Source/Swig/tree.c - third_party/swig - Git at Google

 /* -----------------------------------------------------------------------------
  * This file is part of SWIG, which is licensed as a whole under version 3
  * (or any later version) of the GNU General Public License. Some additional
  * terms also apply to certain portions of SWIG. The full details of the SWIG
  * license and copyrights can be found in the LICENSE and COPYRIGHT files
  * included with the SWIG source code as distributed by the SWIG developers
  * and at http://www.swig.org/legal.html.
  *
  * tree.c
  *
  * This file provides some general purpose functions for manipulating
  * parse trees.
  * ----------------------------------------------------------------------------- */

 #include "swig.h"
 #include <stdarg.h>
 #include <assert.h>

 /* -----------------------------------------------------------------------------
  * Swig_print_tags()
  *
  * Dump the tag structure of a parse tree to standard output
  * ----------------------------------------------------------------------------- */

 void Swig_print_tags(DOH *obj, DOH *root) {
   DOH *croot, *newroot;
   DOH *cobj;

   if (!root)
     croot = NewStringEmpty();
   else
     croot = root;

   while (obj) {
     Swig_diagnostic(Getfile(obj), Getline(obj), "%s . %s\n", croot, nodeType(obj));
     cobj = firstChild(obj);
     if (cobj) {
       newroot = NewStringf("%s . %s", croot, nodeType(obj));
       Swig_print_tags(cobj, newroot);
       Delete(newroot);
     }
     obj = nextSibling(obj);
   }
   if (!root)
     Delete(croot);
 }

 static int indent_level = 0;

 static void print_indent(int l) {
   int i;
   for (i = 0; i < indent_level; i++) {
     fputc(' ', stdout);
   }
   if (l) {
     fputc('|', stdout);
     fputc(' ', stdout);
   }
 }


 /* -----------------------------------------------------------------------------
  * Swig_print_node(Node *n)
  * ----------------------------------------------------------------------------- */

 void Swig_print_node(Node *obj) {
   Iterator ki;
   Node *cobj;

   print_indent(0);
   Printf(stdout, "+++ %s - %p ----------------------------------------\n", nodeType(obj), obj);
   ki = First(obj);
   while (ki.key) {
     String *k = ki.key;
     if ((Cmp(k, "nodeType") == 0) || (Cmp(k, "firstChild") == 0) || (Cmp(k, "lastChild") == 0) ||
 	(Cmp(k, "parentNode") == 0) || (Cmp(k, "nextSibling") == 0) || (Cmp(k, "previousSibling") == 0) || (*(Char(k)) == '$')) {
       /* Do nothing */
     } else if (Cmp(k, "kwargs") == 0 || Cmp(k, "parms") == 0 || Cmp(k, "wrap:parms") == 0 ||
 	       Cmp(k, "pattern") == 0 || Cmp(k, "templateparms") == 0 || Cmp(k, "throws") == 0) {
       print_indent(2);
       /* Differentiate parameter lists by displaying within single quotes */
       Printf(stdout, "%-12s - \'%s\'\n", k, ParmList_str_defaultargs(Getattr(obj, k)));
     } else {
       DOH *o;
       const char *trunc = "";
       print_indent(2);
       if (DohIsString(Getattr(obj, k))) {
 	o = Str(Getattr(obj, k));
 	if (Len(o) > 80) {
 	  trunc = "...";
 	}
 	Printf(stdout, "%-12s - \"%(escape)-0.80s%s\"\n", k, o, trunc);
 	Delete(o);
       } else {
 	Printf(stdout, "%-12s - %p\n", k, Getattr(obj, k));
       }
     }
     ki = Next(ki);
   }
   cobj = firstChild(obj);
   if (cobj) {
     indent_level += 6;
     Printf(stdout, "\n");
     Swig_print_tree(cobj);
     indent_level -= 6;
   } else {
     print_indent(1);
     Printf(stdout, "\n");
   }
 }

 /* -----------------------------------------------------------------------------
  * Swig_print_tree()
  *
  * Dump the tree structure of a parse tree to standard output
  * ----------------------------------------------------------------------------- */

 void Swig_print_tree(DOH *obj) {
   while (obj) {
     Swig_print_node(obj);
     obj = nextSibling(obj);
   }
 }

 /* -----------------------------------------------------------------------------
  * appendChild()
  *
  * Appends a new child to a node
  * ----------------------------------------------------------------------------- */

 void appendChild(Node *node, Node *chd) {
   Node *lc;

   if (!chd)
     return;

   lc = lastChild(node);
   if (!lc) {
     set_firstChild(node, chd);
   } else {
     set_nextSibling(lc, chd);
     set_previousSibling(chd, lc);
   }
   while (chd) {
     lc = chd;
     set_parentNode(chd, node);
     chd = nextSibling(chd);
   }
   set_lastChild(node, lc);
 }

 /* -----------------------------------------------------------------------------
  * prependChild()
  *
  * Prepends a new child to a node
  * ----------------------------------------------------------------------------- */

 void prependChild(Node *node, Node *chd) {
   Node *fc;

   if (!chd)
     return;

   fc = firstChild(node);
   if (fc) {
     set_nextSibling(chd, fc);
     set_previousSibling(fc, chd);
   }
   set_firstChild(node, chd);
   while (chd) {
     set_parentNode(chd, node);
     chd = nextSibling(chd);
   }
 }

 void appendSibling(Node *node, Node *chd) {
   Node *parent;
   Node *lc = node;
   while (nextSibling(lc))
     lc = nextSibling(lc);
   set_nextSibling(lc, chd);
   set_previousSibling(chd, lc);
   parent = parentNode(node);
   if (parent) {
     while (chd) {
       lc = chd;
       set_parentNode(chd, parent);
       chd = nextSibling(chd);
     }
     set_lastChild(parent, lc);
   }
 }

 /* -----------------------------------------------------------------------------
  * removeNode()
  *
  * Removes a node from the parse tree.  Detaches it from its parent's child list.
  * ----------------------------------------------------------------------------- */

 void removeNode(Node *n) {
   Node *parent;
   Node *prev;
   Node *next;

   parent = parentNode(n);
   if (!parent) return;

   prev = previousSibling(n);
   next = nextSibling(n);
   if (prev) {
     set_nextSibling(prev, next);
   } else {
     if (parent) {
       set_firstChild(parent, next);
     }
   }
   if (next) {
     set_previousSibling(next, prev);
   } else {
     if (parent) {
       set_lastChild(parent, prev);
     }
   }

   /* Delete attributes */
   Delattr(n,"parentNode");
   Delattr(n,"nextSibling");
   Delattr(n,"prevSibling");
 }

 /* -----------------------------------------------------------------------------
  * copyNode()
  *
  * Copies a node, but only copies simple attributes (no lists, hashes).
  * ----------------------------------------------------------------------------- */

 Node *copyNode(Node *n) {
   Iterator ki;
   Node *c = NewHash();
   for (ki = First(n); ki.key; ki = Next(ki)) {
     if (DohIsString(ki.item)) {
       Setattr(c, ki.key, Copy(ki.item));
     }
   }
   Setfile(c, Getfile(n));
   Setline(c, Getline(n));
   return c;
 }

 /* -----------------------------------------------------------------------------
  * checkAttribute()
  * ----------------------------------------------------------------------------- */

 int checkAttribute(Node *n, const_String_or_char_ptr name, const_String_or_char_ptr value) {
   String *v = Getattr(n, name);
   return v ? Equal(v, value) : 0;
 }

 /* -----------------------------------------------------------------------------
  * Swig_require()
  * ns   - namespace for the view name for saving any attributes under
  * n    - node
  * ...  - list of attribute names of type char*
  * This method checks that the attribute names exist in the node n and asserts if
  * not. Assert will only occur unless the attribute is optional. An attribute is
  * optional if it is prefixed by ?, eg "?value". If the attribute name is prefixed
  * by * or ?, eg "*value" then a copy of the attribute is saved. The saved
  * attributes will be restored on a subsequent call to Swig_restore(). All the
  * saved attributes are saved in the view namespace (prefixed by ns).
  * This function can be called more than once with different namespaces.
  * ----------------------------------------------------------------------------- */

 void Swig_require(const char *ns, Node *n, ...) {
   va_list ap;
   char *name;
   DOH *obj;

   va_start(ap, n);
   name = va_arg(ap, char *);
   while (name) {
     int newref = 0;
     int opt = 0;
     if (*name == '*') {
       newref = 1;
       name++;
     } else if (*name == '?') {
       newref = 1;
       opt = 1;
       name++;
     }
     obj = Getattr(n, name);
     if (!opt && !obj) {
       Swig_error(Getfile(n), Getline(n), "Fatal error (Swig_require).  Missing attribute '%s' in node '%s'.\n", name, nodeType(n));
       assert(obj);
     }
     if (!obj)
       obj = DohNone;
     if (newref) {
       /* Save a copy of the attribute */
       Setattr(n, NewStringf("%s:%s", ns, name), obj);
     }
     name = va_arg(ap, char *);
   }
   va_end(ap);

   /* Save the view */
   {
     String *view = Getattr(n, "view");
     if (view) {
       if (Strcmp(view, ns) != 0) {
 	Setattr(n, NewStringf("%s:view", ns), view);
 	Setattr(n, "view", NewString(ns));
       }
     } else {
       Setattr(n, "view", NewString(ns));
     }
   }
 }


 /* -----------------------------------------------------------------------------
  * Swig_save()
  * Same as Swig_require(), but all attribute names are optional and all attributes
  * are saved, ie behaves as if all the attribute names were prefixed by ?.
  * ----------------------------------------------------------------------------- */

 void Swig_save(const char *ns, Node *n, ...) {
   va_list ap;
   char *name;
   DOH *obj;

   va_start(ap, n);
   name = va_arg(ap, char *);
   while (name) {
     if (*name == '*') {
       name++;
     } else if (*name == '?') {
       name++;
     }
     obj = Getattr(n, name);
     if (!obj)
       obj = DohNone;

     /* Save a copy of the attribute */
     if (Setattr(n, NewStringf("%s:%s", ns, name), obj)) {
       Printf(stderr, "Swig_save('%s','%s'): Warning, attribute '%s' was already saved.\n", ns, nodeType(n), name);
     }
     name = va_arg(ap, char *);
   }
   va_end(ap);

   /* Save the view */
   {
     String *view = Getattr(n, "view");
     if (view) {
       if (Strcmp(view, ns) != 0) {
 	Setattr(n, NewStringf("%s:view", ns), view);
 	Setattr(n, "view", NewString(ns));
       }
     } else {
       Setattr(n, "view", NewString(ns));
     }
   }
 }

 /* -----------------------------------------------------------------------------
  * Swig_restore()
  * Restores attributes saved by a previous call to Swig_require() or Swig_save().
  * ----------------------------------------------------------------------------- */

 void Swig_restore(Node *n) {
   String *temp;
   int len;
   List *l;
   String *ns;
   Iterator ki;

   ns = Getattr(n, "view");
   assert(ns);

   l = NewList();

   temp = NewStringf("%s:", ns);
   len = Len(temp);

   for (ki = First(n); ki.key; ki = Next(ki)) {
     if (Strncmp(temp, ki.key, len) == 0) {
       Append(l, ki.key);
     }
   }
   for (ki = First(l); ki.item; ki = Next(ki)) {
     DOH *obj = Getattr(n, ki.item);
     Setattr(n, Char(ki.item) + len, obj);
     Delattr(n, ki.item);
   }
   Delete(l);
   Delete(temp);
 }
	/* -----------------------------------------------------------------------------
	* This file is part of SWIG, which is licensed as a whole under version 3
	* (or any later version) of the GNU General Public License. Some additional
	* terms also apply to certain portions of SWIG. The full details of the SWIG
	* license and copyrights can be found in the LICENSE and COPYRIGHT files
	* included with the SWIG source code as distributed by the SWIG developers
	* and at http://www.swig.org/legal.html.
	*
	* tree.c
	*
	* This file provides some general purpose functions for manipulating
	* parse trees.
	* ----------------------------------------------------------------------------- */

	#include "swig.h"
	#include <stdarg.h>
	#include <assert.h>

	/* -----------------------------------------------------------------------------
	* Swig_print_tags()
	*
	* Dump the tag structure of a parse tree to standard output
	* ----------------------------------------------------------------------------- */

	void Swig_print_tags(DOH obj, DOH root) {
	DOH croot, newroot;
	DOH *cobj;

	if (!root)
	croot = NewStringEmpty();
	else
	croot = root;

	while (obj) {
	Swig_diagnostic(Getfile(obj), Getline(obj), "%s . %s\n", croot, nodeType(obj));
	cobj = firstChild(obj);
	if (cobj) {
	newroot = NewStringf("%s . %s", croot, nodeType(obj));
	Swig_print_tags(cobj, newroot);
	Delete(newroot);
	}
	obj = nextSibling(obj);
	}
	if (!root)
	Delete(croot);
	}

	static int indent_level = 0;

	static void print_indent(int l) {
	int i;
	for (i = 0; i < indent_level; i++) {
	fputc(' ', stdout);
	}
	if (l) {
	fputc('\|', stdout);
	fputc(' ', stdout);
	}
	}


	/* -----------------------------------------------------------------------------
	* Swig_print_node(Node *n)
	* ----------------------------------------------------------------------------- */

	void Swig_print_node(Node *obj) {
	Iterator ki;
	Node *cobj;

	print_indent(0);
	Printf(stdout, "+++ %s - %p ----------------------------------------\n", nodeType(obj), obj);
	ki = First(obj);
	while (ki.key) {
	String *k = ki.key;
	if ((Cmp(k, "nodeType") == 0) \|\| (Cmp(k, "firstChild") == 0) \|\| (Cmp(k, "lastChild") == 0) \|\|
	(Cmp(k, "parentNode") == 0) \|\| (Cmp(k, "nextSibling") == 0) \|\| (Cmp(k, "previousSibling") == 0) \|\| (*(Char(k)) == '$')) {
	/* Do nothing */
	} else if (Cmp(k, "kwargs") == 0 \|\| Cmp(k, "parms") == 0 \|\| Cmp(k, "wrap:parms") == 0 \|\|
	Cmp(k, "pattern") == 0 \|\| Cmp(k, "templateparms") == 0 \|\| Cmp(k, "throws") == 0) {
	print_indent(2);
	/* Differentiate parameter lists by displaying within single quotes */
	Printf(stdout, "%-12s - \'%s\'\n", k, ParmList_str_defaultargs(Getattr(obj, k)));
	} else {
	DOH *o;
	const char *trunc = "";
	print_indent(2);
	if (DohIsString(Getattr(obj, k))) {
	o = Str(Getattr(obj, k));
	if (Len(o) > 80) {
	trunc = "...";
	}
	Printf(stdout, "%-12s - \"%(escape)-0.80s%s\"\n", k, o, trunc);
	Delete(o);
	} else {
	Printf(stdout, "%-12s - %p\n", k, Getattr(obj, k));
	}
	}
	ki = Next(ki);
	}
	cobj = firstChild(obj);
	if (cobj) {
	indent_level += 6;
	Printf(stdout, "\n");
	Swig_print_tree(cobj);
	indent_level -= 6;
	} else {
	print_indent(1);
	Printf(stdout, "\n");
	}
	}

	/* -----------------------------------------------------------------------------
	* Swig_print_tree()
	*
	* Dump the tree structure of a parse tree to standard output
	* ----------------------------------------------------------------------------- */

	void Swig_print_tree(DOH *obj) {
	while (obj) {
	Swig_print_node(obj);
	obj = nextSibling(obj);
	}
	}

	/* -----------------------------------------------------------------------------
	* appendChild()
	*
	* Appends a new child to a node
	* ----------------------------------------------------------------------------- */

	void appendChild(Node node, Node chd) {
	Node *lc;

	if (!chd)
	return;

	lc = lastChild(node);
	if (!lc) {
	set_firstChild(node, chd);
	} else {
	set_nextSibling(lc, chd);
	set_previousSibling(chd, lc);
	}
	while (chd) {
	lc = chd;
	set_parentNode(chd, node);
	chd = nextSibling(chd);
	}
	set_lastChild(node, lc);
	}

	/* -----------------------------------------------------------------------------
	* prependChild()
	*
	* Prepends a new child to a node
	* ----------------------------------------------------------------------------- */

	void prependChild(Node node, Node chd) {
	Node *fc;

	if (!chd)
	return;

	fc = firstChild(node);
	if (fc) {
	set_nextSibling(chd, fc);
	set_previousSibling(fc, chd);
	}
	set_firstChild(node, chd);
	while (chd) {
	set_parentNode(chd, node);
	chd = nextSibling(chd);
	}
	}

	void appendSibling(Node node, Node chd) {
	Node *parent;
	Node *lc = node;
	while (nextSibling(lc))
	lc = nextSibling(lc);
	set_nextSibling(lc, chd);
	set_previousSibling(chd, lc);
	parent = parentNode(node);
	if (parent) {
	while (chd) {
	lc = chd;
	set_parentNode(chd, parent);
	chd = nextSibling(chd);
	}
	set_lastChild(parent, lc);
	}
	}

	/* -----------------------------------------------------------------------------
	* removeNode()
	*
	* Removes a node from the parse tree. Detaches it from its parent's child list.
	* ----------------------------------------------------------------------------- */

	void removeNode(Node *n) {
	Node *parent;
	Node *prev;
	Node *next;

	parent = parentNode(n);
	if (!parent) return;

	prev = previousSibling(n);
	next = nextSibling(n);
	if (prev) {
	set_nextSibling(prev, next);
	} else {
	if (parent) {
	set_firstChild(parent, next);
	}
	}
	if (next) {
	set_previousSibling(next, prev);
	} else {
	if (parent) {
	set_lastChild(parent, prev);
	}
	}

	/* Delete attributes */
	Delattr(n,"parentNode");
	Delattr(n,"nextSibling");
	Delattr(n,"prevSibling");
	}

	/* -----------------------------------------------------------------------------
	* copyNode()
	*
	* Copies a node, but only copies simple attributes (no lists, hashes).
	* ----------------------------------------------------------------------------- */

	Node copyNode(Node n) {
	Iterator ki;
	Node *c = NewHash();
	for (ki = First(n); ki.key; ki = Next(ki)) {
	if (DohIsString(ki.item)) {
	Setattr(c, ki.key, Copy(ki.item));
	}
	}
	Setfile(c, Getfile(n));
	Setline(c, Getline(n));
	return c;
	}

	/* -----------------------------------------------------------------------------
	* checkAttribute()
	* ----------------------------------------------------------------------------- */

	int checkAttribute(Node *n, const_String_or_char_ptr name, const_String_or_char_ptr value) {
	String *v = Getattr(n, name);
	return v ? Equal(v, value) : 0;
	}

	/* -----------------------------------------------------------------------------
	* Swig_require()
	* ns - namespace for the view name for saving any attributes under
	* n - node
	* ... - list of attribute names of type char*
	* This method checks that the attribute names exist in the node n and asserts if
	* not. Assert will only occur unless the attribute is optional. An attribute is
	* optional if it is prefixed by ?, eg "?value". If the attribute name is prefixed
	* by * or ?, eg "*value" then a copy of the attribute is saved. The saved
	* attributes will be restored on a subsequent call to Swig_restore(). All the
	* saved attributes are saved in the view namespace (prefixed by ns).
	* This function can be called more than once with different namespaces.
	* ----------------------------------------------------------------------------- */

	void Swig_require(const char ns, Node n, ...) {
	va_list ap;
	char *name;
	DOH *obj;

	va_start(ap, n);
	name = va_arg(ap, char *);
	while (name) {
	int newref = 0;
	int opt = 0;
	if (name == '') {
	newref = 1;
	name++;
	} else if (*name == '?') {
	newref = 1;
	opt = 1;
	name++;
	}
	obj = Getattr(n, name);
	if (!opt && !obj) {
	Swig_error(Getfile(n), Getline(n), "Fatal error (Swig_require). Missing attribute '%s' in node '%s'.\n", name, nodeType(n));
	assert(obj);
	}
	if (!obj)
	obj = DohNone;
	if (newref) {
	/* Save a copy of the attribute */
	Setattr(n, NewStringf("%s:%s", ns, name), obj);
	}
	name = va_arg(ap, char *);
	}
	va_end(ap);

	/* Save the view */
	{
	String *view = Getattr(n, "view");
	if (view) {
	if (Strcmp(view, ns) != 0) {
	Setattr(n, NewStringf("%s:view", ns), view);
	Setattr(n, "view", NewString(ns));
	}
	} else {
	Setattr(n, "view", NewString(ns));
	}
	}
	}


	/* -----------------------------------------------------------------------------
	* Swig_save()
	* Same as Swig_require(), but all attribute names are optional and all attributes
	* are saved, ie behaves as if all the attribute names were prefixed by ?.
	* ----------------------------------------------------------------------------- */

	void Swig_save(const char ns, Node n, ...) {
	va_list ap;
	char *name;
	DOH *obj;

	va_start(ap, n);
	name = va_arg(ap, char *);
	while (name) {
	if (name == '') {
	name++;
	} else if (*name == '?') {
	name++;
	}
	obj = Getattr(n, name);
	if (!obj)
	obj = DohNone;

	/* Save a copy of the attribute */
	if (Setattr(n, NewStringf("%s:%s", ns, name), obj)) {
	Printf(stderr, "Swig_save('%s','%s'): Warning, attribute '%s' was already saved.\n", ns, nodeType(n), name);
	}
	name = va_arg(ap, char *);
	}
	va_end(ap);

	/* Save the view */
	{
	String *view = Getattr(n, "view");
	if (view) {
	if (Strcmp(view, ns) != 0) {
	Setattr(n, NewStringf("%s:view", ns), view);
	Setattr(n, "view", NewString(ns));
	}
	} else {
	Setattr(n, "view", NewString(ns));
	}
	}
	}

	/* -----------------------------------------------------------------------------
	* Swig_restore()
	* Restores attributes saved by a previous call to Swig_require() or Swig_save().
	* ----------------------------------------------------------------------------- */

	void Swig_restore(Node *n) {
	String *temp;
	int len;
	List *l;
	String *ns;
	Iterator ki;

	ns = Getattr(n, "view");
	assert(ns);

	l = NewList();

	temp = NewStringf("%s:", ns);
	len = Len(temp);

	for (ki = First(n); ki.key; ki = Next(ki)) {
	if (Strncmp(temp, ki.key, len) == 0) {
	Append(l, ki.key);
	}
	}
	for (ki = First(l); ki.item; ki = Next(ki)) {
	DOH *obj = Getattr(n, ki.item);
	Setattr(n, Char(ki.item) + len, obj);
	Delattr(n, ki.item);
	}
	Delete(l);
	Delete(temp);
	}