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package jdk.nashorn.internal.ir;

import static jdk.nashorn.internal.codegen.CompilerConstants.__DIR__;
import static jdk.nashorn.internal.codegen.CompilerConstants.__FILE__;
import static jdk.nashorn.internal.codegen.CompilerConstants.__LINE__;
import static jdk.nashorn.internal.runtime.UnwarrantedOptimismException.INVALID_PROGRAM_POINT;

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.Token;
import jdk.nashorn.internal.parser.TokenType;

IR representation for an identifier.
/** * IR representation for an identifier. */
@Immutable public final class IdentNode extends Expression implements PropertyKey, FunctionCall, Optimistic, JoinPredecessor { private static final long serialVersionUID = 1L; private static final int PROPERTY_NAME = 1 << 0; private static final int INITIALIZED_HERE = 1 << 1; private static final int FUNCTION = 1 << 2; private static final int FUTURESTRICT_NAME = 1 << 3; private static final int IS_DECLARED_HERE = 1 << 4; private static final int IS_DEAD = 1 << 5; private static final int DIRECT_SUPER = 1 << 6; private static final int REST_PARAMETER = 1 << 7; private static final int PROTO_PROPERTY = 1 << 8; private static final int DEFAULT_PARAMETER = 1 << 9; private static final int DESTRUCTURED_PARAMETER = 1 << 10;
Identifier.
/** Identifier. */
private final String name;
Optimistic type
/** Optimistic type */
private final Type type; private final int flags; private final int programPoint; private final LocalVariableConversion conversion; private Symbol symbol;
Constructor
Params:
  • token – token
  • finish – finish position
  • name – name of identifier
/** * Constructor * * @param token token * @param finish finish position * @param name name of identifier */
public IdentNode(final long token, final int finish, final String name) { super(token, finish); this.name = name; this.type = null; this.flags = 0; this.programPoint = INVALID_PROGRAM_POINT; this.conversion = null; } private IdentNode(final IdentNode identNode, final String name, final Type type, final int flags, final int programPoint, final LocalVariableConversion conversion) { super(identNode); this.name = name; this.type = type; this.flags = flags; this.programPoint = programPoint; this.conversion = conversion; this.symbol = identNode.symbol; }
Copy constructor - create a new IdentNode for the same location
Params:
  • identNode – identNode
/** * Copy constructor - create a new IdentNode for the same location * * @param identNode identNode */
public IdentNode(final IdentNode identNode) { super(identNode); this.name = identNode.getName(); this.type = identNode.type; this.flags = identNode.flags; this.conversion = identNode.conversion; this.programPoint = INVALID_PROGRAM_POINT; this.symbol = identNode.symbol; }
Creates an identifier for the symbol. Normally used by code generator for creating temporary storage identifiers that must contain both a symbol and a type.
Params:
  • symbol – the symbol to create a temporary identifier for.
Returns:a temporary identifier for the symbol.
/** * Creates an identifier for the symbol. Normally used by code generator for creating temporary storage identifiers * that must contain both a symbol and a type. * @param symbol the symbol to create a temporary identifier for. * @return a temporary identifier for the symbol. */
public static IdentNode createInternalIdentifier(final Symbol symbol) { return new IdentNode(Token.toDesc(TokenType.IDENT, 0, 0), 0, symbol.getName()).setSymbol(symbol); } @Override public Type getType() { if(type != null) { return type; } else if(symbol != null && symbol.isScope()) { return Type.OBJECT; } return Type.UNDEFINED; }
Assist in IR navigation.
Params:
  • visitor – IR navigating visitor.
/** * Assist in IR navigation. * * @param visitor IR navigating visitor. */
@Override public Node accept(final NodeVisitor<? extends LexicalContext> visitor) { if (visitor.enterIdentNode(this)) { return visitor.leaveIdentNode(this); } return this; } @Override public void toString(final StringBuilder sb, final boolean printType) { if (printType) { optimisticTypeToString(sb, symbol == null || !symbol.hasSlot()); } sb.append(name); }
Get the name of the identifier
Returns: IdentNode name
/** * Get the name of the identifier * @return IdentNode name */
public String getName() { return name; } @Override public String getPropertyName() { return getName(); } @Override public boolean isLocal() { return !getSymbol().isScope(); }
Return the Symbol the compiler has assigned to this identifier. The symbol is a description of the storage location for the identifier.
Returns:the symbol
/** * Return the Symbol the compiler has assigned to this identifier. The symbol is a description of the storage * location for the identifier. * * @return the symbol */
public Symbol getSymbol() { return symbol; }
Assign a symbol to this identifier. See getSymbol() for explanation of what a symbol is.
Params:
  • symbol – the symbol
Returns:new node
/** * Assign a symbol to this identifier. See {@link IdentNode#getSymbol()} for explanation of what a symbol is. * * @param symbol the symbol * @return new node */
public IdentNode setSymbol(final Symbol symbol) { if (this.symbol == symbol) { return this; } final IdentNode newIdent = (IdentNode)clone(); newIdent.symbol = symbol; return newIdent; }
Check if this IdentNode is a property name
Returns:true if this is a property name
/** * Check if this IdentNode is a property name * @return true if this is a property name */
public boolean isPropertyName() { return (flags & PROPERTY_NAME) == PROPERTY_NAME; }
Flag this IdentNode as a property name
Returns:a node equivalent to this one except for the requested change.
/** * Flag this IdentNode as a property name * @return a node equivalent to this one except for the requested change. */
public IdentNode setIsPropertyName() { if (isPropertyName()) { return this; } return new IdentNode(this, name, type, flags | PROPERTY_NAME, programPoint, conversion); }
Check if this IdentNode is a future strict name
Returns:true if this is a future strict name
/** * Check if this IdentNode is a future strict name * @return true if this is a future strict name */
public boolean isFutureStrictName() { return (flags & FUTURESTRICT_NAME) == FUTURESTRICT_NAME; }
Flag this IdentNode as a future strict name
Returns:a node equivalent to this one except for the requested change.
/** * Flag this IdentNode as a future strict name * @return a node equivalent to this one except for the requested change. */
public IdentNode setIsFutureStrictName() { if (isFutureStrictName()) { return this; } return new IdentNode(this, name, type, flags | FUTURESTRICT_NAME, programPoint, conversion); }
Helper function for local def analysis.
Returns:true if IdentNode is initialized on creation
/** * Helper function for local def analysis. * @return true if IdentNode is initialized on creation */
public boolean isInitializedHere() { return (flags & INITIALIZED_HERE) == INITIALIZED_HERE; }
Flag IdentNode to be initialized on creation
Returns:a node equivalent to this one except for the requested change.
/** * Flag IdentNode to be initialized on creation * @return a node equivalent to this one except for the requested change. */
public IdentNode setIsInitializedHere() { if (isInitializedHere()) { return this; } return new IdentNode(this, name, type, flags | INITIALIZED_HERE, programPoint, conversion); }
Is this a LET or CONST identifier used before its declaration?
Returns:true if identifier is dead
/** * Is this a LET or CONST identifier used before its declaration? * * @return true if identifier is dead */
public boolean isDead() { return (flags & IS_DEAD) != 0; }
Flag this IdentNode as a LET or CONST identifier used before its declaration.
Returns:a new IdentNode equivalent to this but marked as dead.
/** * Flag this IdentNode as a LET or CONST identifier used before its declaration. * * @return a new IdentNode equivalent to this but marked as dead. */
public IdentNode markDead() { return new IdentNode(this, name, type, flags | IS_DEAD, programPoint, conversion); }
Is this IdentNode declared here?
Returns:true if identifier is declared here
/** * Is this IdentNode declared here? * * @return true if identifier is declared here */
public boolean isDeclaredHere() { return (flags & IS_DECLARED_HERE) != 0; }
Flag this IdentNode as being declared here.
Returns:a new IdentNode equivalent to this but marked as declared here.
/** * Flag this IdentNode as being declared here. * * @return a new IdentNode equivalent to this but marked as declared here. */
public IdentNode setIsDeclaredHere() { if (isDeclaredHere()) { return this; } return new IdentNode(this, name, type, flags | IS_DECLARED_HERE, programPoint, conversion); }
Check if the name of this IdentNode is same as that of a compile-time property (currently __DIR__, __FILE__, and __LINE__).
Returns:true if this IdentNode's name is same as that of a compile-time property
/** * Check if the name of this IdentNode is same as that of a compile-time property (currently __DIR__, __FILE__, and * __LINE__). * * @return true if this IdentNode's name is same as that of a compile-time property */
public boolean isCompileTimePropertyName() { return name.equals(__DIR__.symbolName()) || name.equals(__FILE__.symbolName()) || name.equals(__LINE__.symbolName()); } @Override public boolean isFunction() { return (flags & FUNCTION) == FUNCTION; } @Override public IdentNode setType(final Type type) { if (this.type == type) { return this; } return new IdentNode(this, name, type, flags, programPoint, conversion); }
Mark this node as being the callee operand of a CallNode.
Returns:an ident node identical to this one in all aspects except with its function flag set.
/** * Mark this node as being the callee operand of a {@link CallNode}. * @return an ident node identical to this one in all aspects except with its function flag set. */
public IdentNode setIsFunction() { if (isFunction()) { return this; } return new IdentNode(this, name, type, flags | FUNCTION, programPoint, conversion); }
Mark this node as not being the callee operand of a CallNode.
Returns:an ident node identical to this one in all aspects except with its function flag unset.
/** * Mark this node as not being the callee operand of a {@link CallNode}. * @return an ident node identical to this one in all aspects except with its function flag unset. */
public IdentNode setIsNotFunction() { if (! isFunction()) { return this; } return new IdentNode(this, name, type, flags & ~FUNCTION, programPoint, conversion); } @Override public int getProgramPoint() { return programPoint; } @Override public Optimistic setProgramPoint(final int programPoint) { if (this.programPoint == programPoint) { return this; } return new IdentNode(this, name, type, flags, programPoint, conversion); } @Override public Type getMostOptimisticType() { return Type.INT; } @Override public Type getMostPessimisticType() { return Type.OBJECT; } @Override public boolean canBeOptimistic() { return true; } @Override public JoinPredecessor setLocalVariableConversion(final LexicalContext lc, final LocalVariableConversion conversion) { if(this.conversion == conversion) { return this; } return new IdentNode(this, name, type, flags, programPoint, conversion); }
Is this an internal symbol, i.e. one that starts with ':'. Those can never be optimistic.
Returns:true if internal symbol
/** * Is this an internal symbol, i.e. one that starts with ':'. Those can * never be optimistic. * @return true if internal symbol */
public boolean isInternal() { assert name != null; return name.charAt(0) == ':'; } @Override public LocalVariableConversion getLocalVariableConversion() { return conversion; }
Checks if this is a direct super identifier
Returns:true if the direct super flag is set
/** * Checks if this is a direct super identifier * * @return true if the direct super flag is set */
public boolean isDirectSuper() { return (flags & DIRECT_SUPER) != 0; }
Return a new identifier with the direct super flag set.
Returns:the new identifier
/** * Return a new identifier with the direct super flag set. * * @return the new identifier */
public IdentNode setIsDirectSuper() { return new IdentNode(this, name, type, flags | DIRECT_SUPER, programPoint, conversion); }
Checks if this is a rest parameter
Returns:true if the rest parameter flag is set
/** * Checks if this is a rest parameter * * @return true if the rest parameter flag is set */
public boolean isRestParameter() { return (flags & REST_PARAMETER) != 0; }
Return a new identifier with the rest parameter flag set.
Returns:the new identifier
/** * Return a new identifier with the rest parameter flag set. * * @return the new identifier */
public IdentNode setIsRestParameter() { return new IdentNode(this, name, type, flags | REST_PARAMETER, programPoint, conversion); }
Checks if this is a proto property name.
Returns:true if this is the proto property name
/** * Checks if this is a proto property name. * * @return true if this is the proto property name */
public boolean isProtoPropertyName() { return (flags & PROTO_PROPERTY) != 0; }
Return a new identifier with the proto property name flag set.
Returns:the new identifier
/** * Return a new identifier with the proto property name flag set. * * @return the new identifier */
public IdentNode setIsProtoPropertyName() { return new IdentNode(this, name, type, flags | PROTO_PROPERTY, programPoint, conversion); }
Checks whether this is a default parameter.
Returns:true if this is a default parameter
/** * Checks whether this is a default parameter. * * @return true if this is a default parameter */
public boolean isDefaultParameter() { return (flags & DEFAULT_PARAMETER) != 0; }
Return a new identifier with the default parameter flag set.
Returns:the new identifier
/** * Return a new identifier with the default parameter flag set. * * @return the new identifier */
public IdentNode setIsDefaultParameter() { return new IdentNode(this, name, type, flags | DEFAULT_PARAMETER, programPoint, conversion); }
Checks whether this is a destructured parameter.
Returns:true if this is a destructured parameter
/** * Checks whether this is a destructured parameter. * * @return true if this is a destructured parameter */
public boolean isDestructuredParameter() { return (flags & DESTRUCTURED_PARAMETER) != 0; }
Return a new identifier with the destructured parameter flag set.
Returns:the new identifier
/** * Return a new identifier with the destructured parameter flag set. * * @return the new identifier */
public IdentNode setIsDestructuredParameter() { return new IdentNode(this, name, type, flags | DESTRUCTURED_PARAMETER, programPoint, conversion); }
Checks whether the source code for this ident contains a unicode escape sequence by comparing the length of its name with its length in source code.
Returns:true if ident source contains a unicode escape sequence
/** * Checks whether the source code for this ident contains a unicode escape sequence by comparing * the length of its name with its length in source code. * * @return true if ident source contains a unicode escape sequence */
public boolean containsEscapes() { return Token.descLength(getToken()) != name.length(); } }