javafx.css.CompoundSelector Maven / Gradle / Ivy
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package javafx.css;
import com.sun.javafx.css.Combinator;
import com.sun.javafx.css.PseudoClassState;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import java.util.Set;
/**
* A compound selector which behaves according to the CSS standard. The selector is
* composed of one or more Selectors
, along with an array of
* CompoundSelectorRelationships
indicating the required relationship at each
* stage. There must be exactly one less Combinator
than
* there are selectors.
*
* For example, the parameters [selector1, selector2, selector3]
* and [Combinator.CHILD, Combinator.DESCENDANT]
will match
* a component when all of the following conditions hold:
*
* - The component itself is matched by selector3
*
- The component has an ancestor which is matched by selector2
*
- The ancestor matched in step 2 is a direct CHILD of a component
* matched by selector1
*
* In other words, the compound selector specified above is (in CSS syntax)
* selector1 > selector2 selector3
. The greater-than (>)
* between selector1 and selector2 specifies a direct CHILD, whereas the
* whitespace between selector2 and selector3 corresponds to
* Combinator.DESCENDANT
.
*
* @since 9
*/
final public class CompoundSelector extends Selector {
private final List selectors;
/**
* The selectors that make up this compound selector
* @return Immutable List<SimpleSelector>
*/
public List getSelectors() {
return selectors;
}
private final List relationships;
// /**
// * The relationships between the selectors
// * @return Immutable List<Combinator>
// */
// public List getRelationships() {
// return relationships;
// }
/**
* Creates a CompoundSelector
from a list of selectors and a
* list of Combinator
relationships. There must be exactly one
* less Combinator
than there are selectors.
*/
CompoundSelector(List selectors, List relationships) {
this.selectors =
(selectors != null)
? Collections.unmodifiableList(selectors)
: Collections.EMPTY_LIST;
this.relationships =
(relationships != null)
? Collections.unmodifiableList(relationships)
: Collections.EMPTY_LIST;
}
private CompoundSelector() {
this(null, null);
}
@Override public Match createMatch() {
final PseudoClassState allPseudoClasses = new PseudoClassState();
int idCount = 0;
int styleClassCount = 0;
for(int n=0, nMax=selectors.size(); n[] triggerStates, int depth) {
assert (triggerStates == null || depth < triggerStates.length);
if (triggerStates != null && triggerStates.length <= depth) {
return false;
}
//
// We only care about pseudo-class if the selector applies. But in
// the case of a compound selector, we don't know whether it applies
// until all the selectors have been checked (in the worse case). So
// the setting of pseudo-class has to be deferred until we know
// that this compound selector applies. So we'll send a new
// PseudoClassSet[] and if the compound selector applies,
// just copy the state back.
//
final Set[] tempStates = triggerStates != null
? new PseudoClassState[triggerStates.length] : null;
final boolean applies = applies(styleable, selectors.size()-1, tempStates, depth);
if (applies && tempStates != null) {
for(int n=0; n pseudoClassOut = triggerStates[n];
final Set pseudoClassIn = tempStates[n];
if (pseudoClassOut != null) {
pseudoClassOut.addAll(pseudoClassIn);
} else {
triggerStates[n] = pseudoClassIn;
}
}
}
return applies;
}
private boolean applies(final Styleable styleable, final int index, Set[] triggerStates, int depth) {
// If the index is < 0 then we know we don't apply
if (index < 0) return false;
// Simply check the selector associated with this index and see if it
// applies to the Node
if (! selectors.get(index).applies(styleable, triggerStates, depth)) return false;
// If there are no more selectors to check (ie: index == 0) then we
// know we know we apply
if (index == 0) return true;
// We have not yet checked all the selectors in this CompoundSelector,
// so now we need to find the next parent and try again. If the
// relationship between this selector and its ancestor selector is
// "CHILD" then it is required that the parent scenegraph node match
// the ancestor selector. Otherwise, we just walk up the scenegraph
// until we find an ancestor node that matches the selector. If we
// manage to walk all the way to the top without having satisfied all
// of the selectors, then we know it doesn't apply.
final Combinator relationship = relationships.get(index-1);
if (relationship == Combinator.CHILD) {
final Styleable parent = styleable.getStyleableParent();
if (parent == null) return false;
// If this call succeeds, then all preceding selectors will have
// matched due to the recursive nature of the call
return applies(parent, index - 1, triggerStates, ++depth);
} else {
Styleable parent = styleable.getStyleableParent();
while (parent != null) {
boolean answer = applies(parent, index - 1, triggerStates, ++depth);
// If a call to stateMatches succeeded, then we know that
// all preceding selectors will have also matched.
if (answer) return true;
// Otherwise we need to get the next parent and try again
parent = parent.getStyleableParent();
}
}
return false;
}
@Override public boolean stateMatches(final Styleable styleable, Set states) {
return stateMatches(styleable, states, selectors.size()-1);
}
private boolean stateMatches(Styleable styleable, Set states, int index) {
// If the index is < 0 then we know we don't match
if (index < 0) return false;
// Simply check the selector associated with this index and see if it
// matches the Node and states provided.
if (! selectors.get(index).stateMatches(styleable, states)) return false;
// If there are no more selectors to match (ie: index == 0) then we
// know we have successfully matched
if (index == 0) return true;
// We have not yet checked all the selectors in this CompoundSelector,
// so now we need to find the next parent and try again. If the
// relationship between this selector and its ancestor selector is
// "CHILD" then it is required that the parent scenegraph node match
// the ancestor selector. Otherwise, we just walk up the scenegraph
// until we find an ancestor node that matches the selector. If we
// manage to walk all the way to the top without having satisfied all
// of the selectors, then we know it doesn't match.
final Combinator relationship = relationships.get(index - 1);
if (relationship == Combinator.CHILD) {
final Styleable parent = styleable.getStyleableParent();
if (parent == null) return false;
if (selectors.get(index-1).applies(parent)) {
// If this call succeeds, then all preceding selectors will have
// matched due to the recursive nature of the call
Set parentStates = parent.getPseudoClassStates();
return stateMatches(parent, parentStates, index - 1);
}
} else {
Styleable parent = styleable.getStyleableParent();
while (parent != null) {
if (selectors.get(index-1).applies(parent)) {
Set parentStates = parent.getPseudoClassStates();
return stateMatches(parent, parentStates, index - 1);
}
// Otherwise we need to get the next parent and try again
parent = parent.getStyleableParent();
}
}
return false;
}
private int hash = -1;
/* Hash code is used in Style's hash code and Style's hash
code is used by StyleHelper */
@Override public int hashCode() {
if (hash == -1) {
for (int i = 0, max=selectors.size(); i selectors = new ArrayList();
for (int n=0; n relationships = new ArrayList();
for (int n=0; n© 2015 - 2024 Weber Informatics LLC | Privacy Policy