net.sourceforge.pmd.lang.java.ast.ASTAmbiguousName Maven / Gradle / Ivy
/**
* BSD-style license; for more info see http://pmd.sourceforge.net/license.html
*/
package net.sourceforge.pmd.lang.java.ast;
import java.util.function.BiFunction;
import java.util.function.Function;
/**
* An ambiguous name occurring in any context. Without a disambiguation
* pass that taking care of obscuring rules and the current declarations
* in scope, this node could be a type, package, or variable name -we
* can't know for sure. The node is a placeholder for that unknown entity.
* It implements both {@link ASTType} and {@link ASTPrimaryExpression} to
* be able to be inserted in their hierarchy (maybe that should be changed
* though).
*
* This node corresponds simultaneously to the AmbiguousName
* and PackageOrTypeName productions of the JLS.
*
*
*
* AmbiguousNameExpr ::= <IDENTIFIER> ( "." <IDENTIFIER>)*
*
*
*
* @implNote Disambiguation
*
* Some ambiguous names are pushed by the expression parser because
* we don't want to look too far ahead (in primary prefix). But it can
* happen that the next segment (primary suffix) constrains the name to
* be e.g. a type name or an expression name. E.g. From the JLS:
*
*
* A name is syntactically classified as an ExpressionName in these contexts:
* ...
* - As the qualifying expression in a qualified class instance creation
* expression (§15.9)
*
*
* We don't know at the moment the name is parsed that it will be
* followed by "." "new" and a constructor call. But as soon as the
* {@link ASTConstructorCall} is pushed, we know that the LHS must be an
* expression. In that case, the name can be reclassified, and e.g. if
* it's a simple name be promoted to {@link ASTVariableAccess}. This
* type of immediate disambiguation is carried out by the {@link AbstractJavaNode#jjtClose()}
* method of those nodes that do force a specific context on their
* left-hand side. See also {@link LeftRecursiveNode}.
*
* Another mechanism is {@link #forceExprContext()} and {@link #forceTypeContext()},
* which are called by the parser to promote an ambiguous name to an
* expression or a type when exiting from the {@link JavaParserImpl#PrimaryExpression()}
* production or {@link JavaParserImpl#ClassOrInterfaceType()}.
*
*
Those two mechanisms perform the first classification step, the
* one that only depends on the syntactic context and not on semantic
* information. A second pass on the AST after building the symbol tables
* would allow us to remove all the remaining ambiguous names.
*/
public final class ASTAmbiguousName extends AbstractJavaExpr implements ASTReferenceType, ASTPrimaryExpression {
// if true, then this was explitly left in the tree by the disambig
// pass, with a warning
private boolean wasProcessed = false;
ASTAmbiguousName(int id) {
super(id);
}
ASTAmbiguousName(String id) {
super(JavaParserImplTreeConstants.JJTAMBIGUOUSNAME);
setImage(id);
}
/** Returns the entire name, including periods if any. */
public String getName() {
return super.getImage();
}
boolean wasProcessed() {
return wasProcessed;
}
void setProcessed() {
this.wasProcessed = true;
}
@Override
protected
R acceptVisitor(JavaVisitor super P, ? extends R> visitor, P data) {
return visitor.visit(this, data);
}
// Package-private construction methods:
/**
* Called by the parser if this ambiguous name was a full expression.
* Then, since the node was in an expression syntactic context, we
* can do some preliminary reclassification:
*
* - If the name is a single identifier, then this can be
* reclassified as an {@link ASTVariableAccess}
*
- If the name is a sequence of identifiers, then the last
* segment can be reclassified as an {@link ASTFieldAccess},
* and the rest of the sequence (to the left) is left ambiguous.
*
*
* @return the node which will replace this node in the tree
*/
ASTExpression forceExprContext() {
// by the time this is called, this node is on top of the stack,
// meaning, it has no parent
return shrinkOneSegment(ASTVariableAccess::new, ASTFieldAccess::new);
}
/**
* Called by the parser if this ambiguous name was expected to be
* a type name. Then we simply promote it to an {@link ASTClassOrInterfaceType}
* with the appropriate LHS.
*
* @return the node which will replace this node in the tree
*/
ASTClassOrInterfaceType forceTypeContext() {
// same, there's no parent here
return shrinkOneSegment(ASTClassOrInterfaceType::new, ASTClassOrInterfaceType::new);
}
/**
* Low level method to reclassify this ambiguous name. Basically
* the name is split in two: the part before the last dot, and the
* part after it.
*
* @param simpleNameHandler Called with this name as parameter if
* this ambiguous name is a simple name.
* No resizing of the node is performed.
*
* @param splitNameConsumer Called with this node as first parameter,
* and the last name segment as second
* parameter. After the handler is executed,
* the text bounds of this node are shrunk
* to fit to only the left part. The handler
* may e.g. move the node to another parent.
* @param Result type
*
* @return The node that will replace this one.
*/
private T shrinkOneSegment(Function simpleNameHandler,
BiFunction splitNameConsumer) {
String image = getName();
int lastDotIdx = image.lastIndexOf('.');
if (lastDotIdx < 0) {
T res = simpleNameHandler.apply(this);
if (res != null) {
res.copyTextCoordinates(this);
}
return res;
}
String lastSegment = image.substring(lastDotIdx + 1);
String remainingAmbiguous = image.substring(0, lastDotIdx);
T res = splitNameConsumer.apply(this, lastSegment);
// copy coordinates before shrinking
if (res != null) {
res.copyTextCoordinates(this);
}
// shift the ident + the dot
this.shiftTokens(0, -2);
setImage(remainingAmbiguous);
return res;
}
/**
* Delete this name from the children of the parent.
*/
void deleteInParent() {
AbstractJavaNode parent = (AbstractJavaNode) getParent();
parent.removeChildAtIndex(this.getIndexInParent());
}
/**
* A specialized version of {@link #shrinkOneSegment(Function, BiFunction)}
* for nodes that carry the unambiguous part as their own image.
* Basically the last segment is set as the image of the parent
* node, and no node corresponds to it.
*/
void shrinkOrDeleteInParentSetImage() {
// the params of the lambdas here are this object,
// but if we use them instead of this, we avoid capturing the
// this reference and the lambdas can be optimised to a singleton
shrinkOneSegment(
simpleName -> {
AbstractJavaNode parent = (AbstractJavaNode) simpleName.getParent();
parent.setImage(simpleName.getFirstToken().getImage());
parent.removeChildAtIndex(simpleName.getIndexInParent());
return null;
},
(ambig, simpleName) -> {
AbstractJavaNode parent = (AbstractJavaNode) ambig.getParent();
parent.setImage(simpleName);
return null;
}
);
}
}