() > 0) {
addSelector();
}
propertyName = null;
}
/**
* Invoked when a property name is encountered.
*/
public void handleProperty(String property) {
propertyName = property;
}
/**
* Invoked when a property value is encountered.
*/
public void handleValue(String value) {
if (propertyName != null && value != null && value.length() > 0) {
CSS.Attribute cssKey = CSS.getAttribute(propertyName);
if (cssKey != null) {
// There is currently no mechanism to determine real
// base that style sheet was loaded from. For the time
// being, this maps for LIST_STYLE_IMAGE, which appear
// to be the only one that currently matters. A more
// general mechanism is definately needed.
if (cssKey == CSS.Attribute.LIST_STYLE_IMAGE) {
if (value != null && !value.equals("none")) {
URL url = CSS.getURL(base, value);
if (url != null) {
value = url.toString();
}
}
}
addCSSAttribute(declaration, cssKey, value);
}
propertyName = null;
}
}
/**
* Invoked when the end of a rule is encountered.
*/
public void endRule() {
int n = selectors.size();
for (int i = 0; i < n; i++) {
String[] selector = selectors.elementAt(i);
if (selector.length > 0) {
StyleSheet.this.addRule(selector, declaration, isLink);
}
}
declaration.removeAttributes(declaration);
selectors.removeAllElements();
}
private void addSelector() {
String[] selector = new String[selectorTokens.size()];
selectorTokens.copyInto(selector);
selectors.addElement(selector);
selectorTokens.removeAllElements();
}
Vector