/// <summary> Reads the dmdSec at the current position in the XmlTextReader and associates it with the
/// entire package </summary>
/// <param name="Input_XmlReader"> Open XmlReader from which to read the metadata </param>
/// <param name="Return_Package"> Package into which to read the metadata</param>
/// <param name="Options"> Dictionary of any options which this METS section reader may utilize</param>
/// <returns> TRUE if successful, otherwise FALSE</returns>
public bool Read_dmdSec(XmlReader Input_XmlReader, SobekCM_Item Return_Package, Dictionary<string, object> Options)
{
// Ensure this metadata module extension exists
LearningObjectMetadata lomInfo = Return_Package.Get_Metadata_Module(GlobalVar.IEEE_LOM_METADATA_MODULE_KEY) as LearningObjectMetadata;
if (lomInfo == null)
{
lomInfo = new LearningObjectMetadata();
Return_Package.Add_Metadata_Module(GlobalVar.IEEE_LOM_METADATA_MODULE_KEY, lomInfo);
}
// Loop through reading each XML node
do
{
// If this is the end of this section, return
if ((Input_XmlReader.NodeType == XmlNodeType.EndElement) && ((Input_XmlReader.Name == "METS:mdWrap") || (Input_XmlReader.Name == "mdWrap")))
return true;
// get the right division information based on node type
if (Input_XmlReader.NodeType == XmlNodeType.Element)
{
string name = Input_XmlReader.Name.ToLower();
if (( lom_namespace.Length > 0 ) && ( name.IndexOf( lom_namespace ) == 0))
name = name.Substring(lom_namespace.Length);
switch (name)
{
case "general":
read_general(Input_XmlReader.ReadSubtree(), lomInfo);
break;
case "lifecycle":
read_lifecycle(Input_XmlReader.ReadSubtree(), lomInfo);
break;
case "technical":
read_technical(Input_XmlReader.ReadSubtree(), lomInfo);
break;
case "educational":
read_educational(Input_XmlReader.ReadSubtree(), lomInfo);
break;
case "classification":
read_classification(Input_XmlReader.ReadSubtree(), lomInfo);
break;
}
}
} while (Input_XmlReader.Read());
return true;
}
/// <summary> Saves the data rendered by this element to the provided bibliographic object during postback </summary>
/// <param name="Bib"> Object into which to save the user's data, entered into the html rendered by this element </param>
public override void Save_To_Bib(SobekCM_Item Bib)
{
// Try to get any existing learning object metadata module
LearningObjectMetadata lomInfo = Bib.Get_Metadata_Module(GlobalVar.IEEE_LOM_METADATA_MODULE_KEY) as LearningObjectMetadata;
string[] getKeys = HttpContext.Current.Request.Form.AllKeys;
foreach (string thisKey in getKeys.Where(thisKey => thisKey.IndexOf(html_element_name.Replace("_", "")) == 0))
{
// Get the value from the form element
string value = HttpContext.Current.Request.Form[thisKey].Trim();
if (value.Length > 0)
{
// There is a value, so ensure learning object metadata does exist
if (lomInfo == null)
{
lomInfo = new LearningObjectMetadata();
Bib.Add_Metadata_Module(GlobalVar.IEEE_LOM_METADATA_MODULE_KEY, lomInfo);
}
// Add the value
lomInfo.Add_LearningResourceType(value);
}
}
}
/// <summary> Saves the data rendered by this element to the provided bibliographic object during postback </summary>
/// <param name="Bib"> Object into which to save the user's data, entered into the html rendered by this element </param>
public override void Save_To_Bib(SobekCM_Item Bib)
{
string[] getKeys = HttpContext.Current.Request.Form.AllKeys;
foreach (string thisKey in getKeys)
{
if (thisKey.IndexOf(html_element_name.Replace("_","")) == 0)
{
// Get the value from the combo box
string value = HttpContext.Current.Request.Form[thisKey].Trim();
// Try to get any existing learning object metadata module
LearningObjectMetadata lomInfo = Bib.Get_Metadata_Module(GlobalVar.IEEE_LOM_METADATA_MODULE_KEY) as LearningObjectMetadata;
if (value.Length == 0)
{
// I fhte learning object metadata does exist, set it to undefined
if ( lomInfo != null )
lomInfo.InteractivityType = InteractivityTypeEnum.UNDEFINED;
}
else
{
// There is a value, so ensure learning object metadata does exist
if (lomInfo == null)
{
lomInfo = new LearningObjectMetadata();
Bib.Add_Metadata_Module(GlobalVar.IEEE_LOM_METADATA_MODULE_KEY, lomInfo);
}
// Save the new value
switch ( value )
{
case level1_text:
lomInfo.InteractivityType = InteractivityTypeEnum.active;
break;
case level2_text:
lomInfo.InteractivityType = InteractivityTypeEnum.expositive;
break;
case level3_text:
lomInfo.InteractivityType = InteractivityTypeEnum.mixed;
break;
}
}
return;
}
}
}
/// <summary> Create a test digital resource item </summary>
/// <param name="directory">Directory for the package source directory</param>
/// <returns>Fully built test bib package</returns>
public static SobekCM_Item Create(string directory)
{
SobekCM_Item testPackage = new SobekCM_Item();
// Add all the METS header information
testPackage.METS_Header.Create_Date = new DateTime(2007, 1, 1);
testPackage.METS_Header.Modify_Date = DateTime.Now;
testPackage.METS_Header.Creator_Individual = "Mark Sullivan";
testPackage.METS_Header.Add_Creator_Individual_Notes("Programmer of new SobekCM.Resource_Object");
testPackage.METS_Header.Add_Creator_Individual_Notes("Adding coordinates");
testPackage.METS_Header.Creator_Organization = "University of Florida";
testPackage.METS_Header.Creator_Software = "SobekCM Bib Package Test";
testPackage.METS_Header.RecordStatus_Enum = METS_Record_Status.COMPLETE;
testPackage.METS_Header.Add_Creator_Org_Notes("This test package was done to test DLCs new METS package");
// Add all the MODS elements
Abstract_Info testAbstract = testPackage.Bib_Info.Add_Abstract("This is a sample abstract", "en");
testPackage.Bib_Info.Add_Abstract("Tämä on esimerkki abstrakteja", "fin");
testAbstract.Display_Label = "Summary Abstract";
testAbstract.Type = "summary";
testPackage.Bib_Info.Access_Condition.Text = "All rights are reserved by source institution.";
testPackage.Bib_Info.Access_Condition.Language = "en";
testPackage.Bib_Info.Access_Condition.Type = "restrictions on use";
testPackage.Bib_Info.Access_Condition.Display_Label = "Rights";
testPackage.Bib_Info.Add_Identifier("000123234", "OCLC", "Electronic OCLC");
testPackage.Bib_Info.Add_Identifier("182-asdsd-28k", "DOI");
testPackage.Bib_Info.Add_Language("English", String.Empty, "en");
testPackage.Bib_Info.Add_Language("Finnish");
testPackage.Bib_Info.Add_Language(String.Empty, "ita", String.Empty);
testPackage.Bib_Info.Location.Holding_Code = "MVS";
testPackage.Bib_Info.Location.Holding_Name = "From the Private Library of Mark Sullivan";
testPackage.Bib_Info.Location.PURL = "http://www.uflib.ufl.edu/ufdc/?b=CA00000000";
testPackage.Bib_Info.Location.Other_URL = "http://www.fnhm.edu";
testPackage.Bib_Info.Location.Other_URL_Display_Label = "Specimen Information";
testPackage.Bib_Info.Location.Other_URL_Note = "Specimen FLAS 125342 Database";
testPackage.Bib_Info.Location.EAD_URL = "http://digital.uflib.ufl.edu/";
testPackage.Bib_Info.Location.EAD_Name = "Digital Library Center Finding Guide";
testPackage.Bib_Info.Main_Entity_Name.Name_Type = Name_Info_Type_Enum.Personal;
testPackage.Bib_Info.Main_Entity_Name.Full_Name = "Brown, B.F.";
testPackage.Bib_Info.Main_Entity_Name.Terms_Of_Address = "Dr.";
testPackage.Bib_Info.Main_Entity_Name.Display_Form = "B.F. Brown";
testPackage.Bib_Info.Main_Entity_Name.Affiliation = "Chemistry Dept., American University";
testPackage.Bib_Info.Main_Entity_Name.Description = "Chemistry Professor Emeritus";
testPackage.Bib_Info.Main_Entity_Name.Add_Role("Author");
Zoological_Taxonomy_Info taxonInfo = new Zoological_Taxonomy_Info();
testPackage.Add_Metadata_Module(GlobalVar.ZOOLOGICAL_TAXONOMY_METADATA_MODULE_KEY, taxonInfo);
taxonInfo.Scientific_Name = "Ctenomys sociabilis";
taxonInfo.Higher_Classification = "Animalia; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Hystricognatha; Hystricognathi; Ctenomyidae; Ctenomyini; Ctenomys";
taxonInfo.Kingdom = "Animalia";
taxonInfo.Phylum = "Chordata";
taxonInfo.Class = "Mammalia";
taxonInfo.Order = "Rodentia";
taxonInfo.Family = "Ctenomyidae";
taxonInfo.Genus = "Ctenomys";
taxonInfo.Specific_Epithet = "sociabilis";
taxonInfo.Taxonomic_Rank = "species";
taxonInfo.Common_Name = "Social Tuco-Tuco";
Name_Info name1 = new Name_Info();
name1.Name_Type = Name_Info_Type_Enum.Personal;
name1.Given_Name = "John Paul";
name1.Terms_Of_Address = "Pope; II";
name1.Dates = "1920-2002";
name1.User_Submitted = true;
testPackage.Bib_Info.Add_Named_Entity(name1);
Name_Info name2 = new Name_Info();
name2.Name_Type = Name_Info_Type_Enum.Conference;
name2.Full_Name = "Paris Peace Conference (1919-1920)";
name2.Dates = "1919-1920";
testPackage.Bib_Info.Add_Named_Entity(name2);
Name_Info name3 = new Name_Info();
name3.Name_Type = Name_Info_Type_Enum.Corporate;
name3.Full_Name = "United States -- Court of Appeals (2nd Court)";
testPackage.Bib_Info.Add_Named_Entity(name3);
Name_Info name4 = new Name_Info();
name4.Name_Type = Name_Info_Type_Enum.Personal;
name4.Full_Name = "Wilson, Mary";
name4.Display_Form = "Mary 'Weels' Wilson";
name4.Given_Name = "Mary";
name4.Family_Name = "Wilson";
name4.ID = "NAM4";
name4.Terms_Of_Address = "2nd";
name4.Add_Role("illustrator");
name4.Add_Role("cartographer");
testPackage.Bib_Info.Add_Named_Entity(name4);
Name_Info donor = new Name_Info();
donor.Name_Type = Name_Info_Type_Enum.Personal;
donor.Full_Name = "Livingston, Arthur";
donor.Description = "Gift in honor of Arthur Livingston";
donor.Terms_Of_Address = "3rd";
donor.Add_Role("honoree", String.Empty);
testPackage.Bib_Info.Donor = donor;
testPackage.Bib_Info.Main_Title.NonSort = "The ";
testPackage.Bib_Info.Main_Title.Title = "Man Who Would Be King";
testPackage.Bib_Info.Main_Title.Subtitle = "The story of succession in England";
Title_Info title1 = new Title_Info("homme qui voulut être roi", Title_Type_Enum.Translated);
title1.NonSort = "L'";
title1.Language = "fr";
testPackage.Bib_Info.Add_Other_Title(title1);
Title_Info title2 = new Title_Info();
title2.Title = "Man Who Be King";
title2.Display_Label = "also known as";
title2.NonSort = "The";
title2.Title_Type = Title_Type_Enum.Alternative;
testPackage.Bib_Info.Add_Other_Title(title2);
Title_Info title3 = new Title_Info();
title3.Title = "Great works of England";
title3.Authority = "naf";
title3.Add_Part_Name("Second Portion");
title3.Add_Part_Number("2nd");
title3.Title_Type = Title_Type_Enum.Uniform;
title3.User_Submitted = true;
testPackage.Bib_Info.Add_Other_Title(title3);
testPackage.Bib_Info.Add_Note("Funded by the NEH", Note_Type_Enum.Funding);
testPackage.Bib_Info.Add_Note("Based on a play which originally appeared in France as \"Un peu plus tard, un peu plus tôt\"").User_Submitted = true;
testPackage.Bib_Info.Add_Note("Anne Baxter (Louise), Maria Perschy (Angela), Gustavo Rojo (Bill), Reginald Gilliam (Mr. Johnson), [Catherine Elliot?] (Aunt Sallie), Ben Tatar (waiter)", Note_Type_Enum.Performers, "Performed By");
testPackage.Bib_Info.Origin_Info.Add_Place("New York", "nyu", "usa");
testPackage.Bib_Info.Origin_Info.Date_Issued = "1992";
testPackage.Bib_Info.Origin_Info.MARC_DateIssued_Start = "1992";
testPackage.Bib_Info.Origin_Info.MARC_DateIssued_End = "1993";
testPackage.Bib_Info.Origin_Info.Date_Copyrighted = "1999";
testPackage.Bib_Info.Origin_Info.Edition = "2nd";
Publisher_Info newPub = testPackage.Bib_Info.Add_Publisher("Published for the American Vacuum Society by the American Institute of Physics");
newPub.Add_Place("New York, New York");
newPub.User_Submitted = true;
testPackage.Bib_Info.Add_Publisher("University of Florida Press House").Add_Place("Gainesville, FL");
testPackage.Bib_Info.Add_Manufacturer("Addison Randly Publishing House");
testPackage.Bib_Info.Original_Description.Extent = "1 sound disc (56 min.) : digital ; 3/4 in.";
testPackage.Bib_Info.Original_Description.Add_Note("The sleeve of this sound disc was damaged in a fire");
testPackage.Bib_Info.Original_Description.Add_Note("The disc has a moderate amount of scratches, but still plays");
testPackage.Bib_Info.Series_Part_Info.Day = "18";
testPackage.Bib_Info.Series_Part_Info.Day_Index = 18;
testPackage.Bib_Info.Series_Part_Info.Month = "Syyskuu";
testPackage.Bib_Info.Series_Part_Info.Month_Index = 9;
testPackage.Bib_Info.Series_Part_Info.Year = "1992";
testPackage.Bib_Info.Series_Part_Info.Year_Index = 1992;
testPackage.Bib_Info.Series_Part_Info.Enum1 = "Volume 12";
testPackage.Bib_Info.Series_Part_Info.Enum1_Index = 12;
testPackage.Bib_Info.Series_Part_Info.Enum2 = "Issue 3";
testPackage.Bib_Info.Series_Part_Info.Enum2_Index = 3;
testPackage.Bib_Info.Series_Part_Info.Enum3 = "Part 1";
testPackage.Bib_Info.Series_Part_Info.Enum3_Index = 1;
testPackage.Behaviors.Serial_Info.Add_Hierarchy(1, 1992, "1992");
testPackage.Behaviors.Serial_Info.Add_Hierarchy(2, 9, "Syyskuu");
testPackage.Behaviors.Serial_Info.Add_Hierarchy(3, 18, "18");
testPackage.Bib_Info.SeriesTitle.Title = "Shakespeare's most famous musicals";
testPackage.Bib_Info.Add_Target_Audience("young adults");
testPackage.Bib_Info.Add_Target_Audience("adolescent", "marctarget");
testPackage.Bib_Info.SobekCM_Type = TypeOfResource_SobekCM_Enum.Newspaper;
// Add cartographic subject
Subject_Info_Cartographics newCartographics = testPackage.Bib_Info.Add_Cartographics_Subject();
newCartographics.Scale = "1:2000";
newCartographics.Projection = "Conical Projection";
newCartographics.Coordinates = "E 72°--E 148°/N 13°--N 18°";
// Add hierarchical geographic subject
Subject_Info_HierarchicalGeographic hierarchical = testPackage.Bib_Info.Add_Hierarchical_Geographic_Subject();
hierarchical.Continent = "North America";
hierarchical.Country = "United States of America";
hierarchical.State = "Kansas";
hierarchical.County = "Butler";
hierarchical.City = "Augusta";
// Add hierarchical geographic subject
Subject_Info_HierarchicalGeographic hierarchical2 = testPackage.Bib_Info.Add_Hierarchical_Geographic_Subject();
hierarchical2.Region = "Arctic Ocean";
// Add hierarchical geographic subject
Subject_Info_HierarchicalGeographic hierarchical3 = testPackage.Bib_Info.Add_Hierarchical_Geographic_Subject();
hierarchical3.Island = "Puerto Rico";
hierarchical3.Language = "English";
hierarchical3.Province = "Provincial";
hierarchical3.Territory = "Puerto Rico";
hierarchical3.Area = "Intercontinental areas (Western Hemisphere)";
// Add a name subject
Subject_Info_Name subjname1 = testPackage.Bib_Info.Add_Name_Subject();
subjname1.Authority = "lcsh";
subjname1.Full_Name = "Garcia Lorca, Federico";
subjname1.Dates = "1898-1936";
subjname1.Add_Geographic("Russia");
subjname1.Add_Geographic("Moscow");
subjname1.Add_Genre("maps");
subjname1.User_Submitted = true;
// Add a title information subject
Subject_Info_TitleInfo subjtitle1 = testPackage.Bib_Info.Add_Title_Subject();
subjtitle1.Title_Type = Title_Type_Enum.Uniform;
subjtitle1.Authority = "naf";
subjtitle1.Title = "Missale Carnotense";
// Add a standard subject
Subject_Info_Standard subject1 = testPackage.Bib_Info.Add_Subject();
subject1.Authority = "lcsh";
subject1.Add_Topic("Real property");
subject1.Add_Geographic("Mississippi");
subject1.Add_Geographic("Tippah County");
subject1.Add_Genre("Maps");
// Add a standard subject
Subject_Info_Standard subject2 = testPackage.Bib_Info.Add_Subject();
subject2.Add_Occupation("Migrant laborers");
subject2.Add_Genre("School district case files");
// Add a standard subject
Subject_Info_Standard subject3 = testPackage.Bib_Info.Add_Subject();
subject3.Authority = "lctgm";
subject3.Add_Topic("Educational buildings");
subject3.Add_Geographic("Washington (D.C.)");
subject3.Add_Temporal("1890-1910");
// Add a standard subject
Subject_Info_Standard subject4 = testPackage.Bib_Info.Add_Subject();
subject4.Authority = "rvm";
subject4.Language = "french";
subject4.Add_Topic("Église catholique");
subject4.Add_Topic("Histoire");
subject4.Add_Temporal("20e siècle");
// Add record information
testPackage.Bib_Info.Record.Add_Catalog_Language(new Language_Info("English", "eng", "en"));
testPackage.Bib_Info.Record.Add_Catalog_Language(new Language_Info("French", "fre", "fr"));
testPackage.Bib_Info.Record.MARC_Creation_Date = "080303";
testPackage.Bib_Info.Record.Add_MARC_Record_Content_Sources("FUG");
testPackage.Bib_Info.Record.Record_Origin = "Imported from (OCLC)001213124";
// Test the items which are in the non-MODS portion of the Bib_Info object
testPackage.BibID = "MVS0000001";
testPackage.VID = "00001";
testPackage.Bib_Info.SortDate = 1234;
testPackage.Bib_Info.SortTitle = "MAN WHO WOULD BE KING";
testPackage.Bib_Info.Add_Temporal_Subject(1990, 2002, "Recent history");
testPackage.Bib_Info.Add_Temporal_Subject(1990, 2002, "Lähihistoria");
testPackage.Bib_Info.Source.Code = "UF";
testPackage.Bib_Info.Source.Statement = "University of Florida";
// Add an affiliation
Affiliation_Info affiliation1 = new Affiliation_Info();
affiliation1.University = "University of Florida";
affiliation1.Campus = "Gainesville Campus";
affiliation1.College = "College of Engineering";
affiliation1.Department = "Computer Engineering Department";
affiliation1.Unit = "Robotics";
affiliation1.Name_Reference = "NAM4";
testPackage.Bib_Info.Add_Affiliation(affiliation1);
// Add a related item
Related_Item_Info relatedItem1 = new Related_Item_Info();
relatedItem1.SobekCM_ID = "UF00001234";
relatedItem1.Relationship = Related_Item_Type_Enum.Preceding;
relatedItem1.Publisher = "Gainesville Sun Publishing House";
relatedItem1.Add_Note(new Note_Info("Digitized with funding from NEH", Note_Type_Enum.Funding));
relatedItem1.Add_Note(new Note_Info("Gainesville Bee was the precursor to this item"));
relatedItem1.Main_Title.NonSort = "The";
relatedItem1.Main_Title.Title = "Gainesville Bee";
relatedItem1.Add_Identifier("01234353", "oclc");
relatedItem1.Add_Identifier("002232311", "aleph");
Name_Info ri_name = new Name_Info();
ri_name.Full_Name = "Hills, Bryan";
ri_name.Terms_Of_Address = "Mr.";
ri_name.Name_Type = Name_Info_Type_Enum.Personal;
ri_name.Add_Role("author");
relatedItem1.Add_Name(ri_name);
relatedItem1.URL = @"http://www.uflib.ufl.edu/ufdc/?b=UF00001234";
relatedItem1.URL_Display_Label = "Full Text";
testPackage.Bib_Info.Add_Related_Item(relatedItem1);
// Add another related item
Related_Item_Info relatedItem2 = new Related_Item_Info();
relatedItem2.Relationship = Related_Item_Type_Enum.Succeeding;
relatedItem2.SobekCM_ID = "UF00009999";
relatedItem2.Main_Title.NonSort = "The";
relatedItem2.Main_Title.Title = "Daily Sun";
relatedItem2.Add_Identifier("0125437", "oclc");
relatedItem2.Add_Note("Name change occured in Fall 1933");
relatedItem2.Start_Date = "Fall 1933";
relatedItem2.End_Date = "December 31, 1945";
testPackage.Bib_Info.Add_Related_Item(relatedItem2);
// Add some processing parameters
testPackage.Behaviors.Add_Aggregation("JUV");
testPackage.Behaviors.Add_Aggregation("DLOC");
testPackage.Behaviors.Add_Aggregation("DLOSA1");
testPackage.Behaviors.Add_Aggregation("ALICE");
testPackage.Behaviors.Add_Aggregation("ARTE");
testPackage.Web.GUID = "GUID!";
testPackage.Behaviors.Add_Wordmark("DLOC");
testPackage.Behaviors.Add_Wordmark("UFSPEC");
testPackage.Behaviors.Main_Thumbnail = "00001thm.jpg";
// Add some downloads
testPackage.Divisions.Download_Tree.Add_File("MVS_Complete.PDF");
testPackage.Divisions.Download_Tree.Add_File("MVS_Complete.MP2");
testPackage.Divisions.Download_Tree.Add_File("MVS_Part1.MP2");
testPackage.Divisions.Download_Tree.Add_File("MVS_Part1.PDF");
// Add some coordinate information
GeoSpatial_Information geoSpatial = new GeoSpatial_Information();
testPackage.Add_Metadata_Module(GlobalVar.GEOSPATIAL_METADATA_MODULE_KEY, geoSpatial);
geoSpatial.Add_Point(29.530151, -82.301459, "Lake Wauberg");
geoSpatial.Add_Point(29.634352, -82.350640, "Veterinary School");
Coordinate_Polygon polygon = new Coordinate_Polygon();
polygon.Label = "University of Florida Campus";
polygon.Add_Edge_Point(new Coordinate_Point(29.651435, -82.339869, String.Empty));
polygon.Add_Edge_Point(new Coordinate_Point(29.641216, -82.340298, String.Empty));
polygon.Add_Edge_Point(new Coordinate_Point(29.629503, -82.371969, String.Empty));
polygon.Add_Edge_Point(new Coordinate_Point(29.649645, -82.371712, String.Empty));
polygon.Add_Inner_Point(29.649794, -82.351971, "Stadium");
polygon.Add_Inner_Point(29.650988, -82.341156, "Library");
geoSpatial.Add_Polygon(polygon);
Coordinate_Line line = new Coordinate_Line();
line.Label = "Waldo Road";
line.Add_Point(29.652852, -82.310944, "Gainesville");
line.Add_Point(29.716681, -82.268372, String.Empty);
line.Add_Point(29.791494, -82.167778, "Waldo");
geoSpatial.Add_Line(line);
// Add some performing arts information
Performing_Arts_Info partInfo = new Performing_Arts_Info();
testPackage.Add_Metadata_Module("PerformingArts", partInfo);
partInfo.Performance = "Hamlet";
partInfo.Performance_Date = "August 12, 1923";
Performer performer1 = partInfo.Add_Performer("Sullivan, Mark");
performer1.Sex = "M";
performer1.LifeSpan = "1873-";
performer1.Occupation = "actor";
performer1.Title = "Mr.";
Performer performer2 = partInfo.Add_Performer("Waldbart, Julia");
performer2.Sex = "F";
performer2.LifeSpan = "1876-";
performer2.Occupation = "actress";
performer2.Title = "Mrs.";
// Add some oral history information
Oral_Interview_Info oralInfo = new Oral_Interview_Info();
testPackage.Add_Metadata_Module( "OralInterview", oralInfo);
oralInfo.Interviewee = "Edwards, Herm";
oralInfo.Interviewer = "Proctor, Samual";
// Add some learning object resource information
LearningObjectMetadata lomInfo = new LearningObjectMetadata();
testPackage.Add_Metadata_Module( GlobalVar.IEEE_LOM_METADATA_MODULE_KEY, lomInfo );
lomInfo.AggregationLevel = AggregationLevelEnum.level3;
lomInfo.Status = StatusEnum.draft;
LOM_System_Requirements lomReq1 = new LOM_System_Requirements();
lomReq1.RequirementType = RequirementTypeEnum.operating_system;
lomReq1.Name.Value = "Windows";
lomReq1.MinimumVersion = "Windows XP";
lomReq1.MaximumVersion = "Windows 7";
lomInfo.Add_SystemRequirements(lomReq1);
LOM_System_Requirements lomReq2 = new LOM_System_Requirements();
lomReq2.RequirementType = RequirementTypeEnum.software;
lomReq2.Name.Value = "Java SDK";
lomReq2.MinimumVersion = "1.7.1";
lomReq2.MaximumVersion = "2.09";
lomInfo.Add_SystemRequirements(lomReq2);
lomInfo.InteractivityType = InteractivityTypeEnum.mixed;
lomInfo.Add_LearningResourceType("exercise");
lomInfo.Add_LearningResourceType("Tutorials", "encdlwebpedagogicaltype");
lomInfo.InteractivityLevel = InteractivityLevelEnum.high;
lomInfo.Add_IntendedEndUserRole(IntendedEndUserRoleEnum.learner);
lomInfo.Add_Context("Undergraduate lower division", "enclearningcontext");
lomInfo.Add_Context("15", "grade");
lomInfo.Add_Context("16", "grade");
lomInfo.Add_Context("5", "group");
lomInfo.Add_TypicalAgeRange("suitable for children over 7", "en");
lomInfo.Add_TypicalAgeRange("2-8");
lomInfo.DifficultyLevel = DifficultyLevelEnum.medium;
lomInfo.TypicalLearningTime = "PT45M";
LOM_Classification lomClassification1 = new LOM_Classification();
lomInfo.Add_Classification(lomClassification1);
lomClassification1.Purpose.Value = "Discipline";
LOM_TaxonPath lomTaxonPath1 = new LOM_TaxonPath();
lomClassification1.Add_TaxonPath(lomTaxonPath1);
lomTaxonPath1.Add_SourceName("ARIADNE");
LOM_Taxon lomTaxon1 = new LOM_Taxon();
lomTaxonPath1.Add_Taxon(lomTaxon1);
lomTaxon1.ID = "BF120";
lomTaxon1.Add_Entry("Work_History", "en");
lomTaxon1.Add_Entry("Historie", "nl");
LOM_Taxon lomTaxon2 = new LOM_Taxon();
lomTaxonPath1.Add_Taxon(lomTaxon2);
lomTaxon2.ID = "BF120.1";
lomTaxon2.Add_Entry("American Work_History", "en");
LOM_Taxon lomTaxon3 = new LOM_Taxon();
lomTaxonPath1.Add_Taxon(lomTaxon3);
lomTaxon3.ID = "BF120.1.4";
lomTaxon3.Add_Entry("American Civil War", "en");
LOM_Classification lomClassification2 = new LOM_Classification();
lomInfo.Add_Classification(lomClassification2);
lomClassification2.Purpose.Value = "Educational Objective";
LOM_TaxonPath lomTaxonPath2 = new LOM_TaxonPath();
lomClassification2.Add_TaxonPath(lomTaxonPath2);
lomTaxonPath2.Add_SourceName("Common Core Standards", "en");
LOM_Taxon lomTaxon4 = new LOM_Taxon();
lomTaxonPath2.Add_Taxon(lomTaxon4);
lomTaxon4.ID = "CCS.Math.Content";
LOM_Taxon lomTaxon5 = new LOM_Taxon();
lomTaxonPath2.Add_Taxon(lomTaxon5);
lomTaxon5.ID = "3";
lomTaxon5.Add_Entry("Grade 3", "en");
LOM_Taxon lomTaxon6 = new LOM_Taxon();
lomTaxonPath2.Add_Taxon(lomTaxon6);
lomTaxon6.ID = "OA";
lomTaxon6.Add_Entry("Operations and Algebraic Thinking", "en");
LOM_Taxon lomTaxon7 = new LOM_Taxon();
lomTaxonPath2.Add_Taxon(lomTaxon7);
lomTaxon7.ID = "A";
lomTaxon7.Add_Entry("Represent and solve problems involving multiplication and division.", "en");
LOM_Taxon lomTaxon8 = new LOM_Taxon();
lomTaxonPath2.Add_Taxon(lomTaxon8);
lomTaxon8.ID = "3";
lomTaxon8.Add_Entry("Use multiplication and division within 100 to solve word problems in situations involving equal groups, arrays, and measurement quantities, e.g., by using drawings and equations with a symbol for the unknown number to represent the problem.", "en");
LOM_TaxonPath lomTaxonPath3 = new LOM_TaxonPath();
lomClassification2.Add_TaxonPath(lomTaxonPath3);
lomTaxonPath3.Add_SourceName("Common Core Standards", "en");
LOM_Taxon lomTaxon14 = new LOM_Taxon();
lomTaxonPath3.Add_Taxon(lomTaxon14);
lomTaxon14.ID = "CCS.Math.Content";
LOM_Taxon lomTaxon15 = new LOM_Taxon();
lomTaxonPath3.Add_Taxon(lomTaxon15);
lomTaxon15.ID = "3";
lomTaxon15.Add_Entry("Grade 3", "en");
LOM_Taxon lomTaxon16 = new LOM_Taxon();
lomTaxonPath3.Add_Taxon(lomTaxon16);
lomTaxon16.ID = "OA";
lomTaxon16.Add_Entry("Operations and Algebraic Thinking", "en");
LOM_Taxon lomTaxon17 = new LOM_Taxon();
lomTaxonPath3.Add_Taxon(lomTaxon17);
lomTaxon17.ID = "A";
lomTaxon17.Add_Entry("Represent and solve problems involving multiplication and division.", "en");
LOM_Taxon lomTaxon18 = new LOM_Taxon();
lomTaxonPath3.Add_Taxon(lomTaxon18);
lomTaxon18.ID = "4";
lomTaxon18.Add_Entry("Determine the unknown whole number in a multiplication or division equation relating three whole numbers. For example, determine the unknown number that makes the equation true in each of the equations 8 × ? = 48, 5 = _ ÷ 3, 6 × 6 = ?", "en");
// Add some views and interfaces
testPackage.Behaviors.Clear_Web_Skins();
testPackage.Behaviors.Add_Web_Skin("dLOC");
testPackage.Behaviors.Add_Web_Skin("UFDC");
testPackage.Behaviors.Add_View(View_Enum.JPEG2000);
testPackage.Behaviors.Add_View(View_Enum.JPEG);
testPackage.Behaviors.Add_View(View_Enum.RELATED_IMAGES);
testPackage.Behaviors.Add_View(View_Enum.HTML, "Full Document", "MVS001214.html");
// Create the chapters and pages and link them
Division_TreeNode chapter1 = new Division_TreeNode("Chapter", "First Chapter");
Page_TreeNode page1 = new Page_TreeNode("First Page");
Page_TreeNode page2 = new Page_TreeNode("Page 2");
chapter1.Nodes.Add(page1);
chapter1.Nodes.Add(page2);
Division_TreeNode chapter2 = new Division_TreeNode("Chapter", "Last Chapter");
Page_TreeNode page3 = new Page_TreeNode("Page 3");
Page_TreeNode page4 = new Page_TreeNode("Last Page");
chapter2.Nodes.Add(page3);
chapter2.Nodes.Add(page4);
testPackage.Divisions.Physical_Tree.Roots.Add(chapter1);
testPackage.Divisions.Physical_Tree.Roots.Add(chapter2);
// Create the files
SobekCM_File_Info file1_1 = new SobekCM_File_Info("2000626_0001.jp2", 2120, 1100);
SobekCM_File_Info file1_2 = new SobekCM_File_Info("2000626_0001.jpg", 630, 330);
SobekCM_File_Info file1_3 = new SobekCM_File_Info("2000626_0001.tif");
SobekCM_File_Info file2_1 = new SobekCM_File_Info("2000626_0002.jp2", 1754, 2453);
SobekCM_File_Info file2_2 = new SobekCM_File_Info("2000626_0002.jpg", 630, 832);
SobekCM_File_Info file2_3 = new SobekCM_File_Info("2000626_0002.tif");
SobekCM_File_Info file3_1 = new SobekCM_File_Info("2000626_0003.jp2", 2321, 1232);
SobekCM_File_Info file3_2 = new SobekCM_File_Info("2000626_0003.jpg", 630, 342);
SobekCM_File_Info file3_3 = new SobekCM_File_Info("2000626_0003.tif");
SobekCM_File_Info file4_1 = new SobekCM_File_Info("2000626_0004.jp2", 2145, 1024);
SobekCM_File_Info file4_2 = new SobekCM_File_Info("2000626_0004.jpg", 630, 326);
SobekCM_File_Info file4_3 = new SobekCM_File_Info("2000626_0004.tif");
// Link the files to the pages
page1.Files.Add(file1_1);
page1.Files.Add(file1_2);
page1.Files.Add(file1_3);
page2.Files.Add(file2_1);
page2.Files.Add(file2_2);
page2.Files.Add(file2_3);
page3.Files.Add(file3_1);
page3.Files.Add(file3_2);
page3.Files.Add(file3_3);
page4.Files.Add(file4_1);
page4.Files.Add(file4_2);
page4.Files.Add(file4_3);
// Add the DAITSS information
DAITSS_Info daitssInfo = new DAITSS_Info();
daitssInfo.Account = "FTU";
daitssInfo.SubAccount = "CLAS";
daitssInfo.Project = "UFDC";
daitssInfo.toArchive = true;
testPackage.Add_Metadata_Module(GlobalVar.DAITSS_METADATA_MODULE_KEY, daitssInfo);
// Save this package
testPackage.Source_Directory = directory;
return testPackage;
}
/// <summary> Saves the data rendered by this element to the provided bibliographic object during postback </summary>
/// <param name="Bib"> Object into which to save the user's data, entered into the html rendered by this element </param>
public override void Save_To_Bib(SobekCM_Item Bib)
{
// Try to get any existing learning object metadata module
LearningObjectMetadata lomInfo = Bib.Get_Metadata_Module(GlobalVar.IEEE_LOM_METADATA_MODULE_KEY) as LearningObjectMetadata;
// Pull the standard values
NameValueCollection form = HttpContext.Current.Request.Form;
foreach (string thisKey in form.AllKeys)
{
if (thisKey.IndexOf("lomcontext_select") == 0)
{
string diff = thisKey.Replace("lomcontext_select", "");
string select_value = form[thisKey];
string text_value = form["lomcontext_text" + diff];
if ((select_value.Length > 0) && (text_value.Length > 0))
{
// There is a value, so ensure learning object metadata does exist
if (lomInfo == null)
{
lomInfo = new LearningObjectMetadata();
Bib.Add_Metadata_Module(GlobalVar.IEEE_LOM_METADATA_MODULE_KEY, lomInfo);
}
// Add the value
lomInfo.Add_Context(text_value, select_value);
}
}
}
}
/// <summary> Saves the data rendered by this element to the provided bibliographic object during postback </summary>
/// <param name="Bib"> Object into which to save the user's data, entered into the html rendered by this element </param>
public override void Save_To_Bib(SobekCM_Item Bib)
{
// Try to get any existing learning object metadata module
LearningObjectMetadata lomInfo = Bib.Get_Metadata_Module(GlobalVar.IEEE_LOM_METADATA_MODULE_KEY) as LearningObjectMetadata;
string[] getKeys = HttpContext.Current.Request.Form.AllKeys;
foreach (string thisKey in getKeys)
{
if (thisKey.IndexOf(html_element_name.Replace("_", "")) == 0)
{
// Get the value from the combo box
string value = HttpContext.Current.Request.Form[thisKey].Trim();
if (value.Length > 0)
{
// There is a value, so ensure learning object metadata does exist
if (lomInfo == null)
{
lomInfo = new LearningObjectMetadata();
Bib.Add_Metadata_Module(GlobalVar.IEEE_LOM_METADATA_MODULE_KEY, lomInfo);
}
// Save the new value
switch (value)
{
case level1_text:
lomInfo.Add_IntendedEndUserRole(IntendedEndUserRoleEnum.teacher);
break;
case level2_text:
lomInfo.Add_IntendedEndUserRole(IntendedEndUserRoleEnum.author);
break;
case level3_text:
lomInfo.Add_IntendedEndUserRole(IntendedEndUserRoleEnum.learner);
break;
case level4_text:
lomInfo.Add_IntendedEndUserRole(IntendedEndUserRoleEnum.manager);
break;
}
}
}
}
}
private void read_requirement(XmlReader Input_XmlReader, LearningObjectMetadata lomInfo)
{
LOM_System_Requirements requirement = new LOM_System_Requirements();
// Loop through reading each XML node
do
{
// get the right division information based on node type
if (Input_XmlReader.NodeType == XmlNodeType.Element)
{
string name = Input_XmlReader.Name.ToLower();
if ((lom_namespace.Length > 0) && (name.IndexOf(lom_namespace) == 0))
name = name.Substring(lom_namespace.Length);
switch (name)
{
case "type":
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
string typeTemp = Input_XmlReader.Value.ToLower().Trim();
switch( typeTemp )
{
case "operating system":
requirement.RequirementType = RequirementTypeEnum.operating_system;
break;
case "browser":
requirement.RequirementType = RequirementTypeEnum.browser;
break;
case "software":
requirement.RequirementType = RequirementTypeEnum.software;
break;
case "hardware":
requirement.RequirementType = RequirementTypeEnum.hardware;
break;
}
}
break;
case "name":
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
requirement.Name.Value = Input_XmlReader.Value.Trim();
}
break;
case "minimumversion":
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
requirement.MinimumVersion = Input_XmlReader.Value.Trim();
}
break;
case "maximumversion":
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
requirement.MaximumVersion = Input_XmlReader.Value.Trim();
}
break;
}
}
} while (Input_XmlReader.Read());
// Was a good requirement created?
if ((requirement.RequirementType != RequirementTypeEnum.UNDEFINED) && (!String.IsNullOrWhiteSpace(requirement.Name.Value)))
lomInfo.Add_SystemRequirements(requirement);
}
private void read_lifecycle(XmlReader Input_XmlReader, LearningObjectMetadata lomInfo)
{
// Loop through reading each XML node
do
{
// get the right division information based on node type
if (Input_XmlReader.NodeType == XmlNodeType.Element)
{
string name = Input_XmlReader.Name.ToLower();
if ((lom_namespace.Length > 0) && (name.IndexOf(lom_namespace) == 0))
name = name.Substring(lom_namespace.Length);
switch (name)
{
case "status":
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
string statusTemp = Input_XmlReader.Value.Trim();
switch (statusTemp)
{
case "draft":
lomInfo.Status = StatusEnum.draft;
break;
case "final":
lomInfo.Status = StatusEnum.final;
break;
case "revised":
lomInfo.Status = StatusEnum.revised;
break;
case "unavailable":
lomInfo.Status = StatusEnum.unavailable;
break;
}
}
break;
}
}
} while (Input_XmlReader.Read());
}
private void read_general( XmlReader Input_XmlReader, LearningObjectMetadata lomInfo )
{
// Loop through reading each XML node
do
{
// get the right division information based on node type
if (Input_XmlReader.NodeType == XmlNodeType.Element)
{
string name = Input_XmlReader.Name.ToLower();
if ((lom_namespace.Length > 0) && (name.IndexOf(lom_namespace) == 0))
name = name.Substring(lom_namespace.Length);
switch (name)
{
case "aggregationlevel":
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
string aggregationLevelTemp = Input_XmlReader.Value.Trim();
switch (aggregationLevelTemp)
{
case "1":
lomInfo.AggregationLevel = AggregationLevelEnum.level1;
break;
case "2":
lomInfo.AggregationLevel = AggregationLevelEnum.level2;
break;
case "3":
lomInfo.AggregationLevel = AggregationLevelEnum.level3;
break;
case "4":
lomInfo.AggregationLevel = AggregationLevelEnum.level4;
break;
}
}
break;
}
}
} while (Input_XmlReader.Read());
}
private void read_educational(XmlReader Input_XmlReader, LearningObjectMetadata lomInfo)
{
// Loop through reading each XML node
do
{
// get the right division information based on node type
if (Input_XmlReader.NodeType == XmlNodeType.Element)
{
string name = Input_XmlReader.Name.ToLower();
if (( lom_namespace.Length > 0 ) && ( name.IndexOf( lom_namespace ) == 0))
name = name.Substring(lom_namespace.Length);
switch (name)
{
//case "requirement":
case "interactivitytype":
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
string interactivityTemp = Input_XmlReader.Value.Trim();
switch( interactivityTemp )
{
case "active":
lomInfo.InteractivityType = InteractivityTypeEnum.active;
break;
case "expositive":
lomInfo.InteractivityType = InteractivityTypeEnum.expositive;
break;
case "mixed":
lomInfo.InteractivityType = InteractivityTypeEnum.mixed;
break;
}
}
break;
case "learningresourcetype":
LOM_VocabularyState learningResourceType = new LOM_VocabularyState();
if (Input_XmlReader.MoveToAttribute("source"))
learningResourceType.Source = Input_XmlReader.Value.Trim();
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
learningResourceType.Value = Input_XmlReader.Value.Trim();
lomInfo.Add_LearningResourceType(learningResourceType);
}
break;
case "interactivitylevel":
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
string interactivityLevelTemp = Input_XmlReader.Value.ToLower().Trim();
switch( interactivityLevelTemp )
{
case "very low":
lomInfo.InteractivityLevel = InteractivityLevelEnum.very_low;
break;
case "low":
lomInfo.InteractivityLevel = InteractivityLevelEnum.low;
break;
case "medium":
lomInfo.InteractivityLevel = InteractivityLevelEnum.medium;
break;
case "high":
lomInfo.InteractivityLevel = InteractivityLevelEnum.high;
break;
case "very high":
lomInfo.InteractivityLevel = InteractivityLevelEnum.very_high;
break;
}
}
break;
case "intendedenduserrole":
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
string endUserRoleTemp = Input_XmlReader.Value.ToLower().Trim();
switch (endUserRoleTemp)
{
case "teacher":
lomInfo.Add_IntendedEndUserRole( IntendedEndUserRoleEnum.teacher);
break;
case "author":
lomInfo.Add_IntendedEndUserRole( IntendedEndUserRoleEnum.author);
break;
case "learner":
lomInfo.Add_IntendedEndUserRole( IntendedEndUserRoleEnum.learner);
break;
case "manager":
lomInfo.Add_IntendedEndUserRole( IntendedEndUserRoleEnum.manager);
break;
}
}
break;
case "context":
LOM_VocabularyState context = new LOM_VocabularyState();
if (Input_XmlReader.MoveToAttribute("source"))
context.Source = Input_XmlReader.Value.Trim();
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
context.Value = Input_XmlReader.Value.Trim();
lomInfo.Add_Context(context);
}
break;
case "typicalagerange":
// Need to gather all the language strings here
do
{
string subname = Input_XmlReader.Name.ToLower();
if (( lom_namespace.Length > 0 ) && ( subname.IndexOf( lom_namespace ) == 0))
subname = subname.Substring(lom_namespace.Length);
// Stop when done looping through the language strings
if ((Input_XmlReader.NodeType == XmlNodeType.EndElement) && (subname == "typicalagerange"))
break;
// Start of a new language string?
if (( Input_XmlReader.NodeType == XmlNodeType.Element ) && ( subname == "langstring" ))
{
LOM_LanguageString agerange = new LOM_LanguageString();
if (Input_XmlReader.MoveToAttribute("lang"))
agerange.Language = Input_XmlReader.Value.Trim();
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
agerange.Value = Input_XmlReader.Value.Trim();
lomInfo.Add_TypicalAgeRange(agerange);
}
}
} while (Input_XmlReader.Read());
break;
case "difficulty":
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
string difficultyTemp = Input_XmlReader.Value.ToLower().Trim();
switch (difficultyTemp)
{
case "very easy":
lomInfo.DifficultyLevel = DifficultyLevelEnum.very_easy;
break;
case "easy":
lomInfo.DifficultyLevel = DifficultyLevelEnum.easy;
break;
case "medium":
lomInfo.DifficultyLevel = DifficultyLevelEnum.medium;
break;
case "difficult":
lomInfo.DifficultyLevel = DifficultyLevelEnum.difficult;
break;
case "very difficult":
lomInfo.DifficultyLevel = DifficultyLevelEnum.very_difficult;
break;
}
}
break;
case "typicallearningtime":
// Need to gather all the language strings here
do
{
string subname = Input_XmlReader.Name.ToLower();
if ((lom_namespace.Length > 0) && (subname.IndexOf(lom_namespace) == 0))
subname = subname.Substring(lom_namespace.Length);
// Stop when done looping through the language strings
if ((Input_XmlReader.NodeType == XmlNodeType.EndElement) && (subname == "typicallearningtime"))
break;
// Start of a new language string?
if ((Input_XmlReader.NodeType == XmlNodeType.Element) && (subname == "duration"))
{
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
lomInfo.TypicalLearningTime = Input_XmlReader.Value.Trim();
}
}
} while (Input_XmlReader.Read());
break;
}
}
} while (Input_XmlReader.Read());
}
private void read_classification(XmlReader Input_XmlReader, LearningObjectMetadata lomInfo)
{
// Create the classification object
LOM_Classification classification = new LOM_Classification();
// Loop through reading each XML node
do
{
// get the right division information based on node type
if (Input_XmlReader.NodeType == XmlNodeType.Element)
{
string name = Input_XmlReader.Name.ToLower();
if ((lom_namespace.Length > 0) && (name.IndexOf(lom_namespace) == 0))
name = name.Substring(lom_namespace.Length);
switch (name)
{
case "purpose":
if (Input_XmlReader.MoveToAttribute("source"))
classification.Purpose.Source = Input_XmlReader.Value.Trim();
Input_XmlReader.Read();
if ((Input_XmlReader.NodeType == XmlNodeType.Text) && (Input_XmlReader.Value.Trim().Length > 0))
{
classification.Purpose.Value = Input_XmlReader.Value.Trim();
}
break;
case "taxonpath":
read_taxonpath(Input_XmlReader.ReadSubtree(), classification);
break;
}
}
} while (Input_XmlReader.Read());
// Double check that there is some taxonomies here before adding this to the resource object
bool added = false;
foreach (LOM_TaxonPath thisPath in classification.TaxonPaths)
{
foreach (LOM_Taxon thisTaxon in thisPath.Taxons)
{
if ((thisTaxon.ID.Length > 0) || (thisTaxon.Entries.Count > 0) && (thisTaxon.Entries[0].Value.Length > 0))
{
added = true;
lomInfo.Add_Classification(classification);
break;
}
}
if (added) break;
}
}
private void read_technical(XmlReader Input_XmlReader, LearningObjectMetadata lomInfo)
{
// Loop through reading each XML node
do
{
// get the right division information based on node type
if (Input_XmlReader.NodeType == XmlNodeType.Element)
{
string name = Input_XmlReader.Name.ToLower();
if ((lom_namespace.Length > 0) && (name.IndexOf(lom_namespace) == 0))
name = name.Substring(lom_namespace.Length);
switch (name)
{
//case "requirement":
case "orcomposite":
read_requirement(Input_XmlReader.ReadSubtree(), lomInfo);
break;
}
}
} while (Input_XmlReader.Read());
}
