antlr-3.4/runtime/CSharp3/Sources/Antlr3.Runtime.Test/SlimParsing/Tree/ITreeAdaptor`1.cs - platform/external/antlr - Git at Google

 /*
  * [The "BSD licence"]
  * Copyright (c) 2005-2008 Terence Parr
  * All rights reserved.
  *
  * Conversion to C#:
  * Copyright (c) 2008 Sam Harwell, Pixel Mine, Inc.
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  * 3. The name of the author may not be used to endorse or promote products
  *    derived from this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 namespace Antlr.Runtime.Tree
 {
     public interface ITreeAdaptor<T>
     {
         #region Construction

         /** <summary>
          *  Create a tree node from Token object; for CommonTree type trees,
          *  then the token just becomes the payload.  This is the most
          *  common create call.
          *  </summary>
          *
          *  <remarks>
          *  Override if you want another kind of node to be built.
          *  </remarks>
          */
         T Create(IToken payload);

         /** <summary>Duplicate a single tree node.</summary>
          *  <remarks>Override if you want another kind of node to be built.</remarks>
          */
         T DupNode(T treeNode);

         /** <summary>Duplicate tree recursively, using dupNode() for each node</summary> */
         T DupTree(T tree);

         /** <summary>
          *  Return a nil node (an empty but non-null node) that can hold
          *  a list of element as the children.  If you want a flat tree (a list)
          *  use "t=adaptor.nil(); t.addChild(x); t.addChild(y);"
          *  </summary>
          */
         T Nil();

         /** <summary>
          *  Return a tree node representing an error.  This node records the
          *  tokens consumed during error recovery.  The start token indicates the
          *  input symbol at which the error was detected.  The stop token indicates
          *  the last symbol consumed during recovery.
          *  </summary>
          *
          *  </remarks>
          *  You must specify the input stream so that the erroneous text can
          *  be packaged up in the error node.  The exception could be useful
          *  to some applications; default implementation stores ptr to it in
          *  the CommonErrorNode.
          *
          *  This only makes sense during token parsing, not tree parsing.
          *  Tree parsing should happen only when parsing and tree construction
          *  succeed.
          *  </remarks>
          */
         T ErrorNode(ITokenStream input, IToken start, IToken stop, RecognitionException e);

         /** <summary>Is tree considered a nil node used to make lists of child nodes?</summary> */
         bool IsNil(T tree);

         /** <summary>
          *  Add a child to the tree t.  If child is a flat tree (a list), make all
          *  in list children of t.  Warning: if t has no children, but child does
          *  and child isNil then you can decide it is ok to move children to t via
          *  t.children = child.children; i.e., without copying the array.  Just
          *  make sure that this is consistent with have the user will build
          *  ASTs.  Do nothing if t or child is null.
          *  </summary>
          */
         void AddChild(T t, T child);

         /** <summary>
          *  If oldRoot is a nil root, just copy or move the children to newRoot.
          *  If not a nil root, make oldRoot a child of newRoot.
          *  </summary>
          *
          *  <remarks>
          *    old=^(nil a b c), new=r yields ^(r a b c)
          *    old=^(a b c), new=r yields ^(r ^(a b c))
          *
          *  If newRoot is a nil-rooted single child tree, use the single
          *  child as the new root node.
          *
          *    old=^(nil a b c), new=^(nil r) yields ^(r a b c)
          *    old=^(a b c), new=^(nil r) yields ^(r ^(a b c))
          *
          *  If oldRoot was null, it's ok, just return newRoot (even if isNil).
          *
          *    old=null, new=r yields r
          *    old=null, new=^(nil r) yields ^(nil r)
          *
          *  Return newRoot.  Throw an exception if newRoot is not a
          *  simple node or nil root with a single child node--it must be a root
          *  node.  If newRoot is ^(nil x) return x as newRoot.
          *
          *  Be advised that it's ok for newRoot to point at oldRoot's
          *  children; i.e., you don't have to copy the list.  We are
          *  constructing these nodes so we should have this control for
          *  efficiency.
          *  </remarks>
          */
         T BecomeRoot(T newRoot, T oldRoot);

         /** <summary>
          *  Given the root of the subtree created for this rule, post process
          *  it to do any simplifications or whatever you want.  A required
          *  behavior is to convert ^(nil singleSubtree) to singleSubtree
          *  as the setting of start/stop indexes relies on a single non-nil root
          *  for non-flat trees.
          *  </summary>
          *
          *  <remarks>
          *  Flat trees such as for lists like "idlist : ID+ ;" are left alone
          *  unless there is only one ID.  For a list, the start/stop indexes
          *  are set in the nil node.
          *
          *  This method is executed after all rule tree construction and right
          *  before setTokenBoundaries().
          *  </remarks>
          */
         T RulePostProcessing(T root);

         /** <summary>For identifying trees.</summary>
          *
          *  <remarks>
          *  How to identify nodes so we can say "add node to a prior node"?
          *  Even becomeRoot is an issue.  Use System.identityHashCode(node)
          *  usually.
          *  </remarks>
          */
         int GetUniqueID(T node);


         // R e w r i t e  R u l e s

         /** <summary>
          *  Create a node for newRoot make it the root of oldRoot.
          *  If oldRoot is a nil root, just copy or move the children to newRoot.
          *  If not a nil root, make oldRoot a child of newRoot.
          *  </summary>
          *
          *  <returns>
          *  Return node created for newRoot.
          *  </returns>
          *
          *  <remarks>
          *  Be advised: when debugging ASTs, the DebugTreeAdaptor manually
          *  calls create(Token child) and then plain becomeRoot(node, node)
          *  because it needs to trap calls to create, but it can't since it delegates
          *  to not inherits from the TreeAdaptor.
          *  </remarks>
          */
         T BecomeRoot(IToken newRoot, T oldRoot);

         /** <summary>
          *  Create a new node derived from a token, with a new token type.
          *  This is invoked from an imaginary node ref on right side of a
          *  rewrite rule as IMAG[$tokenLabel].
          *  </summary>
          *
          *  <remarks>
          *  This should invoke createToken(Token).
          *  </remarks>
          */
         T Create(int tokenType, IToken fromToken);

         /** <summary>
          *  Same as create(tokenType,fromToken) except set the text too.
          *  This is invoked from an imaginary node ref on right side of a
          *  rewrite rule as IMAG[$tokenLabel, "IMAG"].
          *  </summary>
          *
          *  <remarks>
          *  This should invoke createToken(Token).
          *  </remarks>
          */
         T Create(int tokenType, IToken fromToken, string text);

         /** <summary>
          *  Create a new node derived from a token, with a new token type.
          *  This is invoked from an imaginary node ref on right side of a
          *  rewrite rule as IMAG["IMAG"].
          *  </summary>
          *
          *  <remarks>
          *  This should invoke createToken(int,String).
          *  </remarks>
          */
         T Create(int tokenType, string text);

         #endregion


         #region Content

         /** <summary>For tree parsing, I need to know the token type of a node</summary> */
         int GetType(T t);

         /** <summary>Node constructors can set the type of a node</summary> */
         void SetType(T t, int type);

         string GetText(T t);

         /** <summary>Node constructors can set the text of a node</summary> */
         void SetText(T t, string text);

         /** <summary>
          *  Return the token object from which this node was created.
          *  Currently used only for printing an error message.
          *  The error display routine in BaseRecognizer needs to
          *  display where the input the error occurred. If your
          *  tree of limitation does not store information that can
          *  lead you to the token, you can create a token filled with
          *  the appropriate information and pass that back.  See
          *  BaseRecognizer.getErrorMessage().
          *  </summary>
          */
         IToken GetToken(T t);

         /** <summary>
          *  Where are the bounds in the input token stream for this node and
          *  all children?  Each rule that creates AST nodes will call this
          *  method right before returning.  Flat trees (i.e., lists) will
          *  still usually have a nil root node just to hold the children list.
          *  That node would contain the start/stop indexes then.
          *  </summary>
          */
         void SetTokenBoundaries(T t, IToken startToken, IToken stopToken);

         /** <summary>Get the token start index for this subtree; return -1 if no such index</summary> */
         int GetTokenStartIndex(T t);

         /** <summary>Get the token stop index for this subtree; return -1 if no such index</summary> */
         int GetTokenStopIndex(T t);

         #endregion


         #region Navigation / Tree Parsing

         /** <summary>Get a child 0..n-1 node</summary> */
         T GetChild(T t, int i);

         /** <summary>Set ith child (0..n-1) to t; t must be non-null and non-nil node</summary> */
         void SetChild(T t, int i, T child);

         /** <summary>Remove ith child and shift children down from right.</summary> */
         T DeleteChild(T t, int i);

         /** <summary>How many children?  If 0, then this is a leaf node</summary> */
         int GetChildCount(T t);

         /** <summary>
          *  Who is the parent node of this node; if null, implies node is root.
          *  If your node type doesn't handle this, it's ok but the tree rewrites
          *  in tree parsers need this functionality.
          *  </summary>
          */
         T GetParent(T t);
         void SetParent(T t, T parent);

         /** <summary>
          *  What index is this node in the child list? Range: 0..n-1
          *  If your node type doesn't handle this, it's ok but the tree rewrites
          *  in tree parsers need this functionality.
          *  </summary>
          */
         int GetChildIndex(T t);
         void SetChildIndex(T t, int index);

         /** <summary>
          *  Replace from start to stop child index of parent with t, which might
          *  be a list.  Number of children may be different after this call.
          *  </summary>
          *
          *  <remarks>
          *  If parent is null, don't do anything; must be at root of overall tree.
          *  Can't replace whatever points to the parent externally.  Do nothing.
          *  </remarks>
          */
         void ReplaceChildren(T parent, int startChildIndex, int stopChildIndex, T t);

         #endregion
     }
 }
	/*
	* [The "BSD licence"]
	* Copyright (c) 2005-2008 Terence Parr
	* All rights reserved.
	*
	* Conversion to C#:
	* Copyright (c) 2008 Sam Harwell, Pixel Mine, Inc.
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	* 3. The name of the author may not be used to endorse or promote products
	* derived from this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	namespace Antlr.Runtime.Tree
	{
	public interface ITreeAdaptor<T>
	{
	#region Construction

	/** <summary>
	* Create a tree node from Token object; for CommonTree type trees,
	* then the token just becomes the payload. This is the most
	* common create call.
	* </summary>
	*
	* <remarks>
	* Override if you want another kind of node to be built.
	* </remarks>
	*/
	T Create(IToken payload);

	/** <summary>Duplicate a single tree node.</summary>
	* <remarks>Override if you want another kind of node to be built.</remarks>
	*/
	T DupNode(T treeNode);

	/** <summary>Duplicate tree recursively, using dupNode() for each node</summary> */
	T DupTree(T tree);

	/** <summary>
	* Return a nil node (an empty but non-null node) that can hold
	* a list of element as the children. If you want a flat tree (a list)
	* use "t=adaptor.nil(); t.addChild(x); t.addChild(y);"
	* </summary>
	*/
	T Nil();

	/** <summary>
	* Return a tree node representing an error. This node records the
	* tokens consumed during error recovery. The start token indicates the
	* input symbol at which the error was detected. The stop token indicates
	* the last symbol consumed during recovery.
	* </summary>
	*
	* </remarks>
	* You must specify the input stream so that the erroneous text can
	* be packaged up in the error node. The exception could be useful
	* to some applications; default implementation stores ptr to it in
	* the CommonErrorNode.
	*
	* This only makes sense during token parsing, not tree parsing.
	* Tree parsing should happen only when parsing and tree construction
	* succeed.
	* </remarks>
	*/
	T ErrorNode(ITokenStream input, IToken start, IToken stop, RecognitionException e);

	/** <summary>Is tree considered a nil node used to make lists of child nodes?</summary> */
	bool IsNil(T tree);

	/** <summary>
	* Add a child to the tree t. If child is a flat tree (a list), make all
	* in list children of t. Warning: if t has no children, but child does
	* and child isNil then you can decide it is ok to move children to t via
	* t.children = child.children; i.e., without copying the array. Just
	* make sure that this is consistent with have the user will build
	* ASTs. Do nothing if t or child is null.
	* </summary>
	*/
	void AddChild(T t, T child);

	/** <summary>
	* If oldRoot is a nil root, just copy or move the children to newRoot.
	* If not a nil root, make oldRoot a child of newRoot.
	* </summary>
	*
	* <remarks>
	* old=^(nil a b c), new=r yields ^(r a b c)
	* old=^(a b c), new=r yields ^(r ^(a b c))
	*
	* If newRoot is a nil-rooted single child tree, use the single
	* child as the new root node.
	*
	* old=^(nil a b c), new=^(nil r) yields ^(r a b c)
	* old=^(a b c), new=^(nil r) yields ^(r ^(a b c))
	*
	* If oldRoot was null, it's ok, just return newRoot (even if isNil).
	*
	* old=null, new=r yields r
	* old=null, new=^(nil r) yields ^(nil r)
	*
	* Return newRoot. Throw an exception if newRoot is not a
	* simple node or nil root with a single child node--it must be a root
	* node. If newRoot is ^(nil x) return x as newRoot.
	*
	* Be advised that it's ok for newRoot to point at oldRoot's
	* children; i.e., you don't have to copy the list. We are
	* constructing these nodes so we should have this control for
	* efficiency.
	* </remarks>
	*/
	T BecomeRoot(T newRoot, T oldRoot);

	/** <summary>
	* Given the root of the subtree created for this rule, post process
	* it to do any simplifications or whatever you want. A required
	* behavior is to convert ^(nil singleSubtree) to singleSubtree
	* as the setting of start/stop indexes relies on a single non-nil root
	* for non-flat trees.
	* </summary>
	*
	* <remarks>
	* Flat trees such as for lists like "idlist : ID+ ;" are left alone
	* unless there is only one ID. For a list, the start/stop indexes
	* are set in the nil node.
	*
	* This method is executed after all rule tree construction and right
	* before setTokenBoundaries().
	* </remarks>
	*/
	T RulePostProcessing(T root);

	/** <summary>For identifying trees.</summary>
	*
	* <remarks>
	* How to identify nodes so we can say "add node to a prior node"?
	* Even becomeRoot is an issue. Use System.identityHashCode(node)
	* usually.
	* </remarks>
	*/
	int GetUniqueID(T node);


	// R e w r i t e R u l e s

	/** <summary>
	* Create a node for newRoot make it the root of oldRoot.
	* If oldRoot is a nil root, just copy or move the children to newRoot.
	* If not a nil root, make oldRoot a child of newRoot.
	* </summary>
	*
	* <returns>
	* Return node created for newRoot.
	* </returns>
	*
	* <remarks>
	* Be advised: when debugging ASTs, the DebugTreeAdaptor manually
	* calls create(Token child) and then plain becomeRoot(node, node)
	* because it needs to trap calls to create, but it can't since it delegates
	* to not inherits from the TreeAdaptor.
	* </remarks>
	*/
	T BecomeRoot(IToken newRoot, T oldRoot);

	/** <summary>
	* Create a new node derived from a token, with a new token type.
	* This is invoked from an imaginary node ref on right side of a
	* rewrite rule as IMAG[$tokenLabel].
	* </summary>
	*
	* <remarks>
	* This should invoke createToken(Token).
	* </remarks>
	*/
	T Create(int tokenType, IToken fromToken);

	/** <summary>
	* Same as create(tokenType,fromToken) except set the text too.
	* This is invoked from an imaginary node ref on right side of a
	* rewrite rule as IMAG[$tokenLabel, "IMAG"].
	* </summary>
	*
	* <remarks>
	* This should invoke createToken(Token).
	* </remarks>
	*/
	T Create(int tokenType, IToken fromToken, string text);

	/** <summary>
	* Create a new node derived from a token, with a new token type.
	* This is invoked from an imaginary node ref on right side of a
	* rewrite rule as IMAG["IMAG"].
	* </summary>
	*
	* <remarks>
	* This should invoke createToken(int,String).
	* </remarks>
	*/
	T Create(int tokenType, string text);

	#endregion


	#region Content

	/** <summary>For tree parsing, I need to know the token type of a node</summary> */
	int GetType(T t);

	/** <summary>Node constructors can set the type of a node</summary> */
	void SetType(T t, int type);

	string GetText(T t);

	/** <summary>Node constructors can set the text of a node</summary> */
	void SetText(T t, string text);

	/** <summary>
	* Return the token object from which this node was created.
	* Currently used only for printing an error message.
	* The error display routine in BaseRecognizer needs to
	* display where the input the error occurred. If your
	* tree of limitation does not store information that can
	* lead you to the token, you can create a token filled with
	* the appropriate information and pass that back. See
	* BaseRecognizer.getErrorMessage().
	* </summary>
	*/
	IToken GetToken(T t);

	/** <summary>
	* Where are the bounds in the input token stream for this node and
	* all children? Each rule that creates AST nodes will call this
	* method right before returning. Flat trees (i.e., lists) will
	* still usually have a nil root node just to hold the children list.
	* That node would contain the start/stop indexes then.
	* </summary>
	*/
	void SetTokenBoundaries(T t, IToken startToken, IToken stopToken);

	/** <summary>Get the token start index for this subtree; return -1 if no such index</summary> */
	int GetTokenStartIndex(T t);

	/** <summary>Get the token stop index for this subtree; return -1 if no such index</summary> */
	int GetTokenStopIndex(T t);

	#endregion


	#region Navigation / Tree Parsing

	/** <summary>Get a child 0..n-1 node</summary> */
	T GetChild(T t, int i);

	/** <summary>Set ith child (0..n-1) to t; t must be non-null and non-nil node</summary> */
	void SetChild(T t, int i, T child);

	/** <summary>Remove ith child and shift children down from right.</summary> */
	T DeleteChild(T t, int i);

	/** <summary>How many children? If 0, then this is a leaf node</summary> */
	int GetChildCount(T t);

	/** <summary>
	* Who is the parent node of this node; if null, implies node is root.
	* If your node type doesn't handle this, it's ok but the tree rewrites
	* in tree parsers need this functionality.
	* </summary>
	*/
	T GetParent(T t);
	void SetParent(T t, T parent);

	/** <summary>
	* What index is this node in the child list? Range: 0..n-1
	* If your node type doesn't handle this, it's ok but the tree rewrites
	* in tree parsers need this functionality.
	* </summary>
	*/
	int GetChildIndex(T t);
	void SetChildIndex(T t, int index);

	/** <summary>
	* Replace from start to stop child index of parent with t, which might
	* be a list. Number of children may be different after this call.
	* </summary>
	*
	* <remarks>
	* If parent is null, don't do anything; must be at root of overall tree.
	* Can't replace whatever points to the parent externally. Do nothing.
	* </remarks>
	*/
	void ReplaceChildren(T parent, int startChildIndex, int stopChildIndex, T t);

	#endregion
	}
	}