protected override void CreateMemberDocComment(KeyValuePair <string, OpenApiSchema> item, CodeMemberField property)
{
if (String.IsNullOrEmpty(item.Value.Description))
{
return;
}
string typeComment = item.Value.Description;
if (!String.IsNullOrEmpty(typeComment))
{
bool funky = typeComment.Contains("*/");
if (funky)
{
typeComment = typeComment.Replace("*/", "");
Trace.TraceWarning($"Component {item.Key} with property {property.Name} has Doc comments containing '*/' which is invalid in JSDoc. Please remove it in the definition.");
}
}
if (settings.DataAnnotationsToComments)
{
List <string> ss = ComponentsHelper.GetCommentsFromAnnotations(item.Value);
if (!String.IsNullOrEmpty(typeComment))
{
ss.Insert(0, typeComment);
}
property.Comments.Add(new CodeCommentStatement(Fonlow.DocComment.StringFunctions.IndentedArrayToString(ss), true));
}
else
{
property.Comments.Add(new CodeCommentStatement(typeComment, true));
}
}
static CodeMemberField CreateProperty(string propertyName, string typeName, bool isRequired)
{
string memberName = propertyName + (isRequired ? String.Empty : "?");
CodeMemberField result = new CodeMemberField()
{
Type = ComponentsHelper.TranslateTypeNameToClientTypeReference(typeName), Name = memberName
};
result.Attributes = MemberAttributes.Public | MemberAttributes.Final;
return(result);
}
public Tuple <CodeTypeReference, CodeTypeDeclaration> GenerateCasualEnum(OpenApiSchema propertySchema, string typeDeclarationName, string propertyName, string ns)
{
string casualEnumName = typeDeclarationName + NameFunc.RefinePropertyName(propertyName);
CodeTypeDeclaration existingType = FindTypeDeclarationInNamespaces(casualEnumName, ns);
CodeTypeDeclaration casualEnumTypeDeclaration = null;
if (existingType == null)
{
casualEnumTypeDeclaration = PodGenHelper.CreatePodClientEnum(ClientNamespace, casualEnumName);
AddEnumMembers(casualEnumTypeDeclaration, propertySchema.Enum);
Trace.TraceInformation($"Casual enum {casualEnumName} added for {typeDeclarationName}/{propertyName}.");
}
CodeTypeReference codeTypeReference = ComponentsHelper.TranslateTypeNameToClientTypeReference(casualEnumName);
return(Tuple.Create(codeTypeReference, casualEnumTypeDeclaration));
}
public void CreateCodeDom(OpenApiComponents components)
{
if (components == null)
{
return;
}
ComponentsSchemas = components.Schemas; //.OrderBy(d => d.Value.Reference != null).OrderBy(k => k.Value.Properties.Count > 0).OrderBy(g => g.Value.AllOf.Count > 0).OrderBy(d => d.Value.Type != "array"); //so simple complex types will be handled first to be referenced by more complex ones.
var classNamespaceNames = NameFunc.FindNamespacesInClassNames(ComponentsSchemas.Keys);
if (classNamespaceNames.Length > 0)
{
var groupedComponentsSchemas = ComponentsSchemas
.GroupBy(d => NameFunc.GetNamespaceOfClassName(d.Key))
.OrderBy(k => k.Key);
var namespacesOfTypes = groupedComponentsSchemas.Select(d => d.Key).ToArray();
foreach (var groupedTypes in groupedComponentsSchemas)
{
var classNamespaceText = groupedTypes.Key;
var classNamespace = new CodeNamespace(classNamespaceText);
codeCompileUnit.Namespaces.Add(classNamespace);
ClassNamespaces.Add(classNamespace);
foreach (var kv in groupedTypes.OrderBy(t => t.Key))
{
var existingType = ComponentsHelper.FindTypeDeclarationInNamespace(NameFunc.RefineTypeName(kv.Key, classNamespaceText), classNamespace);
if (existingType == null)
{
AddTypeToCodeDom(kv);
}
}
}
}
else
{
foreach (KeyValuePair <string, OpenApiSchema> item in ComponentsSchemas)
{
var existingType = FindTypeDeclarationInNamespaces(NameFunc.RefineTypeName(item.Key, null), null);
if (existingType == null)
{
AddTypeToCodeDom(item);
}
}
}
}
protected override void CreateMemberDocComment(KeyValuePair <string, OpenApiSchema> item, CodeMemberField property)
{
string typeComment = item.Value.Description;
if (settings.DataAnnotationsToComments)
{
List <string> ss = ComponentsHelper.GetCommentsFromAnnotations(item.Value);
if (!String.IsNullOrEmpty(typeComment))
{
ss.Insert(0, typeComment);
}
AddDocComments(ss, property.Comments);
}
else
{
AddDocComments(typeComment, property.Comments);
}
}
protected override void AddProperty(KeyValuePair <string, OpenApiSchema> p, CodeTypeDeclaration typeDeclaration, OpenApiSchema schema, string currentTypeName, string ns)
{
string propertyName = NameFunc.RefineTsPropertyName(p.Key);
if (propertyName == currentTypeName)
{
Trace.TraceWarning($"Property {propertyName} found with the same name of type {currentTypeName}, and it is renamed to {propertyName}1.");
propertyName += "1";
}
if (!Char.IsLetter(propertyName[0]) && propertyName[0] != '_')
{
propertyName = "_" + propertyName;
}
OpenApiSchema propertySchema = p.Value;
string primitivePropertyType = propertySchema.Type;
bool isPrimitiveType = TypeRefHelper.IsPrimitiveTypeOfOA(primitivePropertyType);
bool isRequired = schema.Required.Contains(p.Key); //compare with the original key
CodeMemberField clientProperty;
if (String.IsNullOrEmpty(primitivePropertyType))
{
if (propertySchema.Reference != null)
{
string propertyTypeNs = NameFunc.GetNamespaceOfClassName(propertySchema.Reference.Id);
string propertyTypeName = NameFunc.RefineTypeName(propertySchema.Reference.Id, propertyTypeNs);
string propertyTypeWithNs = NameFunc.CombineNamespaceWithClassName(propertyTypeNs, propertyTypeName);
CodeTypeReference ctr = ComponentsHelper.TranslateTypeNameToClientTypeReference(propertyTypeWithNs);
clientProperty = CreateProperty(ctr, propertyName, isRequired); //TS
}
else
{
if (propertySchema.Enum.Count > 0) //for casual enum
{
clientProperty = GenerateCasualEnumForProperty(propertySchema, typeDeclaration.Name, propertyName, ns, isRequired);
}
else
{
var r = CreateCodeTypeReferenceSchemaOf(propertySchema, currentTypeName, p.Key);
clientProperty = CreateProperty(r.Item1, propertyName, isRequired);
}
}
}
else
{
if (propertySchema.Type == "array") // for array
{
var r = CreateArrayCodeTypeReference(propertySchema, typeDeclaration.Name, propertyName, currentTypeName, ns);
CodeTypeReference arrayCodeTypeReference = r.Item1;
var n = String.IsNullOrEmpty(r.Item2) ? propertyName : r.Item2;
clientProperty = CreateProperty(arrayCodeTypeReference, n, isRequired);
}
else if (propertySchema.Enum.Count == 0 && propertySchema.Reference != null && !isPrimitiveType) // for complex type
{
CodeTypeReference complexCodeTypeReference = CreateComplexCodeTypeReference(propertySchema);
clientProperty = CreateProperty(complexCodeTypeReference, propertyName, isRequired);
}
else if (propertySchema.Reference == null && propertySchema.Properties != null && propertySchema.Properties.Count > 0) // for casual type
{
string casualTypeName = currentTypeName + NameFunc.RefinePropertyName(propertyName);
CodeTypeDeclaration casualTypeDeclaration = AddTypeToClassNamespace(casualTypeName, null); //stay with the namespace of the host class
AddProperties(casualTypeDeclaration, propertySchema, casualTypeName, null);
var ctr = TypeRefHelper.TranslateToClientTypeReference(casualTypeName);
clientProperty = CreateProperty(ctr, propertyName, isRequired);
}
else if (propertySchema.Type == "object" && propertySchema.AdditionalProperties != null) // for dictionary
{
CodeTypeReference dicKeyTypeRef = TypeRefHelper.TranslateToClientTypeReference(typeof(string));
CodeTypeReference dicValueTypeRef;
if (propertySchema.AdditionalProperties.Properties.Count == 0 && //not casual type
propertySchema.AdditionalProperties.Reference == null && // not complex type
propertySchema.AdditionalProperties.Items == null) // not casual array type
{
dicValueTypeRef = new CodeTypeReference(typeof(object));
}
else
{
dicValueTypeRef = PropertySchemaToCodeTypeReference(propertySchema.AdditionalProperties, typeDeclaration.Name, propertyName);
}
CodeTypeReference dicCtr = new CodeTypeReference(typeof(Dictionary <,>).FullName, dicKeyTypeRef, dicValueTypeRef); //for client codes, Dictionary is better than IDictionary, no worry of different implementation of IDictionary
clientProperty = CreateProperty(dicCtr, propertyName, isRequired);
}
else if (propertySchema.Enum.Count == 0) // for primitive type
{
Type simpleType = TypeRefHelper.PrimitiveSwaggerTypeToClrType(primitivePropertyType, propertySchema.Format);
clientProperty = CreatePropertyOfType(propertyName, simpleType, isRequired);
}
else if (propertySchema.Enum.Count > 0 && propertySchema.Type == "string") // for enum
{
string[] enumMemberNames;
try
{
enumMemberNames = (String.IsNullOrEmpty(propertySchema.Type) || propertySchema.Type == "string")
? propertySchema.Enum.Cast <OpenApiString>().Select(m => m.Value).ToArray()
: propertySchema.Enum.Cast <OpenApiInteger>().Select(m => "_" + m.Value.ToString()).ToArray();
}
catch (InvalidCastException ex)
{
throw new CodeGenException($"When dealing with {propertyName} of {propertySchema.Type}, error: {ex.Message}");
}
CodeTypeDeclaration existingDeclaration = FindEnumDeclaration(enumMemberNames);
if (existingDeclaration != null)
{
string existingTypeName = existingDeclaration.Name;
CodeTypeReference enumReference = TypeRefHelper.TranslateToClientTypeReference(existingTypeName);
clientProperty = CreateProperty(enumReference, propertyName, isRequired);
}
else
{
clientProperty = GenerateCasualEnumForProperty(propertySchema, typeDeclaration.Name, propertyName, ns, isRequired);
}
}
else if (propertySchema.Type != "string" && TypeAliasDic.TryGet(propertySchema.Type, out string aliasTypeName)) //check TypeAliasDic
{
var r = new CodeTypeReference(aliasTypeName);
clientProperty = CreateProperty(r, propertyName, isRequired);
}
else if (propertySchema.Reference != null)
{
CodeTypeReference complexCodeTypeReference = CreateComplexCodeTypeReference(propertySchema);
clientProperty = CreateProperty(complexCodeTypeReference, propertyName, isRequired);
}
else // for casual enum
{
clientProperty = GenerateCasualEnumForProperty(propertySchema, typeDeclaration.Name, propertyName, ns, isRequired);
}
}
CreateMemberDocComment(p, clientProperty);
typeDeclaration.Members.Add(clientProperty);
}
/// <summary>
/// Mostly used in ParametersRefBuilder.
/// </summary>
/// <param name="propertySchema"></param>
/// <param name="actionName"></param>
/// <param name="propertyName"></param>
/// <returns></returns>
/// <remarks>This shares similar navigation of schema like those in AddProperty().</remarks>
public CodeTypeReference PropertySchemaToCodeTypeReference(OpenApiSchema propertySchema, string actionName, string propertyName)
{
string schemaType = propertySchema.Type;
bool isPrimitiveType = TypeRefHelper.IsPrimitiveTypeOfOA(schemaType);
if (String.IsNullOrEmpty(schemaType))
{
if (propertySchema.Reference != null)
{
string propertyTypeNs = NameFunc.GetNamespaceOfClassName(propertySchema.Reference.Id);
string propertyTypeName = NameFunc.RefineTypeName(propertySchema.Reference.Id, propertyTypeNs);
string propertyTypeWithNs = NameFunc.CombineNamespaceWithClassName(propertyTypeNs, propertyTypeName);
return(ComponentsHelper.TranslateTypeNameToClientTypeReference(propertyTypeWithNs));
}
else
{
if (propertySchema.Enum.Count > 0) //for casual enum
{
var r = GenerateCasualEnum(propertySchema, actionName, propertyName, null);
return(r.Item1);
}
else
{
Tuple <CodeTypeReference, bool> r = CreateCodeTypeReferenceSchemaOf(propertySchema, actionName, propertyName);
return(r.Item1);
}
}
}
else
{
if (schemaType == "array") // for array
{
var r = CreateArrayCodeTypeReference(propertySchema, actionName, propertyName, null, null);
return(r.Item1);
}
else if (propertySchema.Enum.Count == 0 && propertySchema.Reference != null && !isPrimitiveType) // for complex type
{
CodeTypeReference complexCodeTypeReference = CreateComplexCodeTypeReference(propertySchema);
return(complexCodeTypeReference);
}
else if (propertySchema.Reference == null && propertySchema.Properties != null && propertySchema.Properties.Count > 0) // for casual type
{
string casualTypeName = actionName + NameFunc.RefinePropertyName(propertyName);
var found = FindTypeDeclarationInNamespaces(casualTypeName, null); //It could happenen when generating sync and async functions in C#
if (found == null)
{
CodeTypeDeclaration casualTypeDeclaration = AddTypeToClassNamespace(casualTypeName, null); //stay with the namespace of the host class
AddProperties(casualTypeDeclaration, propertySchema, casualTypeName, null);
}
return(TypeRefHelper.TranslateToClientTypeReference(casualTypeName));
}
else if (schemaType == "object" && propertySchema.AdditionalProperties != null) // for dictionary
{
CodeTypeReference dicKeyTypeRef = TypeRefHelper.TranslateToClientTypeReference(typeof(string));
CodeTypeReference dicValueTypeRef = PropertySchemaToCodeTypeReference(propertySchema.AdditionalProperties, actionName, propertyName);
return(new CodeTypeReference(typeof(Dictionary <,>).FullName, dicKeyTypeRef, dicValueTypeRef)); //for client codes, Dictionary is better than IDictionary, no worry of different implementation of IDictionary
}
else if (propertySchema.Enum.Count == 0) // for primitive type
{
Type t = TypeRefHelper.PrimitiveSwaggerTypeToClrType(schemaType, propertySchema.Format);
return(new CodeTypeReference(t));
}
else if (propertySchema.Enum.Count > 0 && schemaType == "string") // for enum
{
string[] enumMemberNames;
try
{
enumMemberNames = (String.IsNullOrEmpty(propertySchema.Type) || propertySchema.Type == "string")
? propertySchema.Enum.Cast <OpenApiString>().Select(m => m.Value).ToArray()
: propertySchema.Enum.Cast <OpenApiInteger>().Select(m => "_" + m.Value.ToString()).ToArray();
}
catch (InvalidCastException ex)
{
throw new CodeGenException($"When dealing with {propertyName} of {schemaType}, error: {ex.Message}");
}
CodeTypeDeclaration existingDeclaration = FindEnumDeclaration(enumMemberNames);
if (existingDeclaration != null)
{
string existingTypeName = existingDeclaration.Name;
CodeTypeReference enumReference = TypeRefHelper.TranslateToClientTypeReference(existingTypeName);
return(enumReference);
}
else
{
var r = GenerateCasualEnum(propertySchema, actionName, propertyName, null);
return(r.Item1);
}
}
else if (schemaType != "string" && TypeAliasDic.TryGet(schemaType, out string aliasTypeName)) //check TypeAliasDic
{
return(new CodeTypeReference(aliasTypeName));
}
else if (propertySchema.Reference != null)
{
CodeTypeReference complexCodeTypeReference = CreateComplexCodeTypeReference(propertySchema);
return(complexCodeTypeReference);
}
else // for casual enum
{
var r = GenerateCasualEnum(propertySchema, actionName, propertyName, null);
return(r.Item1);
}
}
}
/// <summary>
///
/// </summary>
/// <param name="propertySchema"></param>
/// <param name="typeDeclarationName"></param>
/// <param name="propertyName"></param>
/// <param name="currentTypeName"></param>
/// <param name="ns"></param>
/// <returns>CodeTypeReference and CasualTypeName. Empty if no casualTypeName.</returns>
public Tuple <CodeTypeReference, string> CreateArrayCodeTypeReference(OpenApiSchema propertySchema, string typeDeclarationName, string propertyName, string currentTypeName, string ns)
{
OpenApiSchema arrayItemsSchema = propertySchema.Items;
if (arrayItemsSchema == null) //ritekit.com has parameter as array but without items type. Presumbly it may be string.
{
Type clrType = TypeRefHelper.PrimitiveSwaggerTypeToClrType("string", null);
CodeTypeReference arrayCodeTypeReference = TypeRefHelper.CreateArrayTypeReference(clrType, 1);
return(Tuple.Create(arrayCodeTypeReference, String.Empty));
}
else if (arrayItemsSchema.Reference != null) //array of custom type
{
string arrayTypeSchemaRefId = arrayItemsSchema.Reference.Id;
var arrayTypeNs = NameFunc.GetNamespaceOfClassName(arrayTypeSchemaRefId);
var arrayTypeName = NameFunc.RefineTypeName(arrayTypeSchemaRefId, arrayTypeNs);
var arrayTypeWithNs = NameFunc.CombineNamespaceWithClassName(arrayTypeNs, arrayTypeName);
var existingType = FindTypeDeclarationInNamespaces(arrayTypeName, arrayTypeNs);
if (existingType == null) // Referencing to a type not yet added to namespace
{
var existingSchema = FindSchema(arrayTypeSchemaRefId);
if (existingSchema != null && !RegisteredSchemaRefIdExists(arrayTypeSchemaRefId))
{
AddTypeToCodeDom(new KeyValuePair <string, OpenApiSchema>(arrayTypeSchemaRefId, existingSchema));
}
}
if (TypeAliasDic.TryGet(arrayTypeSchemaRefId, out string arrayTypeNameAlias))
{
if (!TypeRefHelper.IsSwaggerPrimitive(arrayTypeNameAlias))
{
return(Tuple.Create(ComponentsHelper.CreateArrayOfCustomTypeReference(arrayTypeNameAlias, 1), String.Empty));
}
else
{
var clrType = TypeRefHelper.PrimitiveSwaggerTypeToClrType(arrayTypeNameAlias, null);
return(Tuple.Create(ComponentsHelper.CreateArrayOfCustomTypeReference(clrType.FullName, 1), String.Empty));
}
}
else
{
return(Tuple.Create(ComponentsHelper.CreateArrayOfCustomTypeReference(arrayTypeWithNs, 1), String.Empty));
}
}
else
{
string arrayType = arrayItemsSchema.Type;
if (arrayItemsSchema.Enum != null && arrayItemsSchema.Enum.Count > 0)
{
string[] enumMemberNames;
try
{
enumMemberNames = (String.IsNullOrEmpty(arrayItemsSchema.Type) || arrayItemsSchema.Type == "string")
? arrayItemsSchema.Enum.Cast <OpenApiString>().Select(m => m.Value).ToArray()
: arrayItemsSchema.Enum.Cast <OpenApiInteger>().Select(m => "_" + m.Value.ToString()).ToArray();
}
catch (InvalidCastException ex)
{
throw new CodeGenException($"When dealing with {propertyName} of {arrayType}, error: {ex.Message}");
}
CodeTypeDeclaration existingDeclaration = FindEnumDeclaration(enumMemberNames);
if (existingDeclaration != null)
{
string existingTypeName = existingDeclaration.Name;
CodeTypeReference enumArrayReference = TypeRefHelper.CreateArrayOfCustomTypeReference(existingTypeName, 1);
return(Tuple.Create(enumArrayReference, String.Empty));
}
//warning about bad yaml design.
Trace.TraceWarning($"Property {NameFunc.RefineParameterName(propertyName)} has referenced some enum members {String.Join(", ", enumMemberNames)} which are not of any declared components.");
}
else if (arrayItemsSchema.Properties != null && arrayItemsSchema.Properties.Count > 0) // for casual type
{
string casualTypeName = typeDeclarationName + NameFunc.RefinePropertyName(propertyName);
CodeTypeDeclaration casualTypeDeclaration = AddTypeToClassNamespace(casualTypeName, ns); //stay with the namespace of the host class
AddProperties(casualTypeDeclaration, arrayItemsSchema, currentTypeName, ns);
return(Tuple.Create(ComponentsHelper.CreateArrayOfCustomTypeReference(casualTypeName, 1), casualTypeName));
}
Type clrType = TypeRefHelper.PrimitiveSwaggerTypeToClrType(arrayType, null);
return(Tuple.Create(TypeRefHelper.CreateArrayTypeReference(clrType, 1), String.Empty));
}
}
protected override void AddProperty(KeyValuePair <string, OpenApiSchema> p, CodeTypeDeclaration typeDeclaration, OpenApiSchema schema, string currentTypeName, string ns)
{
string propertyName = NameFunc.RefinePropertyName(p.Key);
if (propertyName == currentTypeName)
{
Trace.TraceWarning($"Property {propertyName} found with the same name of type {currentTypeName}, and it is renamed to {propertyName}1.");
propertyName += "1";
}
if (!Char.IsLetter(propertyName[0]) && propertyName[0] != '_')
{
propertyName = "_" + propertyName;
}
bool propertyNameAdjusted = propertyName != p.Key;
OpenApiSchema propertySchema = p.Value;
string primitivePropertyType = propertySchema.Type;
bool isPrimitiveType = TypeRefHelper.IsPrimitiveTypeOfOA(primitivePropertyType);
bool isRequired = schema.Required.Contains(p.Key); //compare with the original key
string defaultValue = GetDefaultValue(propertySchema);
CodeMemberField clientProperty;
if (String.IsNullOrEmpty(primitivePropertyType))
{
if (propertySchema.Reference != null)
{
string propertyTypeNs = NameFunc.GetNamespaceOfClassName(propertySchema.Reference.Id);
string propertyTypeName = NameFunc.RefineTypeName(propertySchema.Reference.Id, propertyTypeNs);
string propertyTypeWithNs = NameFunc.CombineNamespaceWithClassName(propertyTypeNs, propertyTypeName);
CodeTypeReference ctr = ComponentsHelper.TranslateTypeNameToClientTypeReference(propertyTypeWithNs);
clientProperty = CreateProperty(ctr, propertyName, defaultValue); //C#
}
else
{
if (propertySchema.Enum.Count > 0) //for casual enum
{
clientProperty = GenerateCasualEnumForProperty(propertySchema, typeDeclaration.Name, propertyName, ns, defaultValue, !isRequired || propertySchema.Nullable);
}
else
{
Tuple <CodeTypeReference, bool> r = CreateCodeTypeReferenceSchemaOf(propertySchema, currentTypeName, p.Key);
bool isClass = r.Item2;
if ((!settings.DisableSystemNullableByDefault && !isRequired || propertySchema.Nullable) && !isClass) //C#.
//if (!settings.DisableSystemNullableByDefault && !isClass && !isRequired || propertySchema.Nullable) //C#
{
clientProperty = CreateNullableProperty(r.Item1, propertyName);
}
else if (isClass && propertySchema.Nullable && settings.UseNullableReferenceType) //vimeo yaml declares a reference type as nullable.
{
clientProperty = CreateNullableProperty(r.Item1, propertyName);
}
else
{
clientProperty = CreateProperty(r.Item1, propertyName, defaultValue);
}
}
}
}
else
{
if (propertySchema.Type == "array") // for array
{
Tuple <CodeTypeReference, string> r = CreateArrayCodeTypeReference(propertySchema, typeDeclaration.Name, propertyName, currentTypeName, ns);
CodeTypeReference arrayCodeTypeReference = r.Item1;
string n = String.IsNullOrEmpty(r.Item2) ? propertyName : r.Item2;
clientProperty = CreateProperty(arrayCodeTypeReference, n, defaultValue);
}
else if (propertySchema.Enum.Count == 0 && propertySchema.Reference != null && !isPrimitiveType) // for complex type
{
CodeTypeReference complexCodeTypeReference = CreateComplexCodeTypeReference(propertySchema);
clientProperty = CreateProperty(complexCodeTypeReference, propertyName, defaultValue);
}
else if (propertySchema.Reference == null && propertySchema.Properties != null && propertySchema.Properties.Count > 0) // for casual type
{
string casualTypeName = currentTypeName + NameFunc.RefinePropertyName(propertyName);
CodeTypeDeclaration found = FindTypeDeclarationInNamespaces(casualTypeName, null); //It could happenen when generating sync and async functions in C#
if (found == null)
{
CodeTypeDeclaration casualTypeDeclaration = AddTypeToClassNamespace(casualTypeName, null); //stay with the namespace of the host class
AddProperties(casualTypeDeclaration, propertySchema, casualTypeName, null);
}
CodeTypeReference ctr = TypeRefHelper.TranslateToClientTypeReference(casualTypeName);
clientProperty = CreateProperty(ctr, propertyName, defaultValue);
}
else if (propertySchema.Type == "object" && propertySchema.AdditionalProperties != null) // for dictionary
{
CodeTypeReference dicKeyTypeRef = TypeRefHelper.TranslateToClientTypeReference(typeof(string));
CodeTypeReference dicValueTypeRef;
if (propertySchema.AdditionalProperties.Properties.Count == 0 && //not casual type
propertySchema.AdditionalProperties.Reference == null && // not complex type
propertySchema.AdditionalProperties.Items == null) // not casual array type
{
dicValueTypeRef = new CodeTypeReference(typeof(object));
}
else
{
dicValueTypeRef = PropertySchemaToCodeTypeReference(propertySchema.AdditionalProperties, typeDeclaration.Name, propertyName);
}
CodeTypeReference dicCtr = new CodeTypeReference(typeof(Dictionary <,>).FullName, dicKeyTypeRef, dicValueTypeRef); //for client codes, Dictionary is better than IDictionary, no worry of different implementation of IDictionary
clientProperty = CreateProperty(dicCtr, propertyName, null);
}
else if (propertySchema.Enum.Count == 0) // for primitive type
{
Type simpleType = TypeRefHelper.PrimitiveSwaggerTypeToClrType(primitivePropertyType, propertySchema.Format);
if ((!settings.DisableSystemNullableByDefault && !isRequired || propertySchema.Nullable) && !simpleType.IsClass) //C#
{
clientProperty = CreateNullableProperty(propertyName, simpleType, settings, propertySchema.Nullable);
}
else if (propertySchema.Nullable && simpleType.IsClass && settings.UseNullableReferenceType)
{
clientProperty = CreateNullableProperty(propertyName, simpleType, settings, propertySchema.Nullable);
}
else
{
clientProperty = CreateProperty(propertyName, simpleType, defaultValue);
}
}
else if (propertySchema.Enum.Count > 0 && propertySchema.Type == "string") // for enum
{
string[] enumMemberNames;
try
{
enumMemberNames = (String.IsNullOrEmpty(propertySchema.Type) || propertySchema.Type == "string")
? propertySchema.Enum.Cast <OpenApiString>().Select(m => m.Value).ToArray()
: propertySchema.Enum.Cast <OpenApiInteger>().Select(m => "_" + m.Value.ToString()).ToArray();
}
catch (InvalidCastException ex)
{
throw new CodeGenException($"When dealing with {propertyName} of {propertySchema.Type}, error: {ex.Message}");
}
CodeTypeDeclaration existingDeclaration = FindEnumDeclaration(enumMemberNames);
if (existingDeclaration != null)
{
string existingTypeName = existingDeclaration.Name;
CodeTypeReference enumReference = TypeRefHelper.TranslateToClientTypeReference(existingTypeName);
clientProperty = CreateProperty(enumReference, propertyName, String.IsNullOrEmpty(defaultValue) ? null : enumReference.BaseType + "." + defaultValue);
}
else
{
clientProperty = GenerateCasualEnumForProperty(propertySchema, typeDeclaration.Name, propertyName, ns, defaultValue, !isRequired || propertySchema.Nullable);
}
}
else if (propertySchema.Type != "string" && TypeAliasDic.TryGet(propertySchema.Type, out string aliasTypeName)) //check TypeAliasDic
{
CodeTypeReference r = new CodeTypeReference(aliasTypeName);
clientProperty = CreateProperty(r, propertyName, defaultValue);
}
else if (propertySchema.Reference != null)
{
CodeTypeReference complexCodeTypeReference = CreateComplexCodeTypeReference(propertySchema);
clientProperty = CreateProperty(complexCodeTypeReference, propertyName, String.IsNullOrEmpty(defaultValue) ? null : complexCodeTypeReference.BaseType + "." + defaultValue);
}
else // for casual enum
{
clientProperty = GenerateCasualEnumForProperty(propertySchema, typeDeclaration.Name, propertyName, ns, defaultValue, !isRequired || propertySchema.Nullable);
}
}
if (isRequired)
{
clientProperty.CustomAttributes.Add(new CodeAttributeDeclaration("System.ComponentModel.DataAnnotations.Required"));
}
if (settings.DecorateDataModelWithDataContract)
{
if (propertyNameAdjusted)
{
string originalPropertyName = p.Key;
clientProperty.CustomAttributes.Add(new CodeAttributeDeclaration("System.Runtime.Serialization.DataMember", new CodeAttributeArgument("Name", new CodeSnippetExpression($"\"{originalPropertyName}\""))));
}
else
{
clientProperty.CustomAttributes.Add(new CodeAttributeDeclaration("System.Runtime.Serialization.DataMember"));
}
}
if (settings.DataAnnotationsEnabled) //C#
{
AddValidationAttributes(propertySchema, clientProperty);
}
if (settings.DecorateDataModelWithPropertyName) //C#
{
string originalPropertyName = p.Key;
if (settings.UseSystemTextJson)
{
//[System.Text.Json.Serialization.JsonPropertyName("name")]
clientProperty.CustomAttributes.Add(new CodeAttributeDeclaration("System.Text.Json.Serialization.JsonPropertyName", new CodeAttributeArgument(new CodeSnippetExpression($"\"{originalPropertyName}\""))));
}
else
{
//[Newtonsoft.Json.JsonProperty(PropertyName = "name")]
clientProperty.CustomAttributes.Add(new CodeAttributeDeclaration("Newtonsoft.Json.JsonProperty", new CodeAttributeArgument("PropertyName", new CodeSnippetExpression($"\"{originalPropertyName}\""))));
}
}
CreateMemberDocComment(p, clientProperty);
typeDeclaration.Members.Add(clientProperty);
}