public abstract class AstNode extends Node implements java.lang.Comparable<AstNode>
The AstNode
hierarchy sits atop the older Node
class,
which was designed for code generation. The Node
class is a
flexible, weakly-typed class suitable for creating and rewriting code
trees, but using it requires you to remember the exact ordering of the
child nodes, which are kept in a linked list. The AstNode
hierarchy is a strongly-typed facade with named accessors for children
and common properties, but under the hood it's still using a linked list
of child nodes. It isn't a very good idea to use the child list directly
unless you know exactly what you're doing.
AstNode
records additional information, including
the node's position, length, and parent node. Also, some AstNode
subclasses record some of their child nodes in instance members, since
they are not needed for code generation. In a nutshell, only the code
generator should be mixing and matching AstNode
and Node
objects.All offset fields in all subclasses of AstNode are relative to their parent. For things like paren, bracket and keyword positions, the position is relative to the current node. The node start position is relative to the parent node.
During the actual parsing, node positions are absolute; adding the node to
its parent fixes up the offsets to be relative. By the time you see the AST
(e.g. using the Visitor
interface), the offsets are relative.
AstNode
objects have property lists accessible via the
Node.getProp(int)
and Node.putProp(int, java.lang.Object)
methods. The property lists are
integer-keyed with arbitrary Object
values. For the most part the
parser generating the AST avoids using properties, preferring fields for
elements that are always set. Property lists are intended for user-defined
annotations to the tree. The Rhino code generator acts as a client and
uses node properties extensively. You are welcome to use the property-list
API for anything your client needs.
This hierarchy does not have separate branches for expressions and statements, as the distinction in JavaScript is not as clear-cut as in Java or C++.
Modifier and Type | Class and Description |
---|---|
static class |
AstNode.PositionComparator |
Node.NodeIterator
ATTRIBUTE_FLAG, BOTH, CASEARRAY_PROP, CATCH_SCOPE_PROP, CONTROL_BLOCK_PROP, DECR_FLAG, DESCENDANTS_FLAG, DESTRUCTURING_ARRAY_LENGTH, DESTRUCTURING_NAMES, DESTRUCTURING_PARAMS, DESTRUCTURING_SHORTHAND, DIRECTCALL_PROP, END_DROPS_OFF, END_RETURNS, END_RETURNS_VALUE, END_UNREACHED, END_YIELDS, EXPRESSION_CLOSURE_PROP, FUNCTION_PROP, GENERATOR_END_PROP, INCRDECR_PROP, ISNUMBER_PROP, JSDOC_PROP, LABEL_ID_PROP, LAST_PROP, LEFT, LOCAL_BLOCK_PROP, LOCAL_PROP, MEMBER_TYPE_PROP, NAME_PROP, NON_SPECIALCALL, OBJECT_IDS_PROP, PARENTHESIZED_PROP, POST_FLAG, PROPERTY_FLAG, REGEXP_PROP, RIGHT, SKIP_INDEXES_PROP, SPECIALCALL_EVAL, SPECIALCALL_PROP, SPECIALCALL_WITH, TARGETBLOCK_PROP, VARIABLE_PROP
Constructor and Description |
---|
AstNode() |
AstNode(int pos)
Constructs a new AstNode
|
AstNode(int pos,
int len)
Constructs a new AstNode
|
Modifier and Type | Method and Description |
---|---|
void |
addChild(AstNode kid)
Adds a child or function to the end of the block.
|
static java.lang.RuntimeException |
codeBug() |
int |
compareTo(AstNode other)
Permits AST nodes to be sorted based on start position and length.
|
java.lang.String |
debugPrint()
Returns a debugging representation of the parse tree
starting at this node.
|
int |
depth()
Returns the depth of this node.
|
int |
getAbsolutePosition()
Returns the absolute document position of the node.
|
AstRoot |
getAstRoot()
Returns the root of the tree containing this node.
|
FunctionNode |
getEnclosingFunction()
Returns the innermost enclosing function, or
null if not in a
function. |
Scope |
getEnclosingScope()
Returns the innermost enclosing
Scope node, or null
if we're not nested in a scope. |
int |
getLength()
Returns node length
|
int |
getLineno()
Return the line number recorded for this node.
|
AstNode |
getParent()
Returns the node parent, or
null if it has none |
int |
getPosition()
Returns relative position in parent
|
boolean |
hasSideEffects() |
java.lang.String |
makeIndent(int indent)
Constructs an indentation string.
|
static java.lang.String |
operatorToString(int op)
Returns the string name for this operator.
|
void |
setBounds(int position,
int end)
Sets the node start and end positions.
|
void |
setLength(int length)
Sets node length
|
void |
setParent(AstNode parent)
Sets the node parent.
|
void |
setPosition(int position)
Sets relative position in parent
|
void |
setRelative(int parentPosition)
Make this node's position relative to a parent.
|
java.lang.String |
shortName()
Returns a short, descriptive name for the node, such as
"ArrayComprehension".
|
java.lang.String |
toSource()
Prints the source indented to depth 0.
|
abstract java.lang.String |
toSource(int depth)
Emits source code for this node.
|
abstract void |
visit(NodeVisitor visitor)
Visits this node and its children in an arbitrary order.
|
addChildAfter, addChildBefore, addChildrenToBack, addChildrenToFront, addChildToBack, addChildToFront, getChildBefore, getDouble, getExistingIntProp, getFirstChild, getIntProp, getJsDoc, getJsDocNode, getLastChild, getLastSibling, getNext, getProp, getScope, getString, getType, hasChildren, hasConsistentReturnUsage, iterator, labelId, labelId, newNumber, newString, newString, newTarget, putIntProp, putProp, removeChild, removeChildren, removeProp, replaceChild, replaceChildAfter, resetTargets, setDouble, setJsDocNode, setLineno, setScope, setString, setType, toString, toStringTree
public AstNode()
public AstNode(int pos)
pos
- the start positionpublic AstNode(int pos, int len)
pos
- the start positionlen
- the number of characters spanned by the node in the source
textpublic int getPosition()
public void setPosition(int position)
public int getAbsolutePosition()
public int getLength()
public void setLength(int length)
public void setBounds(int position, int end)
end
- position
).public void setRelative(int parentPosition)
parentPosition
- the absolute parent position; the
current node position is assumed to be absolute and is
decremented by parentPosition.public AstNode getParent()
null
if it has nonepublic void setParent(AstNode parent)
parent
- the new parent. Can be null
.public void addChild(AstNode kid)
kid
- the childjava.lang.IllegalArgumentException
- if kid is null
public AstRoot getAstRoot()
AstRoot
at the root of this node's parent
chain, or null
if the topmost parent is not an AstRoot
.public abstract java.lang.String toSource(int depth)
Note: if the parser was in error-recovery mode, some AST nodes may have
null
children that are expected to be non-null
when no errors are present. In this situation, the behavior of the
toSource
method is undefined: toSource
implementations may assume that the AST node is error-free, since it is
intended to be invoked only at runtime after a successful parse.
depth
- the current recursion depth, typically beginning at 0
when called on the root node.public java.lang.String toSource()
public java.lang.String makeIndent(int indent)
indent
- the number of indentation stepspublic java.lang.String shortName()
public static java.lang.String operatorToString(int op)
op
- the token type, e.g. Token.ADD
or Token.TYPEOF
public abstract void visit(NodeVisitor visitor)
It's up to each node subclass to decide the order for processing
its children. The subclass also decides (and should document)
which child nodes are not passed to the NodeVisitor
.
For instance, nodes representing keywords like each
or
in
may not be passed to the visitor object. The visitor
can simply query the current node for these children if desired.
Generally speaking, the order will be deterministic; the order is whatever order is decided by each child node. Normally child nodes will try to visit their children in lexical order, but there may be exceptions to this rule.
visitor
- the object to call with this node and its childrenpublic boolean hasSideEffects()
hasSideEffects
in class Node
public static java.lang.RuntimeException codeBug() throws java.lang.RuntimeException
java.lang.RuntimeException
Kit.codeBug()
public FunctionNode getEnclosingFunction()
null
if not in a
function. Begins the search with this node's parent.FunctionNode
enclosing this node, else null
public Scope getEnclosingScope()
Scope
node, or null
if we're not nested in a scope. Begins the search with this node's parent.
Note that this is not the same as the defining scope for a Name
.Scope
enclosing this node, else null
public int compareTo(AstNode other)
SortedSet
,
for instance.compareTo
in interface java.lang.Comparable<AstNode>
other
- another nodeother
's
start position. If tied, -1 if this node's length is less than
other
's length. If the lengths are equal, sorts abitrarily
on hashcode unless the nodes are the same per Object.equals(java.lang.Object)
.public int depth()
public int getLineno()
public java.lang.String debugPrint()
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