Class ASTNumericLiteral

    • Method Detail

      • acceptVisitor

        protected <P,​R> R acceptVisitor​(JavaVisitor<? super P,​? extends R> visitor,
                                              P data)
      • getConstValue

        public @NonNull Number getConstValue()
        Description copied from interface: ASTMemberValue
        Returns the constant value of this node, if this is a constant expression. Otherwise, or if some references couldn't be resolved, returns null. Note that null is not a constant value, so this method's returning null is not a problem. Note that annotations are not given a constant value by this implementation.
        Specified by:
        getConstValue in interface ASTExpression
        Specified by:
        getConstValue in interface ASTMemberValue
      • buildConstValue

        protected @NonNull Number buildConstValue()
      • getTypeMirror

        public @NonNull JPrimitiveType getTypeMirror()
        Description copied from interface: TypeNode
        Returns the compile-time type of this node. For example, for a string literal, returns the type mirror for String, for a method call, returns the return type of the call, etc.

        This method ignores conversions applied to the value of the node because of its context. For example, in 1 + "", the numeric literal will have type int, but it is converted to String by the surrounding concatenation expression. Similarly, in Collections.singletonList(1), the ASTNumericLiteral node has type int, but the type of the method formal is Integer, and boxing is applied at runtime. Possibly, an API will be added to expose this information.

        Specified by:
        getTypeMirror in interface TypeNode
        Returns:
        The type mirror. Never returns null; if the type is unresolved, returns TypeSystem.UNKNOWN.
      • jjtClose

        public void jjtClose()
      • isIntLiteral

        public boolean isIntLiteral()
      • isLongLiteral

        public boolean isLongLiteral()
      • isFloatLiteral

        public boolean isFloatLiteral()
      • isDoubleLiteral

        public boolean isDoubleLiteral()
      • isIntegral

        public boolean isIntegral()
        Returns true if this is an integral literal, ie either a long or an integer literal. Otherwise, this is a floating point literal.
      • getBase

        public int getBase()
        Returns the base of the literal, eg 8 for an octal literal, 10 for a decimal literal, etc. By convention this returns 10 for the literal 0 (which can really be any base).
      • getValueAsInt

        public int getValueAsInt()
      • getValueAsLong

        public long getValueAsLong()
      • getValueAsFloat

        public float getValueAsFloat()
      • getValueAsDouble

        public double getValueAsDouble()
      • isCompileTimeConstant

        public boolean isCompileTimeConstant()
        Description copied from interface: ASTExpression
        Returns true if this expression is a compile-time constant, and is inlined.
      • getParenthesisDepth

        public int getParenthesisDepth()
        Description copied from interface: ASTExpression
        Returns the number of parenthesis levels around this expression. If this method returns 0, then no parentheses are present.

        E.g. the expression (a + b) is parsed as an AdditiveExpression whose parenthesisDepth is 1, and in ((a + b)) it's 2.

        This is to avoid the parentheses interfering with analysis. Parentheses already influence parsing by breaking the natural precedence of operators. It would mostly hide false positives to make a ParenthesizedExpr node, because it would make semantically equivalent nodes have a very different representation.

        On the other hand, when a rule explicitly cares about parentheses, then this attribute may be used to find out whether parentheses were mentioned, so no information is lost.

        Specified by:
        getParenthesisDepth in interface ASTExpression
      • acceptVisitor

        public final <P,​R> R acceptVisitor​(AstVisitor<? super P,​? extends R> visitor,
                                                 P data)
        Specified by:
        acceptVisitor in interface Node
      • addChild

        protected void addChild​(net.sourceforge.pmd.lang.java.ast.AbstractJavaNode child,
                                int index)
        Overrides:
        addChild in class AbstractJjtreeNode<net.sourceforge.pmd.lang.java.ast.AbstractJavaNode,​JavaNode>
      • insertChild

        protected void insertChild​(net.sourceforge.pmd.lang.java.ast.AbstractJavaNode child,
                                   int index)
        Overrides:
        insertChild in class AbstractJjtreeNode<net.sourceforge.pmd.lang.java.ast.AbstractJavaNode,​JavaNode>
      • removeChildAtIndex

        protected void removeChildAtIndex​(int childIndex)
        Overrides:
        removeChildAtIndex in class AbstractNode<net.sourceforge.pmd.lang.java.ast.AbstractJavaNode,​JavaNode>
      • setChild

        protected void setChild​(net.sourceforge.pmd.lang.java.ast.AbstractJavaNode child,
                                int index)
        Overrides:
        setChild in class AbstractNode<net.sourceforge.pmd.lang.java.ast.AbstractJavaNode,​JavaNode>
      • getSymbolTable

        public @NonNull JSymbolTable getSymbolTable()
        Description copied from interface: JavaNode
        Returns the symbol table for the program point represented by this node.
        Specified by:
        getSymbolTable in interface JavaNode
      • getTypeSystem

        public TypeSystem getTypeSystem()
        Description copied from interface: JavaNode
        Returns the type system with which this node was created. This is the object responsible for representing types in the compilation unit.
        Specified by:
        getTypeSystem in interface JavaNode