public Outcome Log(Group group, Status status, Vector vector, string message, params object[] args)
{
Outcome outcome = new Outcome(group, status, vector, string.Format(message, args), this.nesting);
Add(outcome);
return outcome;
}
public Outcome Start(Group group, Vector vector = null)
{
Outcome outcome = new Outcome(group, Status.Start, vector, null, this.nesting);
Add(outcome);
nesting++;
return outcome;
}
public Outcome(Group group, Status kind, Vector vector, string message, int nesting = 0)
{
this.Type = group;
this.Kind = kind;
this.Vector = vector;
this.Message = message;
this.Nesting = nesting;
}
public Vector Clone()
{
Vector clone = new Vector();
clone.Structure = this.Structure;
clone.Element = this.Element;
clone.Node = this.Node.CreateNavigator();
clone.NSM = this.NSM;
clone.Origin = this.Origin;
return clone;
}
public static Vector Create(Structure structure, XPathNavigator node, XmlNamespaceManager nsm)
{
Vector vector = new Vector();
vector.Structure = structure;
vector.Element = (structure != null) ? structure.Root : null;
vector.Node = node;
vector.NSM = nsm;
vector.Origin = vector;
return vector;
}
public void ValidateCode(Vector vector)
{
if (vector.Element.Binding == null)
{
if (vector.Element.BindingUri != null)
reporter.Log(Group.Coding, Status.Skipped, vector, "Binding [{0}] could not be resolved for use in validation", vector.Element.BindingUri);
return;
}
string value = vector.GetValue("@value");
bool exists = vector.Element.Binding.Contains(value);
if (exists)
{
reporter.Log(Group.Coding, Status.Valid, vector, "Code [{0}] ({1}) is valid [{2}]",
vector.Element.Name, vector.Element.Binding.System, value);
}
else
{
Log(Group.Coding, Status.Failed, vector, "Code [{0}] ({1}) contains a nonexisting value [{2}]",
vector.Element.Name, vector.Element.Binding.System, value);
}
}
public void ValidateStructure(Vector vector)
{
if (vector.Structure == null)
{
Log(Group.Structure, Status.Unknown, vector, "Node [{0}] does not match a known structure. Further evaluation is impossible.", vector.Node.Name);
}
else
{
Start(Group.Structure, vector);
ValidateElement(vector);
Stop(Group.Structure);
}
}
public void Log(Group group, Status status, Vector vector, string msg, params object[] args)
{
Outcome outcome = reporter.Log(group, status, vector, msg, args);
if (LogOutcome != null) LogOutcome(outcome);
}
public void ValidateChildren(Vector vector)
{
if (ShouldValidateElementChildren(vector))
{
ValidateNodeChildren(vector);
ValidateElementChildren(vector); // except when slicing
}
else
{
ValidateStructures(vector);
ValidateElementRef(vector);
}
}
public void ValidateElement(Vector vector)
{
Start(Group.Element, vector);
{
ValidateCode(vector);
ValidateConstraints(vector);
ValidatePrimitive(vector);
ValidateFixedValue(vector); // except when slicing
ValidateForMissingStructures(vector);
ValidateChildren(vector);
ValidateSlice(vector);
}
Stop(Group.Element);
}
public void ValidateNodeChildren(Vector vector)
{
if (vector.Element.NameSpacePrefix != FhirNamespaceManager.Fhir)
{
Log(Group.Element, Status.Info, vector, "Element [{0}] was skipped because it was not in the FHIR namespace.", vector.Element.Name);
return;
}
foreach(Vector v in vector.NodeChildren)
{
ValidateNodeChild(v);
}
}
public bool ShouldValidateElementChildren(Vector vector)
{
// RULE 1: children should be validated;
bool should = vector.Element.HasChildren;
if (should)
{
// RULE 2: Unless there is a profile reference. In that case there should not be any children, so let's ignore them.
bool profile = vector.Element.TypeRefs.Any(t => t.ProfileUri != null);
should = !profile;
}
return should;
}
public void ValidateCardinality(Vector vector)
{
string slice = (vector.Element.Sliced) ? string.Format("Slice {0}: ", vector.Element.Slice) : string.Empty;
int count = vector.Count();
if (vector.Element.Cardinality.InRange(count))
{
Log(Group.Cardinality, Status.Valid, vector, "{0}Cardinality ({1}) of element [{2}] is valid", slice, count, vector.Element.Name);
}
else
{
if (vector.Element.Sliced)
{
Log(Group.Slice, Status.Failed, vector, "Slice {0} is not valid.", vector.Element.Slice);
}
if (count == 0)
{
Log(Group.Cardinality, Status.Failed, vector, "{0}Node [{1}] has missing child node [{2}] ",
slice, vector.NodePath(), vector.Element.Name);
}
else
{
Log(Group.Cardinality, Status.Failed, vector,
"{0}The occurence {1} of node [{2}] under [{3}] is out of range ({4})",
slice, count, vector.Element.Name, vector.NodePath(), vector.Element.Cardinality);
}
}
}
public void ValidateConstraints(Vector vector)
{
foreach (Constraint constraint in vector.Element.Constraints)
{
ValidateConstraint(vector, constraint);
}
}
public void ValidateFixedValue(Vector vector)
{
// todo: op dit moment gaan we er vanuit dat de fixedvalue een andere betekenis heeft in het geval van een slice.
if (!vector.Element.Sliced)
{
string fixvalue = vector.Element.FixedValue;
XPathNavigator node = vector.Node.SelectSingleNode("@value");
string value = (node != null) ? node.Value : null;
if (fixvalue != null)
{
bool equal = fixvalue.Equals(value);
if (equal)
{
Log(Group.Value, Status.Valid, vector, "Fixed value validated correctly");
}
else
{
Log(Group.Value, Status.Failed, vector, "Value [{0}] in node [{1}] doesn't match fixed value [{2}] of element [{3}]",
value, vector.Node.Name, fixvalue, vector.Element.Name);
}
}
}
}
public Outcome Log(Group group, Status status, Vector vector)
{
return new Outcome(group, status, vector, null, this.nesting);
}
public void ValidatePrimitive(Vector vector)
{
if (!vector.Element.IsPrimitive)
return;
if (vector.Element.NameSpacePrefix != FhirNamespaceManager.Fhir)
return;
try
{
string value = vector.GetContent();
//string pattern = vector.Element.PrimitivePattern;
bool valid = vector.Element.IsValidPrimitive(value);
if (valid)
{
Log(Group.Primitive, Status.Valid, vector, "The value format ({0}) of primitive [{1}] is valid. ", vector.Element.Name, vector.Node.Name);
}
else
{
Log(Group.Primitive, Status.Failed, vector, "The value format ({0}) of primitive [{1}] is not valid: '{2}'", vector.Element.Name, vector.Node.Name, value);
}
}
catch
{
Log(Group.Primitive, Status.Failed, vector, "The value of primitive [{0}] was not present.", vector.Node.Name);
}
}
public void ValidateStructures(Vector vector)
{
if (vector.Element.Representation == Representation.Attribute)
// todo: HACK: the standard contradicts itself here.
// Extension.uri is defined as uri (which we modeled as a structure a primitive element containing extensions. And the root element is defined as Representation=Element
// but on a higher level, it is already defined as Representation=Attribute.
return;
foreach(Vector v in vector.ElementStructures)
{
ValidateStructure(v);
}
}
public void ValidateForMissingStructures(Vector vector)
{
IEnumerable<string> missing = vector.Element.TypeRefs.Where(t => t.Structure == null).Select(t => t.Code);
foreach (string s in missing)
{
Log(Group.Structure, Status.Skipped, vector, "Profile misses structure [{0}]. Evaluation is skipped.", s);
}
}
public void Start(Group group, Vector vector)
{
Outcome outcome = reporter.Start(group, vector);
if (LogOutcome != null) LogOutcome(outcome);
}
public void ValidateSlice(Vector vector)
{
// Because Vector.Count en Vector.MatchingNodes make use of Element.XPath
// and Element.XPath takes the Slice discriminator into account,
// Slicing can be validated within ValidateCardinality en ValidateElementChildren
}
public void ValidateElementRef(Vector vector)
{
if (vector.Element.ElementRef != null)
{
Vector clone = vector.Clone();
clone.Element = vector.Element.ElementRef;
ValidateElement(clone);
}
}
public void ValidateConstraint(Vector vector, Constraint constraint)
{
if (constraint.IsValid)
{
try
{
bool valid = vector.Evaluate(constraint);
if (valid)
Log(Group.Constraint, Status.Valid, vector, "Node [{0}] conforms to constraint [{1}]", vector.Node.Name, constraint.Name);
else
Log(Group.Constraint, Status.Failed, vector, "Node [{0}] does not conform to constraint [{1}]: \"{2}\" ", vector.Node.Name, constraint.Name, constraint.HumanReadable);
}
catch (XPathException e)
{
Log(Group.Constraint, Status.Failed, vector, "Evaluation of constraint [{0}] evaluation failed: {1}", constraint.Name, e.Message);
}
}
}
public void ValidateElementChildren(Vector vector)
{
foreach (Vector v in vector.ElementChildren)
{
ValidateCardinality(v);
foreach(Vector u in v.MatchingNodes)
{
ValidateElement(u);
}
}
}
public void ValidateNodeChild(Vector vector)
{
string name = vector.Node.Name;
if (!vector.Element.HasChild(name))
{
Log(Group.Element, Status.Unknown, vector, "Element [{0}] contains undefined element [{1}]", vector.Element.Name, name);
}
}
