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package jdk.nashorn.internal.ir;
import jdk.nashorn.internal.codegen.types.Type;
import jdk.nashorn.internal.ir.annotations.Immutable;
import jdk.nashorn.internal.ir.visitor.NodeVisitor;
import jdk.nashorn.internal.parser.TokenType;
TernaryNode represent the ternary operator ?:
. Note that for control-flow calculation reasons its branch expressions (but not its test expression) are always wrapped in instances of JoinPredecessorExpression
. /**
* TernaryNode represent the ternary operator {@code ?:}. Note that for control-flow calculation reasons its branch
* expressions (but not its test expression) are always wrapped in instances of {@link JoinPredecessorExpression}.
*/
@Immutable
public final class TernaryNode extends Expression {
private static final long serialVersionUID = 1L;
private final Expression test;
private final JoinPredecessorExpression trueExpr;
private final JoinPredecessorExpression falseExpr;
Constructor
Params: - token – token
- test – test expression
- trueExpr – expression evaluated when test evaluates to true
- falseExpr – expression evaluated when test evaluates to true
/**
* Constructor
*
* @param token token
* @param test test expression
* @param trueExpr expression evaluated when test evaluates to true
* @param falseExpr expression evaluated when test evaluates to true
*/
public TernaryNode(final long token, final Expression test, final JoinPredecessorExpression trueExpr, final JoinPredecessorExpression falseExpr) {
super(token, falseExpr.getFinish());
this.test = test;
this.trueExpr = trueExpr;
this.falseExpr = falseExpr;
}
private TernaryNode(final TernaryNode ternaryNode, final Expression test, final JoinPredecessorExpression trueExpr,
final JoinPredecessorExpression falseExpr) {
super(ternaryNode);
this.test = test;
this.trueExpr = trueExpr;
this.falseExpr = falseExpr;
}
@Override
public Node accept(final NodeVisitor<? extends LexicalContext> visitor) {
if (visitor.enterTernaryNode(this)) {
final Expression newTest = (Expression)getTest().accept(visitor);
final JoinPredecessorExpression newTrueExpr = (JoinPredecessorExpression)trueExpr.accept(visitor);
final JoinPredecessorExpression newFalseExpr = (JoinPredecessorExpression)falseExpr.accept(visitor);
return visitor.leaveTernaryNode(setTest(newTest).setTrueExpression(newTrueExpr).setFalseExpression(newFalseExpr));
}
return this;
}
@Override
public void toString(final StringBuilder sb, final boolean printType) {
final TokenType tokenType = tokenType();
final boolean testParen = tokenType.needsParens(getTest().tokenType(), true);
final boolean trueParen = tokenType.needsParens(getTrueExpression().tokenType(), false);
final boolean falseParen = tokenType.needsParens(getFalseExpression().tokenType(), false);
if (testParen) {
sb.append('(');
}
getTest().toString(sb, printType);
if (testParen) {
sb.append(')');
}
sb.append(" ? ");
if (trueParen) {
sb.append('(');
}
getTrueExpression().toString(sb, printType);
if (trueParen) {
sb.append(')');
}
sb.append(" : ");
if (falseParen) {
sb.append('(');
}
getFalseExpression().toString(sb, printType);
if (falseParen) {
sb.append(')');
}
}
@Override
public boolean isLocal() {
return getTest().isLocal()
&& getTrueExpression().isLocal()
&& getFalseExpression().isLocal();
}
@Override
public Type getType() {
return Type.widestReturnType(getTrueExpression().getType(), getFalseExpression().getType());
}
Get the test expression for this ternary expression, i.e. "x" in x ? y : z
Returns: the test expression
/**
* Get the test expression for this ternary expression, i.e. "x" in x ? y : z
* @return the test expression
*/
public Expression getTest() {
return test;
}
Get the true expression for this ternary expression, i.e. "y" in x ? y : z
Returns: the true expression
/**
* Get the true expression for this ternary expression, i.e. "y" in x ? y : z
* @return the true expression
*/
public JoinPredecessorExpression getTrueExpression() {
return trueExpr;
}
Get the false expression for this ternary expression, i.e. "z" in x ? y : z
Returns: the false expression
/**
* Get the false expression for this ternary expression, i.e. "z" in x ? y : z
* @return the false expression
*/
public JoinPredecessorExpression getFalseExpression() {
return falseExpr;
}
Set the test expression for this node
Params: - test – new test expression
Returns: a node equivalent to this one except for the requested change.
/**
* Set the test expression for this node
* @param test new test expression
* @return a node equivalent to this one except for the requested change.
*/
public TernaryNode setTest(final Expression test) {
if (this.test == test) {
return this;
}
return new TernaryNode(this, test, trueExpr, falseExpr);
}
Set the true expression for this node
Params: - trueExpr – new true expression
Returns: a node equivalent to this one except for the requested change.
/**
* Set the true expression for this node
* @param trueExpr new true expression
* @return a node equivalent to this one except for the requested change.
*/
public TernaryNode setTrueExpression(final JoinPredecessorExpression trueExpr) {
if (this.trueExpr == trueExpr) {
return this;
}
return new TernaryNode(this, test, trueExpr, falseExpr);
}
Set the false expression for this node
Params: - falseExpr – new false expression
Returns: a node equivalent to this one except for the requested change.
/**
* Set the false expression for this node
* @param falseExpr new false expression
* @return a node equivalent to this one except for the requested change.
*/
public TernaryNode setFalseExpression(final JoinPredecessorExpression falseExpr) {
if (this.falseExpr == falseExpr) {
return this;
}
return new TernaryNode(this, test, trueExpr, falseExpr);
}
}