Source/Modules/xml.cxx - 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.
  *
  * xml.cxx
  *
  * An Xml parse tree generator.
  * ----------------------------------------------------------------------------- */

 #include "swigmod.h"

 static const char *usage = "\
 XML Options (available with -xml)\n\
      -xmllang <lang> - Typedef language\n\
      -xmllite        - More lightweight version of XML\n\
      ------\n\
      deprecated (use -o): -xml <output.xml> - Use <output.xml> as output file (extension .xml mandatory)\n";

 static File *out = 0;
 static int xmllite = 0;


 class XML:public Language {
 public:

   int indent_level;
   long id;

   XML() :indent_level(0) , id(0) {
   }

   virtual ~ XML() {
   }

   virtual void main(int argc, char *argv[]) {
     SWIG_typemap_lang("xml");
     for (int iX = 0; iX < argc; iX++) {
       if (strcmp(argv[iX], "-xml") == 0) {
 	char *extension = 0;
 	if (iX + 1 >= argc)
 	  continue;
 	extension = argv[iX + 1] + strlen(argv[iX + 1]) - 4;
 	if (strcmp(extension, ".xml"))
 	  continue;
 	iX++;
 	Swig_mark_arg(iX);
 	String *outfile = NewString(argv[iX]);
 	out = NewFile(outfile, "w", SWIG_output_files());
 	if (!out) {
 	  FileErrorDisplay(outfile);
 	  SWIG_exit(EXIT_FAILURE);
 	}
 	continue;
       }
       if (strcmp(argv[iX], "-xmllang") == 0) {
 	Swig_mark_arg(iX);
 	iX++;
 	SWIG_typemap_lang(argv[iX]);
 	Swig_mark_arg(iX);
 	continue;
       }
       if (strcmp(argv[iX], "-help") == 0) {
 	fputs(usage, stdout);
       }
       if (strcmp(argv[iX], "-xmllite") == 0) {
 	Swig_mark_arg(iX);
 	xmllite = 1;
       }
     }

     // Add a symbol to the parser for conditional compilation
     Preprocessor_define("SWIGXML 1", 0);
   }

   /* Top of the parse tree */

   virtual int top(Node *n) {
     if (out == 0) {
       String *outfile = Getattr(n, "outfile");
       String *ext = Swig_file_extension(outfile);
       // If there's an extension, ext will include the ".".
       Delslice(outfile, Len(outfile) - Len(ext), DOH_END);
       Delete(ext);
       Append(outfile, ".xml");
       out = NewFile(outfile, "w", SWIG_output_files());
       if (!out) {
 	FileErrorDisplay(outfile);
 	SWIG_exit(EXIT_FAILURE);
       }
     }
     Printf(out, "<?xml version=\"1.0\" ?> \n");
     Xml_print_tree(n);
     return SWIG_OK;
   }

   void print_indent(int l) {
     int i;
     for (i = 0; i < indent_level; i++) {
       Printf(out, " ");
     }
     if (l) {
       Printf(out, " ");
     }
   }

   void Xml_print_tree(DOH *obj) {
     while (obj) {
       Xml_print_node(obj);
       obj = nextSibling(obj);
     }
   }

   void Xml_print_attributes(Node *obj) {
     String *k;
     indent_level += 4;
     print_indent(0);
     Printf(out, "<attributelist id=\"%ld\" addr=\"%p\" >\n", ++id, obj);
     indent_level += 4;
     Iterator ki;
     ki = First(obj);
     while (ki.key) {
       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, "module") == 0) {
 	Xml_print_module(Getattr(obj, k));
       } else if (Cmp(k, "baselist") == 0) {
 	Xml_print_baselist(Getattr(obj, k));
       } else if (!xmllite && Cmp(k, "typescope") == 0) {
 	Xml_print_typescope(Getattr(obj, k));
       } else if (!xmllite && Cmp(k, "typetab") == 0) {
 	Xml_print_typetab(Getattr(obj, k));
       } else if (Cmp(k, "kwargs") == 0) {
 	Xml_print_kwargs(Getattr(obj, k));
       } else if (Cmp(k, "parms") == 0 || Cmp(k, "pattern") == 0) {
 	Xml_print_parmlist(Getattr(obj, k));
       } else if (Cmp(k, "catchlist") == 0 || Cmp(k, "templateparms") == 0) {
 	Xml_print_parmlist(Getattr(obj, k), Char(k));
       } else {
 	DOH *o;
 	print_indent(0);
 	if (DohIsString(Getattr(obj, k))) {
 	  String *ck = NewString(k);
 	  o = Str(Getattr(obj, k));
 	  Replaceall(ck, ":", "_");
 	  Replaceall(ck, "<", "&lt;");
 	  /* Do first to avoid aliasing errors. */
 	  Replaceall(o, "&", "&amp;");
 	  Replaceall(o, "<", "&lt;");
 	  Replaceall(o, "\"", "&quot;");
 	  Replaceall(o, "\\", "\\\\");
 	  Replaceall(o, "\n", "&#10;");
 	  Printf(out, "<attribute name=\"%s\" value=\"%s\" id=\"%ld\" addr=\"%p\" />\n", ck, o, ++id, o);
 	  Delete(o);
 	  Delete(ck);
 	} else {
 	  o = Getattr(obj, k);
 	  String *ck = NewString(k);
 	  Replaceall(ck, ":", "_");
 	  Printf(out, "<attribute name=\"%s\" value=\"%p\" id=\"%ld\" addr=\"%p\" />\n", ck, o, ++id, o);
 	  Delete(ck);
 	}
       }
       ki = Next(ki);
     }
     indent_level -= 4;
     print_indent(0);
     Printf(out, "</attributelist >\n");
     indent_level -= 4;
   }

   void Xml_print_node(Node *obj) {
     Node *cobj;

     print_indent(0);
     Printf(out, "<%s id=\"%ld\" addr=\"%p\" >\n", nodeType(obj), ++id, obj);
     Xml_print_attributes(obj);
     cobj = firstChild(obj);
     if (cobj) {
       indent_level += 4;
       Printf(out, "\n");
       Xml_print_tree(cobj);
       indent_level -= 4;
     } else {
       print_indent(1);
       Printf(out, "\n");
     }
     print_indent(0);
     Printf(out, "</%s >\n", nodeType(obj));
   }


   void Xml_print_parmlist(ParmList *p, const char* markup = "parmlist") {

     print_indent(0);
     Printf(out, "<%s id=\"%ld\" addr=\"%p\" >\n", markup, ++id, p);
     indent_level += 4;
     while (p) {
       print_indent(0);
       Printf(out, "<parm id=\"%ld\">\n", ++id);
       Xml_print_attributes(p);
       print_indent(0);
       Printf(out, "</parm >\n");
       p = nextSibling(p);
     }
     indent_level -= 4;
     print_indent(0);
     Printf(out, "</%s >\n", markup);
   }

   void Xml_print_baselist(List *p) {

     print_indent(0);
     Printf(out, "<baselist id=\"%ld\" addr=\"%p\" >\n", ++id, p);
     indent_level += 4;
     Iterator s;
     for (s = First(p); s.item; s = Next(s)) {
       print_indent(0);
       String *item_name = Xml_escape_string(s.item);
       Printf(out, "<base name=\"%s\" id=\"%ld\" addr=\"%p\" />\n", item_name, ++id, s.item);
       Delete(item_name);
     }
     indent_level -= 4;
     print_indent(0);
     Printf(out, "</baselist >\n");
   }

   String *Xml_escape_string(String *str) {
     String *escaped_str = 0;
     if (str) {
       escaped_str = NewString(str);
       Replaceall(escaped_str, "&", "&amp;");
       Replaceall(escaped_str, "<", "&lt;");
       Replaceall(escaped_str, "\"", "&quot;");
       Replaceall(escaped_str, "\\", "\\\\");
       Replaceall(escaped_str, "\n", "&#10;");
     }
     return escaped_str;
   }

   void Xml_print_module(Node *p) {

     print_indent(0);
     Printf(out, "<attribute name=\"module\" value=\"%s\" id=\"%ld\" addr=\"%p\" />\n", Getattr(p, "name"), ++id, p);
   }

   void Xml_print_kwargs(Hash *p) {
     Xml_print_hash(p, "kwargs");
   }

   void Xml_print_typescope(Hash *p) {

     Xml_print_hash(p, "typescope");
   }

   void Xml_print_typetab(Hash *p) {

     Xml_print_hash(p, "typetab");
   }


   void Xml_print_hash(Hash *p, const char *markup) {

     print_indent(0);
     Printf(out, "<%s id=\"%ld\" addr=\"%p\" >\n", markup, ++id, p);
     Xml_print_attributes(p);
     indent_level += 4;
     Iterator n = First(p);
     while (n.key) {
       print_indent(0);
       Printf(out, "<%ssitem id=\"%ld\" addr=\"%p\" >\n", markup, ++id, n.item);
       Xml_print_attributes(n.item);
       print_indent(0);
       Printf(out, "</%ssitem >\n", markup);
       n = Next(n);
     }
     indent_level -= 4;
     print_indent(0);
     Printf(out, "</%s >\n", markup);
   }

 };

 /* -----------------------------------------------------------------------------
  * Swig_print_xml
  *
  * Dump an XML version of the parse tree.  This is different from using the -xml
  * language module normally as it allows the real language module to process the
  * tree first, possibly stuffing in new attributes, so the XML that is output ends
  * up being a post-processing version of the tree.
  * ----------------------------------------------------------------------------- */

 void Swig_print_xml(DOH *obj, String *filename) {
   XML xml;
   xmllite = 1;

   if (!filename) {
     out = stdout;
   } else {
     out = NewFile(filename, "w", SWIG_output_files());
     if (!out) {
       FileErrorDisplay(filename);
       SWIG_exit(EXIT_FAILURE);
     }
   }

   Printf(out, "<?xml version=\"1.0\" ?> \n");
   xml.Xml_print_tree(obj);
 }

 static Language *new_swig_xml() {
   return new XML();
 }
 extern "C" Language *swig_xml(void) {
   return new_swig_xml();
 }
	/* -----------------------------------------------------------------------------
	* 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.
	*
	* xml.cxx
	*
	* An Xml parse tree generator.
	* ----------------------------------------------------------------------------- */

	#include "swigmod.h"

	static const char *usage = "\
	XML Options (available with -xml)\n\
	-xmllang <lang> - Typedef language\n\
	-xmllite - More lightweight version of XML\n\
	------\n\
	deprecated (use -o): -xml <output.xml> - Use <output.xml> as output file (extension .xml mandatory)\n";

	static File *out = 0;
	static int xmllite = 0;


	class XML:public Language {
	public:

	int indent_level;
	long id;

	XML() :indent_level(0) , id(0) {
	}

	virtual ~ XML() {
	}

	virtual void main(int argc, char *argv[]) {
	SWIG_typemap_lang("xml");
	for (int iX = 0; iX < argc; iX++) {
	if (strcmp(argv[iX], "-xml") == 0) {
	char *extension = 0;
	if (iX + 1 >= argc)
	continue;
	extension = argv[iX + 1] + strlen(argv[iX + 1]) - 4;
	if (strcmp(extension, ".xml"))
	continue;
	iX++;
	Swig_mark_arg(iX);
	String *outfile = NewString(argv[iX]);
	out = NewFile(outfile, "w", SWIG_output_files());
	if (!out) {
	FileErrorDisplay(outfile);
	SWIG_exit(EXIT_FAILURE);
	}
	continue;
	}
	if (strcmp(argv[iX], "-xmllang") == 0) {
	Swig_mark_arg(iX);
	iX++;
	SWIG_typemap_lang(argv[iX]);
	Swig_mark_arg(iX);
	continue;
	}
	if (strcmp(argv[iX], "-help") == 0) {
	fputs(usage, stdout);
	}
	if (strcmp(argv[iX], "-xmllite") == 0) {
	Swig_mark_arg(iX);
	xmllite = 1;
	}
	}

	// Add a symbol to the parser for conditional compilation
	Preprocessor_define("SWIGXML 1", 0);
	}

	/* Top of the parse tree */

	virtual int top(Node *n) {
	if (out == 0) {
	String *outfile = Getattr(n, "outfile");
	String *ext = Swig_file_extension(outfile);
	// If there's an extension, ext will include the ".".
	Delslice(outfile, Len(outfile) - Len(ext), DOH_END);
	Delete(ext);
	Append(outfile, ".xml");
	out = NewFile(outfile, "w", SWIG_output_files());
	if (!out) {
	FileErrorDisplay(outfile);
	SWIG_exit(EXIT_FAILURE);
	}
	}
	Printf(out, "<?xml version=\"1.0\" ?> \n");
	Xml_print_tree(n);
	return SWIG_OK;
	}

	void print_indent(int l) {
	int i;
	for (i = 0; i < indent_level; i++) {
	Printf(out, " ");
	}
	if (l) {
	Printf(out, " ");
	}
	}

	void Xml_print_tree(DOH *obj) {
	while (obj) {
	Xml_print_node(obj);
	obj = nextSibling(obj);
	}
	}

	void Xml_print_attributes(Node *obj) {
	String *k;
	indent_level += 4;
	print_indent(0);
	Printf(out, "<attributelist id=\"%ld\" addr=\"%p\" >\n", ++id, obj);
	indent_level += 4;
	Iterator ki;
	ki = First(obj);
	while (ki.key) {
	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, "module") == 0) {
	Xml_print_module(Getattr(obj, k));
	} else if (Cmp(k, "baselist") == 0) {
	Xml_print_baselist(Getattr(obj, k));
	} else if (!xmllite && Cmp(k, "typescope") == 0) {
	Xml_print_typescope(Getattr(obj, k));
	} else if (!xmllite && Cmp(k, "typetab") == 0) {
	Xml_print_typetab(Getattr(obj, k));
	} else if (Cmp(k, "kwargs") == 0) {
	Xml_print_kwargs(Getattr(obj, k));
	} else if (Cmp(k, "parms") == 0 \|\| Cmp(k, "pattern") == 0) {
	Xml_print_parmlist(Getattr(obj, k));
	} else if (Cmp(k, "catchlist") == 0 \|\| Cmp(k, "templateparms") == 0) {
	Xml_print_parmlist(Getattr(obj, k), Char(k));
	} else {
	DOH *o;
	print_indent(0);
	if (DohIsString(Getattr(obj, k))) {
	String *ck = NewString(k);
	o = Str(Getattr(obj, k));
	Replaceall(ck, ":", "_");
	Replaceall(ck, "<", "<");
	/* Do first to avoid aliasing errors. */
	Replaceall(o, "&", "&");
	Replaceall(o, "<", "<");
	Replaceall(o, "\"", """);
	Replaceall(o, "\\", "\\\\");
	Replaceall(o, "\n", " ");
	Printf(out, "<attribute name=\"%s\" value=\"%s\" id=\"%ld\" addr=\"%p\" />\n", ck, o, ++id, o);
	Delete(o);
	Delete(ck);
	} else {
	o = Getattr(obj, k);
	String *ck = NewString(k);
	Replaceall(ck, ":", "_");
	Printf(out, "<attribute name=\"%s\" value=\"%p\" id=\"%ld\" addr=\"%p\" />\n", ck, o, ++id, o);
	Delete(ck);
	}
	}
	ki = Next(ki);
	}
	indent_level -= 4;
	print_indent(0);
	Printf(out, "</attributelist >\n");
	indent_level -= 4;
	}

	void Xml_print_node(Node *obj) {
	Node *cobj;

	print_indent(0);
	Printf(out, "<%s id=\"%ld\" addr=\"%p\" >\n", nodeType(obj), ++id, obj);
	Xml_print_attributes(obj);
	cobj = firstChild(obj);
	if (cobj) {
	indent_level += 4;
	Printf(out, "\n");
	Xml_print_tree(cobj);
	indent_level -= 4;
	} else {
	print_indent(1);
	Printf(out, "\n");
	}
	print_indent(0);
	Printf(out, "</%s >\n", nodeType(obj));
	}


	void Xml_print_parmlist(ParmList p, const char markup = "parmlist") {

	print_indent(0);
	Printf(out, "<%s id=\"%ld\" addr=\"%p\" >\n", markup, ++id, p);
	indent_level += 4;
	while (p) {
	print_indent(0);
	Printf(out, "<parm id=\"%ld\">\n", ++id);
	Xml_print_attributes(p);
	print_indent(0);
	Printf(out, "</parm >\n");
	p = nextSibling(p);
	}
	indent_level -= 4;
	print_indent(0);
	Printf(out, "</%s >\n", markup);
	}

	void Xml_print_baselist(List *p) {

	print_indent(0);
	Printf(out, "<baselist id=\"%ld\" addr=\"%p\" >\n", ++id, p);
	indent_level += 4;
	Iterator s;
	for (s = First(p); s.item; s = Next(s)) {
	print_indent(0);
	String *item_name = Xml_escape_string(s.item);
	Printf(out, "<base name=\"%s\" id=\"%ld\" addr=\"%p\" />\n", item_name, ++id, s.item);
	Delete(item_name);
	}
	indent_level -= 4;
	print_indent(0);
	Printf(out, "</baselist >\n");
	}

	String Xml_escape_string(String str) {
	String *escaped_str = 0;
	if (str) {
	escaped_str = NewString(str);
	Replaceall(escaped_str, "&", "&");
	Replaceall(escaped_str, "<", "<");
	Replaceall(escaped_str, "\"", """);
	Replaceall(escaped_str, "\\", "\\\\");
	Replaceall(escaped_str, "\n", " ");
	}
	return escaped_str;
	}

	void Xml_print_module(Node *p) {

	print_indent(0);
	Printf(out, "<attribute name=\"module\" value=\"%s\" id=\"%ld\" addr=\"%p\" />\n", Getattr(p, "name"), ++id, p);
	}

	void Xml_print_kwargs(Hash *p) {
	Xml_print_hash(p, "kwargs");
	}

	void Xml_print_typescope(Hash *p) {

	Xml_print_hash(p, "typescope");
	}

	void Xml_print_typetab(Hash *p) {

	Xml_print_hash(p, "typetab");
	}


	void Xml_print_hash(Hash p, const char markup) {

	print_indent(0);
	Printf(out, "<%s id=\"%ld\" addr=\"%p\" >\n", markup, ++id, p);
	Xml_print_attributes(p);
	indent_level += 4;
	Iterator n = First(p);
	while (n.key) {
	print_indent(0);
	Printf(out, "<%ssitem id=\"%ld\" addr=\"%p\" >\n", markup, ++id, n.item);
	Xml_print_attributes(n.item);
	print_indent(0);
	Printf(out, "</%ssitem >\n", markup);
	n = Next(n);
	}
	indent_level -= 4;
	print_indent(0);
	Printf(out, "</%s >\n", markup);
	}

	};

	/* -----------------------------------------------------------------------------
	* Swig_print_xml
	*
	* Dump an XML version of the parse tree. This is different from using the -xml
	* language module normally as it allows the real language module to process the
	* tree first, possibly stuffing in new attributes, so the XML that is output ends
	* up being a post-processing version of the tree.
	* ----------------------------------------------------------------------------- */

	void Swig_print_xml(DOH obj, String filename) {
	XML xml;
	xmllite = 1;

	if (!filename) {
	out = stdout;
	} else {
	out = NewFile(filename, "w", SWIG_output_files());
	if (!out) {
	FileErrorDisplay(filename);
	SWIG_exit(EXIT_FAILURE);
	}
	}

	Printf(out, "<?xml version=\"1.0\" ?> \n");
	xml.Xml_print_tree(obj);
	}

	static Language *new_swig_xml() {
	return new XML();
	}
	extern "C" Language *swig_xml(void) {
	return new_swig_xml();
	}