Esempio n. 1
0
void TagEditOrCloneAction::run() {
	shared_ptr<ZLDialog> dialog = ZLDialogManager::Instance().createDialog(ZLResourceKey(resourceKeyName()));

	TagList tags;
	BooksUtil::collectTagsFromLibrary(tags);
	std::vector<std::string> names;
	for (TagList::const_iterator it = tags.begin(); it != tags.end(); ++it) {
		if (!it->isNull()) {
			names.push_back((*it)->fullName());
		}
	}
	TagNameEntry *tagNameEntry = new TagNameEntry(names, myTag->fullName());
	dialog->addOption(ZLResourceKey("name"), tagNameEntry);

	TagIncludeSubtagsEntry *includeSubtagsEntry = new TagIncludeSubtagsEntry();
	const Library &library = Library::Instance();
	if (library.hasSubtags(myTag)) {
		if (!library.hasBooks(myTag)) {
			includeSubtagsEntry->setActive(false);
		}
		dialog->addOption(ZLResourceKey("includeSubtags"), includeSubtagsEntry);
	}

	dialog->addButton(ZLDialogManager::OK_BUTTON, true);
	dialog->addButton(ZLDialogManager::CANCEL_BUTTON, false);

	if (dialog->run()) {
		dialog->acceptValues();
		onAccept(tagNameEntry->initialValue(), includeSubtagsEntry->initialState());
	}
}
Esempio n. 2
0
 void FileTransfer::parseFileList( const TagList& files )
 {
   TagList::const_iterator it = files.begin();
   for( ; it != files.end(); ++it )
   {
     File f;
     Tag *t = (*it)->findChild( "name" );
     f.name = t ? t->cdata() : EmptyString;
     t = (*it)->findChild( "desc" );
     f.desc = t ? t->cdata() : EmptyString;
     t = (*it)->findChild( "date" );
     f.date = t ? t->cdata() : EmptyString;
     t = (*it)->findChild( "size" );
     f.size = t ? atoi( t->cdata().c_str() ) : -1;
     t = (*it)->findChild( "range" );
     if( t )
     {
       f.range = true;
       f.offset = t->hasAttribute( "offset" ) ? atoi( t->findAttribute( "offset" ).c_str() ) : -1;
     }
     t = (*it)->findChild( "hash", XMLNS, XMLNS_HASHES );
     if( t )
     {
       f.hash_algo = t->findAttribute( "algo" );
       f.hash = t->cdata();
     }
     m_files.push_back( f );
   }
 }
Esempio n. 3
0
void CDataIO::WriteTagList(const TagList& tagList)
{
	uint32 uCount = (uint32)tagList.size();
	ASSERT( uCount <= 0xFF );
	WriteByte((uint8)uCount);
	for (TagList::const_iterator itTagList = tagList.begin(); itTagList != tagList.end(); ++itTagList)
		WriteTag(*itTagList);
}
Esempio n. 4
0
void MovieClip::setupFrame(const TagList& tags, bool skipAction) {
    TagList::const_iterator it = tags.begin();
	while( it != tags.end() ) {
        ITag* tag = *it;
		tag->setup(*this, skipAction);
        ++it;
	}
}
Esempio n. 5
0
void CDataIO::writeTagList(const TagList& tagList)
{
	uint32 count = (uint32)tagList.size();
	ASSERT( count <= 0xFF );
	writeByte(count);
	TagList::const_iterator it;
	for (it = tagList.begin(); it != tagList.end(); it++)
		writeTag(*it);
}
Esempio n. 6
0
void BooksUtil::collectTagsFromLibrary(TagList &tags) {
	const TagList &lTags = Library::Instance().tags();
	TagSet tagSet;

	for (TagList::const_iterator it = lTags.begin(); it != lTags.end(); ++it) {
		shared_ptr<Tag> tag = *it;
		if (tag.isNull()) {
			tagSet.insert(tag);
			tags.push_back(tag);
		} else {
			TagList tagStack;
			do {
				tagStack.push_back(tag);
				tag = tag->parent();
			} while (!tag.isNull() && tagSet.find(tag) == tagSet.end());
			tagSet.insert(tagStack.begin(), tagStack.end());
			tags.insert(tags.end(), tagStack.rbegin(), tagStack.rend());
		}
	}
}
Esempio n. 7
0
int main( int /*argc*/, char** /*argv*/ )
{
  int fail = 0;
  std::string name;
  Tag *t = new Tag( "toe" ); t->addAttribute( "foo", "bar" );
  Tag *u = new Tag( t, "uni" ); u->addAttribute( "u3", "3u" );
  Tag *v = new Tag( t, "vie" ); v->addAttribute( "v3", "3v" );
  Tag *v2 = new Tag( t, "vie" ); v->addAttribute( "v32", "3v2" );
  Tag *w = new Tag( u, "who" ); w->addAttribute( "w3", "3w" );
  Tag *x = new Tag( v, "xep" ); x->addAttribute( "x3", "3x" );
  Tag *y = new Tag( u, "yps" ); y->addAttribute( "y3", "3y" );
  Tag *z = new Tag( w, "zoo" ); z->addAttribute( "z3", "3z" );
  Tag *c = 0;
  Tag *d = 0;

  // -------
  name = "simple ctor";
  if( t->name() != "toe" )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }

  // -------
  name = "cdata ctor";
  c = new Tag( "cod", "foobar" );
  if( c->name() != "cod" || c->cdata() != "foobar" )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete c;
  c = 0;

  //-------
  name = "clone test 1";
  c = z->clone();
  if( *z != *c )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete c;
  c = 0;

  //-------
  name = "clone test 2";
  c = t->clone();
  if( *t != *c )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete c;
  c = 0;

  //-------
  name = "operator== test 1";
  c = new Tag( "name" );
  if( *t == *c )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete c;
  c = 0;

  //-------
  name = "operator== test 2";
  c = new Tag( "test" );
  c->addAttribute( "me", "help" );
  c->addChild( new Tag( "yes" ) );
  if( *t == *c )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete c;
  c = 0;

  //-------
  name = "operator== test 3";
  c = new Tag( "hello" );
  c->addAttribute( "test", "bacd" );
  c->addChild( new Tag( "hello" ) );
  d = new Tag( "hello" );
  d->addAttribute( "test", "bacd" );
  d->addChild( new Tag( "helloo" ) );
  if( *d == *c )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete c;
  delete d;
  c = 0;
  d = 0;

  //-------
  name = "operator!= test 1";
  c = new Tag( "hello" );
  c->addAttribute( "test", "bacd" );
  c->addChild( new Tag( "hello" ) );
  d = new Tag( "hello" );
  d->addAttribute( "test", "bacd" );
  d->addChild( new Tag( "hello" ) );
  if( *d != *c )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete c;
  delete d;
  c = 0;
  d = 0;

  //-------
  name = "findChildren test";
  TagList l = t->findChildren( "vie" );
  TagList::const_iterator it = l.begin();
  if( l.size() != 2 || (*it) != v || *(++it) != v2 )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete c;
  c = 0;

  //-------
  name = "util::escape";
  if ( util::escape( "&<>'\"" ) != "&amp;&lt;&gt;&apos;&quot;" )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }

  //-------
  name = "xml() 1";
  if( t->xml() != "<toe foo='bar'><uni u3='3u'><who w3='3w'><zoo z3='3z'/></who><yps y3='3y'/>"
                    "</uni><vie v3='3v' v32='3v2'><xep x3='3x'/></vie><vie/></toe>" )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t->xml().c_str() );
  }

  //-------
  name = "xml() 2";
  t->addAttribute( "test", "bacd" );
  if( t->xml() != "<toe foo='bar' test='bacd'><uni u3='3u'><who w3='3w'><zoo z3='3z'/></who><yps y3='3y'/>"
                    "</uni><vie v3='3v' v32='3v2'><xep x3='3x'/></vie><vie/></toe>" )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t->xml().c_str() );
  }

  //-------
  name = "hasChild 1";
  if( !t->hasChild( "uni" ) || !t->hasChild( "vie" ) || !u->hasChild( "who" ) || !w->hasChild( "zoo" )
      || !u->hasChild( "yps" ) )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t->xml().c_str() );
  }

  //-------
  name = "hasAttribute 1";
  if( !t->hasAttribute( "test" ) || !t->hasAttribute( "test", "bacd" )
      || !t->hasAttribute( "foo" ) || !t->hasAttribute( "foo", "bar" ) )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t->xml().c_str() );
  }

  //-------
  name = "findAttribute 1";
  if( t->findAttribute( "test" ) != "bacd" || t->findAttribute( "foo" ) != "bar" )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t->xml().c_str() );
  }

  //-------
  name = "findChild 1";
  c = t->findChild( "uni" );
  if( c != u )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t->xml().c_str() );
  }

  //-------
  name = "findChild 2";
  c = t->findChild( "uni", "u3" );
  if( c != u )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t->xml().c_str() );
  }

  //-------
  name = "findChild 3";
  c = t->findChild( "uni", "u3", "3u" );
  if( c != u )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t->xml().c_str() );
  }

  //-------
  name = "findChildWithAttrib 1";
  c = t->findChildWithAttrib( "u3" );
  if( c != u )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t->xml().c_str() );
  }

  //-------
  name = "findChildWithAttrib 2";
  c = t->findChildWithAttrib( "u3", "3u" );
  if( c != u )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t->xml().c_str() );
  }

  //-------
  name = "attribute order";
  c = new Tag( "abc" );
  c->addAttribute( "abc", "def" );
  c->addAttribute( "xyz", "123" );
  d = c->clone();
  if( *c != *d )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), d->xml().c_str() );
  }
  delete c;
  c = 0;
  delete d;
  d = 0;

  //-------
  name = "mixed content 1";
  c = new Tag( "abc" );
  c->addCData( "cdata1" );
  new Tag( c, "fgh" );
  c->addCData( "cdata2" );
  new Tag( c, "xyz" );
  c->addCData( "cdata3" );
  if( c->xml() != "<abc>cdata1<fgh/>cdata2<xyz/>cdata3</abc>" )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), c->xml().c_str() );
  }
  delete c;
  c = 0;

  //-------
  name = "operator bool()";
  Tag tag1( "" );
  if( tag1 )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), tag1.xml().c_str() );
  }

  //-------
  name = "bool operator!()";
  Tag tag2( "abc" );
  if( !tag2 )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), d->xml().c_str() );
  }

  //-------
  {
    name = "simple xmlns";
    Tag t( "abc" );
    t.setXmlns( "foo" );
    if( t.xml() != "<abc xmlns='foo'/>" )
    {
      ++fail;
      fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t.xml().c_str() );
    }
  }

  //-------
  {
    name = "deep xmlns";
    Tag t( "abc" );
    Tag* f = new Tag( &t, "def" );
    f = new Tag( f, "ghi" );
    t.setXmlns( "foo" );
    if( t.xml() != "<abc xmlns='foo'><def><ghi/></def></abc>" )
    {
      ++fail;
      fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t.xml().c_str() );
    }
  }

  //-------
  {
    name = "simple nested xmlns 2";
    Tag t( "abc" );
    t.setXmlns( "foo" );
    Tag* d = new Tag( &t, "def" );
    d->setXmlns( "foobar", "xyz" );
    d->setPrefix( "xyz" );
    if( t.xml() != "<abc xmlns='foo'><xyz:def xmlns:xyz='foobar'/></abc>" )
    {
      ++fail;
      fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t.xml().c_str() );
    }
  }

  //-------
  {
    name = "attribute with xmlns";
    Tag t( "abc" );
    t.setXmlns( "foo", "xyz" );
    Tag::Attribute* a = new Tag::Attribute( "foo", "bar", "foo" );
    a->setPrefix( "xyz" );
    t.addAttribute( a );
    if( t.xml() != "<abc xmlns:xyz='foo' xyz:foo='bar'/>" )
    {
      ++fail;
      fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t.xml().c_str() );
    }
  }

  //-------
  {
    name = "escape attribute value";
    Tag t( "foo", "abc", "&amp;" );
    if( t.xml() != "<foo abc='&amp;amp;'/>" )
    {
      ++fail;
      fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t.xml().c_str() );
    }
  }

  //-------
  {
    name = "remove child 1";
    Tag t( "foo" );
    t.addChild( new Tag( "test", "xmlns", "foo" ) );
    t.addChild( new Tag( "abc", "xmlns", "foobar" ) );
    t.addAttribute( "attr1", "value1" );
    t.addAttribute( "attr2", "value2" );
    t.removeChild( "test" );
    if( t.hasChild( "test" ) )
    {
      ++fail;
      fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t.xml().c_str() );
    }

    name = "remove child 2";
    t.removeChild( "abc", "foobar" );
    if( t.hasChild( "abc", "xmlns", "foobar" ) )
    {
      ++fail;
      fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t.xml().c_str() );
    }

    name = "remove attrib 1";
    t.removeAttribute( "attr1" );
    if( t.hasAttribute( "attr1", "value1") )
    {
      ++fail;
      fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t.xml().c_str() );
    }

    name = "remove attrib 2";
    t.removeAttribute( "attr2", "value2" );
    if( t.hasAttribute( "attr2", "value2") )
    {
      ++fail;
      fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t.xml().c_str() );
    }
  }

  //-------
  {
    name = "invalid chars 1";
    Tag t( "foo" );
    bool check = t.addAttribute( "nul", std::string( 1, 0x00 ) );
    if( check || t.hasAttribute( "nul" ) )
    {
      ++fail;
      fprintf( stderr, "test '%s' failed:%s\n", name.c_str(), t.xml().c_str() );
    }
  }

  //-------
  {
    name = "invalid chars 2";
    for( int i = 0; i <= 0xff; ++i )
    {
      Tag::Attribute a( "test", std::string( 1, i ) );

      if( ( i < 0x09 || i == 0x0b || i == 0x0c
          || ( i > 0x0d && i < 0x20 ) || i == 0xc0
          || i == 0xc1 || i >= 0xf5 ) && a )
      {
        ++fail;
        fprintf( stderr, "test '%s' (branch 1) failed (i == %02X)\n", name.c_str(), i );
      }
      else if( ( i == 0x09 || i == 0x0a || i == 0x0d
                 || ( i >= 0x20 && i < 0xc0 )
                 || ( i > 0xc1 && i < 0xf5 ) ) && !a )
      {
        ++fail;
        fprintf( stderr, "test '%s' (branch 2) failed (i == %02X)\n", name.c_str(), i );
      }
//       printf( "i: 0x%02X, a: %d, value: %s\n", i, (bool)a, std::string( 1, i ).c_str() );
    }
  }




  delete t;
  t = 0;




















  if( fail == 0 )
  {
    printf( "Tag: OK\n" );
    return 0;
  }
  else
  {
    fprintf( stderr, "Tag: %d test(s) failed\n", fail );
    return 1;
  }

}
Esempio n. 8
0
int main( int /*argc*/, char** /*argv*/ )
{
  int fail = 0;
  std::string name;
  DataFormField *f;

  // -------
  name = "empty field";
  f = new DataFormField();
  if( f->type() != DataFormField::TypeTextSingle )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete f;
  f = 0;

  // -------
  name = "TypeBoolean field";
  f = new DataFormField( DataFormField::TypeBoolean );
  if( f->type() != DataFormField::TypeBoolean )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete f;
  f = 0;

  // -------
  name = "2nd ctor";
  f = new DataFormField( "fieldName", "fieldValue", "fieldLabel", DataFormField::TypeBoolean );
  if( f->type() != DataFormField::TypeBoolean || f->name() != "fieldName" ||
      f->value() != "fieldValue" || f->label() != "fieldLabel" )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete f;
  f = 0;

  // -------
  name = "parse 0";
  f = new DataFormField( 0 );
  if( f->type() != DataFormField::TypeInvalid )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete f;
  f = 0;
  Tag*t;

  // -------
  name = "set name";
  f = new DataFormField();
  f->setName( name );
  if( f->name() != name )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete f;
  f = 0;

  // -------
  name = "set required";
  f = new DataFormField();
  bool req = true;
  f->setRequired( req );
  if( f->required() != req )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete f;
  f = 0;

  // -------
  name = "set label";
  f = new DataFormField();
  f->setLabel( name );
  if( f->label() != name )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete f;
  f = 0;

  // -------
  name = "set value";
  f = new DataFormField();
  f->setValue( name );
  if( f->value() != name )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete f;
  f = 0;

  // -------
  name = "set values";
  f = new DataFormField();
  StringList val;
  val.push_back( "val 1" );
  val.push_back( "val 2" );
  val.push_back( "val 3" );
  f->setValues( val );
  if( f->values() != val )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete f;
  f = 0;

  // -------
  name = "set values";
  f = new DataFormField();
  StringMultiMap opt;
  opt.insert( std::make_pair( "lock", "1" ) );
  opt.insert( std::make_pair( "stock", "1" ) );
  opt.insert( std::make_pair( "smoking barrel", "2" ) );
  f->setOptions( opt );
  if( f->options() != opt )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
  }
  delete f;
  f = 0;

  // -------
  name = "parse Tag 1";
  t = new Tag( "field");
  t->addAttribute( "type", "fixed" );
  new Tag( t, "value", "abc" );
  f = new DataFormField( t );
  Tag *ft = f->tag();
  if( *ft != *t )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
    printf( "f->tag(): %s\n", f->tag()->xml().c_str() );
    printf( "       t: %s\n", t->xml().c_str() );
  }
  delete f;
  delete t;
  delete ft;
  f = 0;

  // -------
  t = new Tag( "field");
  t->addAttribute( "type", "list-multi" );
  t->addAttribute( "label", "blabla label" );
  t->addAttribute( "var", "features" );
  Tag *o = new Tag( t, "option" );
  o->addAttribute( "label", "lock" );
  new Tag( o, "value", "lock" );
  o = new Tag( t, "option" );
  o->addAttribute( "label", "stock" );
  new Tag( o, "value", "stock" );
  o = new Tag( t, "option" );
  o->addAttribute( "label", "smoking barrel" );
  new Tag( o, "value", "smoking barrel" );
  new Tag( t, "value", "lock" );
  new Tag( t, "value", "stock" );
  f = new DataFormField( t );
  Tag *r = f->tag();
  name = "parse Tag 2.1";
  if( r->name() != "field" || !r->hasAttribute( "type", "list-multi" ) )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
    printf( "f->tag(): %s\n", f->tag()->xml().c_str() );
    printf( "       t: %s\n", t->xml().c_str() );
  }

  name = "parse Tag 2.2";
  if( !r->hasAttribute( "label", "blabla label" ) || !r->hasAttribute( "var", "features" ) )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
    printf( "f->tag(): %s\n", f->tag()->xml().c_str() );
    printf( "       t: %s\n", t->xml().c_str() );
  }

  name = "parse Tag 2.3";
  if( !r->hasChild( "option" ) || !r->findChild( "option" )->hasAttribute( "label", "lock" ) )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
    printf( "f->tag(): %s\n", f->tag()->xml().c_str() );
    printf( "       t: %s\n", t->xml().c_str() );
  }

  name = "parse Tag 2.4";
  if( !r->hasChild( "option", "label", "stock" ) )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
    printf( "f->tag(): %s\n", f->tag()->xml().c_str() );
    printf( "       t: %s\n", t->xml().c_str() );
  }

  name = "parse Tag 2.5";
  if( !r->hasChild( "option", "label", "smoking barrel" ) )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
    printf( "f->tag(): %s\n", f->tag()->xml().c_str() );
    printf( "       t: %s\n", t->xml().c_str() );
  }

  name = "parse Tag 2.6";
  if( !r->findChild( "option" )->findChild( "value" ) )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
    printf( "f->tag(): %s\n", f->tag()->xml().c_str() );
    printf( "       t: %s\n", t->xml().c_str() );
  }

  name = "parse Tag 2.7";
  if( r->findChild( "option" )->findChild( "value" )->cdata() != "lock" )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
    printf( "f->tag(): %s\n", f->tag()->xml().c_str() );
    printf( "       t: %s\n", t->xml().c_str() );
  }

  name = "parse Tag 2.8";
  TagList l = r->children();
  TagList::const_iterator it = l.begin();
  for( ; it != l.end(); ++it )
  {
    if( (*it)->name() == "option" && ( !(*it)->hasChildWithCData( "value", "lock" ) &&
          !(*it)->hasChildWithCData( "value", "stock" ) &&
          !(*it)->hasChildWithCData( "value", "smoking barrel" ) ) )
    {
      ++fail;
      fprintf( stderr, "test '%s' failed\n", name.c_str() );
      printf( "f->tag(): %s\n", f->tag()->xml().c_str() );
      printf( "       t: %s\n", t->xml().c_str() );
    }
  }

  name = "parse Tag 2.9";
  if( !r->hasChildWithCData( "value", "lock" ) || !r->hasChildWithCData( "value", "stock" ) )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed\n", name.c_str() );
    printf( "f->tag(): %s\n", f->tag()->xml().c_str() );
    printf( "       t: %s\n", t->xml().c_str() );
  }
  delete f;
  delete t;
  delete r;
  f = 0;



  // -------
  name = "boolean duplicate <value/>";
  f = new DataFormField( DataFormField::TypeBoolean );
  f->setName( "name" );
  f->setValue( "1" );
  f->setLabel( "label" );
  t = f->tag();
  if( t->children().size() != 1 || t->xml() != "<field type='boolean' var='name' "
                                               "label='label'><value>1</value></field>" )
  {
    ++fail;
    fprintf( stderr, "test '%s' failed: %s\n", name.c_str(), t->xml().c_str() );
  }
  delete f;
  delete t;
  f = 0;
  t = 0;









  if( fail == 0 )
  {
    printf( "DataFormField: OK\n" );
    return 0;
  }
  else
  {
    fprintf( stderr, "DataFormField: %d test(s) failed\n", fail );
    return 1;
  }

}
Esempio n. 9
0
void Tag::collectAncestors(shared_ptr<Tag> tag, TagList &parents) {
	for (; !tag.isNull(); tag = tag->parent()) {
		parents.push_back(tag);
	}
	std::reverse(parents.begin(), parents.end());
}
Esempio n. 10
0
bool MovieClip::createFrames( Reader& reader, SWF& swf, MovieFrames &data )
{
	RECT empty = {FLT_MAX,FLT_MAX,-FLT_MAX,-FLT_MAX};
	data._rectangle = empty;
	sbCalculateRectangle = true;

	// get all tags and build frame lists
    TagHeader header;
	ITag* tag = NULL;
	TagList* frame_tags = new TagList;
	TagList actionTags;
	do {
		header.read( reader );
        const uint32_t code = header.code();
		SWF::TagFactoryFunc factory = SWF::getTagFactory( code );
		if (! factory ) {
			// no registered factory so skip this tag
			SWF_TRACE("*** SKIP *** ");
			header.print();
			reader.skip( header.length() );
			continue;
		}
		tag = factory( header );
		SWF_ASSERT(tag);

		int32_t end_pos = reader.getCurrentPos() + tag->length();
		bool keepTag = tag->read( reader, swf, data );
		tag->print();
		reader.align();

		int32_t dif = end_pos - reader.getCurrentPos();
		if( dif != 0 ) {
			SWF_TRACE("WARNING: tag not read correctly. trying to skip.\n");
			reader.skip( dif );
		}

        if (keepTag) {
			// collect action tags
			if (tag->code() == TAG_DO_ACTION) {
				actionTags.push_back(tag);
			} else {
				frame_tags->push_back( tag );
			}
        } else {
            delete tag;
        }

        // create a new frame
        if ( TAG_SHOW_FRAME == code ) {
			SWF_TRACE("[%d] has %d tags\n", data._frames.size(), frame_tags->size());

			// put action tags at the end of list in order to avoid callback error
			TagList::iterator it = actionTags.begin();
			while (it != actionTags.end()) {
				frame_tags->push_back( *it );
				++it;
			}
			actionTags.clear();

			data._frames.push_back( frame_tags );
			frame_tags = new TagList;
			sbCalculateRectangle = false;
        }
	} while( header.code() != TAG_END );
	delete frame_tags;
    return true;
}