Source/Pccts/h/ASTBase.cpp - edk2 - Git at Google

 /* Abstract syntax tree manipulation functions
  *
  * SOFTWARE RIGHTS
  *
  * We reserve no LEGAL rights to the Purdue Compiler Construction Tool
  * Set (PCCTS) -- PCCTS is in the public domain.  An individual or
  * company may do whatever they wish with source code distributed with
  * PCCTS or the code generated by PCCTS, including the incorporation of
  * PCCTS, or its output, into commerical software.
  *
  * We encourage users to develop software with PCCTS.  However, we do ask
  * that credit is given to us for developing PCCTS.  By "credit",
  * we mean that if you incorporate our source code into one of your
  * programs (commercial product, research project, or otherwise) that you
  * acknowledge this fact somewhere in the documentation, research report,
  * etc...  If you like PCCTS and have developed a nice tool with the
  * output, please mention that you developed it using PCCTS.  In
  * addition, we ask that this header remain intact in our source code.
  * As long as these guidelines are kept, we expect to continue enhancing
  * this system and expect to make other tools available as they are
  * completed.
  *
  * ANTLR 1.33
  * Terence Parr
  * Parr Research Corporation
  * with Purdue University and AHPCRC, University of Minnesota
  * 1989-2000
  */

 #include "pcctscfg.h"

 #include "pccts_stdio.h"
 #include "pccts_stdarg.h"

 PCCTS_NAMESPACE_STD

 #define ANTLR_SUPPORT_CODE

 #include "ASTBase.h"

 /* ensure that tree manipulation variables are current after a rule
  * reference
  */
 void
 ASTBase::link(ASTBase **_root, ASTBase **_sibling, ASTBase **_tail)
 {
 	if ( *_sibling == NULL ) return;
 	if ( *_root == NULL ) *_root = *_sibling;
 	else if ( *_root != *_sibling ) (*_root)->_down = *_sibling;
 	if ( *_tail==NULL ) *_tail = *_sibling;
 	while ( (*_tail)->_right != NULL ) *_tail = (*_tail)->_right;
 }

 /* add a child node to the current sibling list */
 void
 ASTBase::subchild(ASTBase **_root, ASTBase **_sibling, ASTBase **_tail)
 {
 	if ( *_tail != NULL ) (*_tail)->_right = this;
 	else {
 		*_sibling = this;
 		if ( *_root != NULL ) (*_root)->_down = *_sibling;
 	}
 	*_tail = this;
 	if ( *_root == NULL ) *_root = *_sibling;
 }

 /* make a new AST node.  Make the newly-created
  * node the root for the current sibling list.  If a root node already
  * exists, make the newly-created node the root of the current root.
  */
 void
 ASTBase::subroot(ASTBase **_root, ASTBase **_sibling, ASTBase **_tail)
 {
 	if ( *_root != NULL )
 		if ( (*_root)->_down == *_sibling ) *_sibling = *_tail = *_root;
 	*_root = this;
 	(*_root)->_down = *_sibling;
 }

 /* Apply preorder_action(), etc.. to root then each sibling */
 //
 //  7-Apr-97 133MR1
 //	Fix suggested by Ron House (house@helios.usq.edu.au)
 //
 void
 ASTBase::preorder(void* pData /*= NULL*/ /* MR23 */)
 {
 	ASTBase *tree = this;

 	while ( tree!= NULL )
 	{
 		if ( tree->_down != NULL ) {
 			tree->preorder_before_action(pData); 		// MR1
 		};
 		tree->preorder_action(pData);
 		if ( tree->_down!=NULL )
 		{
 			tree->_down->preorder(pData);
 			tree->preorder_after_action(pData);			// MR1
 		}
 		tree = tree->_right;
 	}
 }

 /* free all AST nodes in tree; apply func to each before freeing */
 void
 ASTBase::destroy()
 {
    ASTBase* tree = this;
    while (tree) {
       if (tree->_down) tree->_down->destroy();

       ASTBase* cur = tree;
       tree = tree->_right;
       delete cur;
    }
 }

 /* build a tree (root child1 child2 ... NULL)
  * If root is NULL, simply make the children siblings and return ptr
  * to 1st sibling (child1).  If root is not single node, return NULL.
  *
  * Siblings that are actually siblins lists themselves are handled
  * correctly.  For example #( NULL, #( NULL, A, B, C), D) results
  * in the tree ( NULL A B C D ).
  *
  * Requires at least two parameters with the last one being NULL.  If
  * both are NULL, return NULL.
  */
 ASTBase *
 ASTBase::tmake(ASTBase *root, ...)
 {
 	va_list ap;
 	register ASTBase *child, *sibling=NULL, *tail=NULL /*MR23*/, *w;

 	va_start(ap, root);

 	if ( root != NULL )
 		if ( root->_down != NULL ) {
             root->reportOverwriteOfDownPointer();  /* MR21 Report problem which almost always an error */
             return NULL;
         }
 	child = va_arg(ap, ASTBase *);
 	while ( child != NULL )
 	{
 		for (w=child; w->_right!=NULL; w=w->_right) {;} /* find end of child */
 		if ( sibling == NULL ) {sibling = child; tail = w;}
 		else {tail->_right = child; tail = w;}
 		child = va_arg(ap, ASTBase *);
 	}
 	if ( root==NULL ) root = sibling;
 	else root->_down = sibling;
 	va_end(ap);
 	return root;
 }

 #ifndef PCCTS_NOT_USING_SOR

 /* tree duplicate */
 // forgot to check for NULL this (TJP July 23,1995)
 ASTBase *
 ASTBase::dup()
 {
 	ASTBase *u, *t=this;

 	if ( t == NULL ) return NULL;
 /*
 	u = new ASTBase;
 	*u = *t;
 */
 	u = (ASTBase *)this->shallowCopy();
 	if ( t->_right!=NULL ) u->_right = t->_right->dup();
 	else u->_right = NULL;
 	if ( t->_down!=NULL ) u->_down = t->_down->dup();
 	else u->_down = NULL;
 	return u;
 }
 #endif

 //
 //  7-Apr-97 133MR1
 //  	     Fix suggested by Asgeir Olafsson (olafsson@cstar.ac.com)
 //
 /* tree duplicate */

 #ifndef PCCTS_NOT_USING_SOR

 ASTBase *
 ASTDoublyLinkedBase::dup()
 {
 	ASTDoublyLinkedBase *u, *t=this;

 	if ( t == NULL ) return NULL;
 	u = (ASTDoublyLinkedBase *)this->shallowCopy();
 	u->_up = NULL;		/* set by calling invocation */
 	u->_left = NULL;
 	if (t->_right!=NULL) {						// MR1
           u->_right=t->_right->dup();					// MR1
 	  ((ASTDoublyLinkedBase *)u->_right)->_left = u;		// MR1
         } else {							// MR1
 	  u->_right = NULL;						// MR1
         };								// MR1
 	if (t->_down!=NULL) {						// MR1
   	  u->_down = t->_down->dup();					// MR1
           ((ASTDoublyLinkedBase *)u->_down)->_up = u;			// MR1
         } else {							// MR1
 	  u->_down = NULL;						// MR1
         };								// MR1
 	return u;
 }

 #endif

 /*
  * Set the 'up', and 'left' pointers of all nodes in 't'.
  * Initial call is double_link(your_tree, NULL, NULL).
  */
 void
 ASTDoublyLinkedBase::double_link(ASTBase *left, ASTBase *up)
 {
     ASTDoublyLinkedBase *t = this;

     t->_left = (ASTDoublyLinkedBase *) left;
     t->_up = (ASTDoublyLinkedBase *) up;
     if (t->_down != NULL)
 		((ASTDoublyLinkedBase *)t->_down)->double_link(NULL, t);
     if (t->_right != NULL)
 		((ASTDoublyLinkedBase *)t->_right)->double_link(t, up);
 }

 // MR21 ASTBase::reportOverwriteOfDownPointer

 void ASTBase::reportOverwriteOfDownPointer()
 {
     panic("Attempt to overwrite down pointer in ASTBase::tmake");
 }

 // MR21 ASTBase::panic

 void ASTBase::panic(const char *msg)
 {
 	/* MR23 */ printMessage(stderr,"ASTBase panic: %s\n", msg);
 	exit(PCCTS_EXIT_FAILURE);
 }

 #ifdef PCCTS_NOT_USING_SOR
 //MR23
 int ASTBase::printMessage(FILE* pFile, const char* pFormat, ...)
 {
 	va_list marker;
 	va_start( marker, pFormat );
   	int iRet = vfprintf(pFile, pFormat, marker);
 	va_end( marker );
 	return iRet;
 }
 #endif
	/* Abstract syntax tree manipulation functions
	*
	* SOFTWARE RIGHTS
	*
	* We reserve no LEGAL rights to the Purdue Compiler Construction Tool
	* Set (PCCTS) -- PCCTS is in the public domain. An individual or
	* company may do whatever they wish with source code distributed with
	* PCCTS or the code generated by PCCTS, including the incorporation of
	* PCCTS, or its output, into commerical software.
	*
	* We encourage users to develop software with PCCTS. However, we do ask
	* that credit is given to us for developing PCCTS. By "credit",
	* we mean that if you incorporate our source code into one of your
	* programs (commercial product, research project, or otherwise) that you
	* acknowledge this fact somewhere in the documentation, research report,
	* etc... If you like PCCTS and have developed a nice tool with the
	* output, please mention that you developed it using PCCTS. In
	* addition, we ask that this header remain intact in our source code.
	* As long as these guidelines are kept, we expect to continue enhancing
	* this system and expect to make other tools available as they are
	* completed.
	*
	* ANTLR 1.33
	* Terence Parr
	* Parr Research Corporation
	* with Purdue University and AHPCRC, University of Minnesota
	* 1989-2000
	*/

	#include "pcctscfg.h"

	#include "pccts_stdio.h"
	#include "pccts_stdarg.h"

	PCCTS_NAMESPACE_STD

	#define ANTLR_SUPPORT_CODE

	#include "ASTBase.h"

	/* ensure that tree manipulation variables are current after a rule
	* reference
	*/
	void
	ASTBase::link(ASTBase _root, ASTBase _sibling, ASTBase **_tail)
	{
	if ( *_sibling == NULL ) return;
	if ( _root == NULL ) _root = *_sibling;
	else if ( _root != _sibling ) (_root)->_down = _sibling;
	if ( _tail==NULL ) _tail = *_sibling;
	while ( (_tail)->_right != NULL ) _tail = (*_tail)->_right;
	}

	/* add a child node to the current sibling list */
	void
	ASTBase::subchild(ASTBase _root, ASTBase _sibling, ASTBase **_tail)
	{
	if ( _tail != NULL ) (_tail)->_right = this;
	else {
	*_sibling = this;
	if ( _root != NULL ) (_root)->_down = *_sibling;
	}
	*_tail = this;
	if ( _root == NULL ) _root = *_sibling;
	}

	/* make a new AST node. Make the newly-created
	* node the root for the current sibling list. If a root node already
	* exists, make the newly-created node the root of the current root.
	*/
	void
	ASTBase::subroot(ASTBase _root, ASTBase _sibling, ASTBase **_tail)
	{
	if ( *_root != NULL )
	if ( (_root)->_down == _sibling ) _sibling = _tail = *_root;
	*_root = this;
	(_root)->_down = _sibling;
	}

	/* Apply preorder_action(), etc.. to root then each sibling */
	//
	// 7-Apr-97 133MR1
	// Fix suggested by Ron House (house@helios.usq.edu.au)
	//
	void
	ASTBase::preorder(void* pData /= NULL/ /* MR23 */)
	{
	ASTBase *tree = this;

	while ( tree!= NULL )
	{
	if ( tree->_down != NULL ) {
	tree->preorder_before_action(pData); // MR1
	};
	tree->preorder_action(pData);
	if ( tree->_down!=NULL )
	{
	tree->_down->preorder(pData);
	tree->preorder_after_action(pData); // MR1
	}
	tree = tree->_right;
	}
	}

	/* free all AST nodes in tree; apply func to each before freeing */
	void
	ASTBase::destroy()
	{
	ASTBase* tree = this;
	while (tree) {
	if (tree->_down) tree->_down->destroy();

	ASTBase* cur = tree;
	tree = tree->_right;
	delete cur;
	}
	}

	/* build a tree (root child1 child2 ... NULL)
	* If root is NULL, simply make the children siblings and return ptr
	* to 1st sibling (child1). If root is not single node, return NULL.
	*
	* Siblings that are actually siblins lists themselves are handled
	* correctly. For example #( NULL, #( NULL, A, B, C), D) results
	* in the tree ( NULL A B C D ).
	*
	* Requires at least two parameters with the last one being NULL. If
	* both are NULL, return NULL.
	*/
	ASTBase *
	ASTBase::tmake(ASTBase *root, ...)
	{
	va_list ap;
	register ASTBase child, sibling=NULL, tail=NULL /MR23/, w;

	va_start(ap, root);

	if ( root != NULL )
	if ( root->_down != NULL ) {
	root->reportOverwriteOfDownPointer(); /* MR21 Report problem which almost always an error */
	return NULL;
	}
	child = va_arg(ap, ASTBase *);
	while ( child != NULL )
	{
	for (w=child; w->_right!=NULL; w=w->_right) {;} /* find end of child */
	if ( sibling == NULL ) {sibling = child; tail = w;}
	else {tail->_right = child; tail = w;}
	child = va_arg(ap, ASTBase *);
	}
	if ( root==NULL ) root = sibling;
	else root->_down = sibling;
	va_end(ap);
	return root;
	}

	#ifndef PCCTS_NOT_USING_SOR

	/* tree duplicate */
	// forgot to check for NULL this (TJP July 23,1995)
	ASTBase *
	ASTBase::dup()
	{
	ASTBase u, t=this;

	if ( t == NULL ) return NULL;
	/*
	u = new ASTBase;
	u = t;
	*/
	u = (ASTBase *)this->shallowCopy();
	if ( t->_right!=NULL ) u->_right = t->_right->dup();
	else u->_right = NULL;
	if ( t->_down!=NULL ) u->_down = t->_down->dup();
	else u->_down = NULL;
	return u;
	}
	#endif

	//
	// 7-Apr-97 133MR1
	// Fix suggested by Asgeir Olafsson (olafsson@cstar.ac.com)
	//
	/* tree duplicate */

	#ifndef PCCTS_NOT_USING_SOR

	ASTBase *
	ASTDoublyLinkedBase::dup()
	{
	ASTDoublyLinkedBase u, t=this;

	if ( t == NULL ) return NULL;
	u = (ASTDoublyLinkedBase *)this->shallowCopy();
	u->_up = NULL; /* set by calling invocation */
	u->_left = NULL;
	if (t->_right!=NULL) { // MR1
	u->_right=t->_right->dup(); // MR1
	((ASTDoublyLinkedBase *)u->_right)->_left = u; // MR1
	} else { // MR1
	u->_right = NULL; // MR1
	}; // MR1
	if (t->_down!=NULL) { // MR1
	u->_down = t->_down->dup(); // MR1
	((ASTDoublyLinkedBase *)u->_down)->_up = u; // MR1
	} else { // MR1
	u->_down = NULL; // MR1
	}; // MR1
	return u;
	}

	#endif

	/*
	* Set the 'up', and 'left' pointers of all nodes in 't'.
	* Initial call is double_link(your_tree, NULL, NULL).
	*/
	void
	ASTDoublyLinkedBase::double_link(ASTBase left, ASTBase up)
	{
	ASTDoublyLinkedBase *t = this;

	t->_left = (ASTDoublyLinkedBase *) left;
	t->_up = (ASTDoublyLinkedBase *) up;
	if (t->_down != NULL)
	((ASTDoublyLinkedBase *)t->_down)->double_link(NULL, t);
	if (t->_right != NULL)
	((ASTDoublyLinkedBase *)t->_right)->double_link(t, up);
	}

	// MR21 ASTBase::reportOverwriteOfDownPointer

	void ASTBase::reportOverwriteOfDownPointer()
	{
	panic("Attempt to overwrite down pointer in ASTBase::tmake");
	}

	// MR21 ASTBase::panic

	void ASTBase::panic(const char *msg)
	{
	/* MR23 */ printMessage(stderr,"ASTBase panic: %s\n", msg);
	exit(PCCTS_EXIT_FAILURE);
	}

	#ifdef PCCTS_NOT_USING_SOR
	//MR23
	int ASTBase::printMessage(FILE* pFile, const char* pFormat, ...)
	{
	va_list marker;
	va_start( marker, pFormat );
	int iRet = vfprintf(pFile, pFormat, marker);
	va_end( marker );
	return iRet;
	}
	#endif