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package jdk.nashorn.internal.ir;
import jdk.nashorn.internal.ir.annotations.Immutable;
import jdk.nashorn.internal.ir.visitor.NodeVisitor;
IR representing a FOR statement.
/**
* IR representing a FOR statement.
*/
@Immutable
public final class ForNode extends LoopNode {
private static final long serialVersionUID = 1L;
Initialize expression for an ordinary for statement, or the LHS expression receiving iterated-over values in a
for-in statement. /** Initialize expression for an ordinary for statement, or the LHS expression receiving iterated-over values in a
* for-in statement. */
private final Expression init;
Modify expression for an ordinary statement, or the source of the iterator in the for-in statement. /** Modify expression for an ordinary statement, or the source of the iterator in the for-in statement. */
private final JoinPredecessorExpression modify;
Iterator symbol. /** Iterator symbol. */
private final Symbol iterator;
Is this a normal for in loop? /** Is this a normal for in loop? */
public static final int IS_FOR_IN = 1 << 0;
Is this a normal for each in loop? /** Is this a normal for each in loop? */
public static final int IS_FOR_EACH = 1 << 1;
Is this a ES6 for-of loop? /** Is this a ES6 for-of loop? */
public static final int IS_FOR_OF = 1 << 2;
Does this loop need a per-iteration scope because its init contain a LET declaration? /** Does this loop need a per-iteration scope because its init contain a LET declaration? */
public static final int PER_ITERATION_SCOPE = 1 << 3;
private final int flags;
Constructs a ForNode
Params: - lineNumber – The line number of header
- token – The for token
- finish – The last character of the for node
- body – The body of the for node
- flags – The flags
/**
* Constructs a ForNode
*
* @param lineNumber The line number of header
* @param token The for token
* @param finish The last character of the for node
* @param body The body of the for node
* @param flags The flags
*/
public ForNode(final int lineNumber, final long token, final int finish, final Block body, final int flags){
this(lineNumber, token, finish, body, flags, null, null, null);
}
Constructor
Params: - lineNumber – The line number of header
- token – The for token
- finish – The last character of the for node
- body – The body of the for node
- flags – The flags
- init – The initial expression
- test – The test expression
- modify – The modify expression
/**
* Constructor
*
* @param lineNumber The line number of header
* @param token The for token
* @param finish The last character of the for node
* @param body The body of the for node
* @param flags The flags
* @param init The initial expression
* @param test The test expression
* @param modify The modify expression
*/
public ForNode(final int lineNumber, final long token, final int finish, final Block body, final int flags, final Expression init, final JoinPredecessorExpression test, final JoinPredecessorExpression modify) {
super(lineNumber, token, finish, body, test, false);
this.flags = flags;
this.init = init;
this.modify = modify;
this.iterator = null;
}
private ForNode(final ForNode forNode, final Expression init, final JoinPredecessorExpression test,
final Block body, final JoinPredecessorExpression modify, final int flags,
final boolean controlFlowEscapes, final LocalVariableConversion conversion, final Symbol iterator) {
super(forNode, test, body, controlFlowEscapes, conversion);
this.init = init;
this.modify = modify;
this.flags = flags;
this.iterator = iterator;
}
@Override
public Node ensureUniqueLabels(final LexicalContext lc) {
return Node.replaceInLexicalContext(lc, this, new ForNode(this, init, test, body, modify, flags, controlFlowEscapes, conversion, iterator));
}
@Override
public Node accept(final LexicalContext lc, final NodeVisitor<? extends LexicalContext> visitor) {
if (visitor.enterForNode(this)) {
return visitor.leaveForNode(
setInit(lc, init == null ? null : (Expression)init.accept(visitor)).
setTest(lc, test == null ? null : (JoinPredecessorExpression)test.accept(visitor)).
setModify(lc, modify == null ? null : (JoinPredecessorExpression)modify.accept(visitor)).
setBody(lc, (Block)body.accept(visitor)));
}
return this;
}
@Override
public void toString(final StringBuilder sb, final boolean printTypes) {
sb.append("for");
LocalVariableConversion.toString(conversion, sb).append(' ');
if (isForIn()) {
init.toString(sb, printTypes);
sb.append(" in ");
modify.toString(sb, printTypes);
} else if (isForOf()) {
init.toString(sb, printTypes);
sb.append(" of ");
modify.toString(sb, printTypes);
} else {
if (init != null) {
init.toString(sb, printTypes);
}
sb.append("; ");
if (test != null) {
test.toString(sb, printTypes);
}
sb.append("; ");
if (modify != null) {
modify.toString(sb, printTypes);
}
}
sb.append(')');
}
@Override
public boolean hasGoto() {
return !isForInOrOf() && test == null;
}
@Override
public boolean mustEnter() {
if (isForInOrOf()) {
return false; //may be an empty set to iterate over, then we skip the loop
}
return test == null;
}
Get the initialization expression for this for loop
Returns: the initialization expression
/**
* Get the initialization expression for this for loop
* @return the initialization expression
*/
public Expression getInit() {
return init;
}
Reset the initialization expression for this for loop
Params: - lc – lexical context
- init – new initialization expression
Returns: new for node if changed or existing if not
/**
* Reset the initialization expression for this for loop
* @param lc lexical context
* @param init new initialization expression
* @return new for node if changed or existing if not
*/
public ForNode setInit(final LexicalContext lc, final Expression init) {
if (this.init == init) {
return this;
}
return Node.replaceInLexicalContext(lc, this, new ForNode(this, init, test, body, modify, flags, controlFlowEscapes, conversion, iterator));
}
Is this a for in construct rather than a standard init;condition;modification one
Returns: true if this is a for in constructor
/**
* Is this a for in construct rather than a standard init;condition;modification one
* @return true if this is a for in constructor
*/
public boolean isForIn() {
return (flags & IS_FOR_IN) != 0;
}
Is this a for-of loop?
Returns: true if this is a for-of loop
/**
* Is this a for-of loop?
* @return true if this is a for-of loop
*/
public boolean isForOf() {
return (flags & IS_FOR_OF) != 0;
}
Is this a for-in or for-of statement?
Returns: true if this is a for-in or for-of loop
/**
* Is this a for-in or for-of statement?
* @return true if this is a for-in or for-of loop
*/
public boolean isForInOrOf() {
return isForIn() || isForOf();
}
Is this a for each construct, known from e.g. Rhino. This will be a for of construct
in ECMAScript 6
Returns: true if this is a for each construct
/**
* Is this a for each construct, known from e.g. Rhino. This will be a for of construct
* in ECMAScript 6
* @return true if this is a for each construct
*/
public boolean isForEach() {
return (flags & IS_FOR_EACH) != 0;
}
If this is a for in or for each construct, there is an iterator symbol
Returns: the symbol for the iterator to be used, or null if none exists
/**
* If this is a for in or for each construct, there is an iterator symbol
* @return the symbol for the iterator to be used, or null if none exists
*/
public Symbol getIterator() {
return iterator;
}
Assign an iterator symbol to this ForNode. Used for for in and for each constructs
Params: - lc – the current lexical context
- iterator – the iterator symbol
Returns: a ForNode with the iterator set
/**
* Assign an iterator symbol to this ForNode. Used for for in and for each constructs
* @param lc the current lexical context
* @param iterator the iterator symbol
* @return a ForNode with the iterator set
*/
public ForNode setIterator(final LexicalContext lc, final Symbol iterator) {
if (this.iterator == iterator) {
return this;
}
return Node.replaceInLexicalContext(lc, this, new ForNode(this, init, test, body, modify, flags, controlFlowEscapes, conversion, iterator));
}
Get the modification expression for this ForNode
Returns: the modification expression
/**
* Get the modification expression for this ForNode
* @return the modification expression
*/
public JoinPredecessorExpression getModify() {
return modify;
}
Reset the modification expression for this ForNode
Params: - lc – lexical context
- modify – new modification expression
Returns: new for node if changed or existing if not
/**
* Reset the modification expression for this ForNode
* @param lc lexical context
* @param modify new modification expression
* @return new for node if changed or existing if not
*/
public ForNode setModify(final LexicalContext lc, final JoinPredecessorExpression modify) {
if (this.modify == modify) {
return this;
}
return Node.replaceInLexicalContext(lc, this, new ForNode(this, init, test, body, modify, flags, controlFlowEscapes, conversion, iterator));
}
@Override
public ForNode setTest(final LexicalContext lc, final JoinPredecessorExpression test) {
if (this.test == test) {
return this;
}
return Node.replaceInLexicalContext(lc, this, new ForNode(this, init, test, body, modify, flags, controlFlowEscapes, conversion, iterator));
}
@Override
public Block getBody() {
return body;
}
@Override
public ForNode setBody(final LexicalContext lc, final Block body) {
if (this.body == body) {
return this;
}
return Node.replaceInLexicalContext(lc, this, new ForNode(this, init, test, body, modify, flags, controlFlowEscapes, conversion, iterator));
}
@Override
public ForNode setControlFlowEscapes(final LexicalContext lc, final boolean controlFlowEscapes) {
if (this.controlFlowEscapes == controlFlowEscapes) {
return this;
}
return Node.replaceInLexicalContext(lc, this, new ForNode(this, init, test, body, modify, flags, controlFlowEscapes, conversion, iterator));
}
@Override
JoinPredecessor setLocalVariableConversionChanged(final LexicalContext lc, final LocalVariableConversion conversion) {
return Node.replaceInLexicalContext(lc, this, new ForNode(this, init, test, body, modify, flags, controlFlowEscapes, conversion, iterator));
}
@Override
public boolean hasPerIterationScope() {
return (flags & PER_ITERATION_SCOPE) != 0;
}
Returns true if this for-node needs the scope creator of its containing block to create
per-iteration scope. This is only true for for-in loops with lexical declarations.
See Also: - providesScopeCreator.providesScopeCreator()
Returns: true if the containing block's scope object creator is required in codegen
/**
* Returns true if this for-node needs the scope creator of its containing block to create
* per-iteration scope. This is only true for for-in loops with lexical declarations.
*
* @see Block#providesScopeCreator()
* @return true if the containing block's scope object creator is required in codegen
*/
public boolean needsScopeCreator() {
return isForInOrOf() && hasPerIterationScope();
}
}