Esempio n. 1
0
func TestTypeResolver_AnonymousStructs(t *testing.T) {

	_, resolver, err := basicTaskListResolver(t)
	if assert.NoError(t, err) {
		// anonymous structs should be accounted for
		parent := new(spec.Schema)
		parent.Typed("object", "")
		parent.Properties = make(map[string]spec.Schema)
		parent.Properties["name"] = *spec.StringProperty()
		parent.Properties["age"] = *spec.Int32Property()

		rt, err := resolver.ResolveSchema(parent, true)
		if assert.NoError(t, err) {
			assert.False(t, rt.IsNullable)
			assert.True(t, rt.IsAnonymous)
			assert.True(t, rt.IsComplexObject)
		}

		parent.Extensions = make(spec.Extensions)
		parent.Extensions["x-isnullable"] = true

		rt, err = resolver.ResolveSchema(parent, true)
		if assert.NoError(t, err) {
			assert.True(t, rt.IsNullable)
			assert.True(t, rt.IsAnonymous)
			assert.True(t, rt.IsComplexObject)
		}
	}
}
Esempio n. 2
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func TestTypeResolver_AdditionalItems(t *testing.T) {
	_, resolver, err := basicTaskListResolver(t)
	tpe := spec.StringProperty()
	if assert.NoError(t, err) {
		// arrays of primitives and string formats with additional formats
		for _, val := range schTypeVals {
			var sch spec.Schema
			sch.Typed(val.Type, val.Format)
			var coll spec.Schema
			coll.Type = []string{"array"}
			coll.Items = new(spec.SchemaOrArray)
			coll.Items.Schema = tpe
			coll.AdditionalItems = new(spec.SchemaOrBool)
			coll.AdditionalItems.Schema = &sch

			rt, err := resolver.ResolveSchema(&coll, true)
			if assert.NoError(t, err) && assert.True(t, rt.IsArray) {
				assert.True(t, rt.HasAdditionalItems)
				assert.False(t, rt.IsNullable)
				//if assert.NotNil(t, rt.ElementType) {
				//assertPrimitiveResolve(t, "string", "", "string", *rt.ElementType)
				//}
			}
		}
	}
}
Esempio n. 3
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func (sg *schemaGenContext) buildItems() error {
	presentsAsSingle := sg.Schema.Items != nil && sg.Schema.Items.Schema != nil
	if presentsAsSingle && sg.Schema.AdditionalItems != nil { // unsure if htis a valid of invalid schema
		return fmt.Errorf("single schema (%s) can't have additional items", sg.Name)
	}
	if presentsAsSingle {
		return sg.buildArray()
	}
	if sg.Schema.Items != nil {
		// This is a tuple, build a new model that represents this
		if sg.Named {
			sg.GenSchema.Name = sg.Name
			sg.GenSchema.GoType = swag.ToGoName(sg.Name)
			if sg.TypeResolver.ModelsPackage != "" {
				sg.GenSchema.GoType = sg.TypeResolver.ModelsPackage + "." + sg.GenSchema.GoType
			}
			for i, s := range sg.Schema.Items.Schemas {
				elProp := sg.NewTupleElement(&s, i)
				if err := elProp.makeGenSchema(); err != nil {
					return err
				}
				sg.MergeResult(elProp)
				elProp.GenSchema.Name = "p" + strconv.Itoa(i)
				sg.GenSchema.Properties = append(sg.GenSchema.Properties, elProp.GenSchema)
			}
			return nil
		}

		// for an anonoymous object, first build the new object
		// and then replace the current one with a $ref to the
		// new tuple object
		var sch spec.Schema
		sch.Typed("object", "")
		sch.Properties = make(map[string]spec.Schema)
		for i, v := range sg.Schema.Items.Schemas {
			sch.Required = append(sch.Required, "P"+strconv.Itoa(i))
			sch.Properties["P"+strconv.Itoa(i)] = v
		}
		sch.AdditionalItems = sg.Schema.AdditionalItems
		tup := sg.makeNewStruct(sg.GenSchema.Name+"Tuple"+strconv.Itoa(sg.Index), sch)
		if err := tup.makeGenSchema(); err != nil {
			return err
		}
		tup.GenSchema.IsTuple = true
		tup.GenSchema.IsComplexObject = false
		tup.GenSchema.Title = tup.GenSchema.Name + " a representation of an anonymous Tuple type"
		tup.GenSchema.Description = ""
		sg.ExtraSchemas[tup.Name] = tup.GenSchema

		sg.Schema = *spec.RefProperty("#/definitions/" + tup.Name)
		if err := sg.makeGenSchema(); err != nil {
			return err
		}
		sg.MergeResult(tup)

	}
	return nil
}
Esempio n. 4
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func TestTypeResolver_TupleTypes(t *testing.T) {
	_, resolver, err := basicTaskListResolver(t)
	if assert.NoError(t, err) {
		// tuple type (items with multiple schemas)
		parent := new(spec.Schema)
		parent.Typed("array", "")
		parent.Items = new(spec.SchemaOrArray)
		parent.Items.Schemas = append(
			parent.Items.Schemas,
			*spec.StringProperty(),
			*spec.Int64Property(),
			*spec.Float64Property(),
			*spec.BoolProperty(),
			*spec.ArrayProperty(spec.StringProperty()),
			*spec.RefProperty("#/definitions/Comment"),
		)

		rt, err := resolver.ResolveSchema(parent, true)
		if assert.NoError(t, err) {
			assert.False(t, rt.IsArray)
			assert.True(t, rt.IsTuple)
		}
	}
}
Esempio n. 5
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func TestTypeResolver_BasicTypes(t *testing.T) {

	_, resolver, err := basicTaskListResolver(t)
	if assert.NoError(t, err) {

		// primitives and string formats
		for _, val := range schTypeVals {
			sch := new(spec.Schema)
			sch.Typed(val.Type, val.Format)

			rt, err := resolver.ResolveSchema(sch, true)
			if assert.NoError(t, err) {
				assert.False(t, rt.IsNullable)
				assertPrimitiveResolve(t, val.Type, val.Format, val.Expected, rt)
			}
		}

		// arrays of primitives and string formats
		for _, val := range schTypeVals {
			var sch spec.Schema
			sch.Typed(val.Type, val.Format)
			rt, err := resolver.ResolveSchema(new(spec.Schema).CollectionOf(sch), true)
			if assert.NoError(t, err) {
				assert.True(t, rt.IsArray)
			}
		}

		// primitives and string formats
		for _, val := range schTypeVals {
			sch := new(spec.Schema)
			sch.Typed(val.Type, val.Format)
			sch.Extensions = make(spec.Extensions)
			sch.Extensions["x-isnullable"] = true

			rt, err := resolver.ResolveSchema(sch, true)
			if assert.NoError(t, err) {
				assert.True(t, rt.IsNullable, "expected %q (%q) to be nullable", val.Type, val.Format)
				assertPrimitiveResolve(t, val.Type, val.Format, val.Expected, rt)
			}
		}

		// arrays of primitives and string formats
		for _, val := range schTypeVals {
			var sch spec.Schema
			sch.Typed(val.Type, val.Format)
			sch.AddExtension("x-isnullable", true)

			rt, err := resolver.ResolveSchema(new(spec.Schema).CollectionOf(sch), true)
			if assert.NoError(t, err) {
				assert.True(t, rt.IsArray)
			}
		}

	}

}
Esempio n. 6
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func TestTypeResolver_ObjectType(t *testing.T) {
	_, resolver, err := basicTaskListResolver(t)
	resolver.ModelName = "TheModel"
	defer func() { resolver.ModelName = "" }()

	if assert.NoError(t, err) {
		//very poor schema definitions (as in none)
		types := []string{"object", ""}
		for _, tpe := range types {
			sch := new(spec.Schema)
			sch.Typed(tpe, "")
			rt, err := resolver.ResolveSchema(sch, true)
			if assert.NoError(t, err) {
				assert.True(t, rt.IsMap)
				assert.False(t, rt.IsComplexObject)
				assert.Equal(t, "map[string]interface{}", rt.GoType)
				assert.Equal(t, "object", rt.SwaggerType)
			}

			sch.Properties = make(map[string]spec.Schema)
			var ss spec.Schema
			sch.Properties["tags"] = *(&ss).CollectionOf(*spec.StringProperty())
			rt, err = resolver.ResolveSchema(sch, false)
			assert.True(t, rt.IsComplexObject)
			assert.False(t, rt.IsMap)
			assert.Equal(t, "models.TheModel", rt.GoType)
			assert.Equal(t, "object", rt.SwaggerType)

			sch.Properties = nil
			nsch := new(spec.Schema)
			nsch.Typed(tpe, "")
			nsch.AllOf = []spec.Schema{*sch}
			rt, err = resolver.ResolveSchema(nsch, false)
			if assert.NoError(t, err) {
				assert.True(t, rt.IsComplexObject)
				assert.False(t, rt.IsMap)
				assert.Equal(t, "models.TheModel", rt.GoType)
				assert.Equal(t, "object", rt.SwaggerType)
			}
		}
		sch := new(spec.Schema)
		rt, err := resolver.ResolveSchema(sch, true)
		if assert.NoError(t, err) {
			assert.True(t, rt.IsMap)
			assert.False(t, rt.IsComplexObject)
			assert.Equal(t, "map[string]interface{}", rt.GoType)
			assert.Equal(t, "object", rt.SwaggerType)

		}
		sch = new(spec.Schema)
		var sp spec.Schema
		sp.Typed("object", "")
		sch.AllOf = []spec.Schema{sp}
		rt, err = resolver.ResolveSchema(sch, true)
		if assert.NoError(t, err) {
			assert.True(t, rt.IsComplexObject)
			assert.False(t, rt.IsMap)
			assert.Equal(t, "models.TheModel", rt.GoType)
			assert.Equal(t, "object", rt.SwaggerType)
		}
	}
}
Esempio n. 7
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func TestTypeResolver_AdditionalProperties(t *testing.T) {
	_, resolver, err := basicTaskListResolver(t)
	if assert.NoError(t, err) {

		// primitives as additional properties
		for _, val := range schTypeVals {
			sch := new(spec.Schema)

			sch.Typed(val.Type, val.Format)
			parent := new(spec.Schema)
			parent.AdditionalProperties = new(spec.SchemaOrBool)
			parent.AdditionalProperties.Schema = sch

			rt, err := resolver.ResolveSchema(parent, true)
			if assert.NoError(t, err) {
				assert.True(t, rt.IsMap)
				assert.False(t, rt.IsComplexObject)
				assert.Equal(t, "map[string]"+val.Expected, rt.GoType)
				assert.Equal(t, "object", rt.SwaggerType)
			}
		}

		// array of primitives as additional properties
		for _, val := range schTypeVals {
			sch := new(spec.Schema)

			sch.Typed(val.Type, val.Format)
			parent := new(spec.Schema)
			parent.AdditionalProperties = new(spec.SchemaOrBool)
			parent.AdditionalProperties.Schema = new(spec.Schema).CollectionOf(*sch)

			rt, err := resolver.ResolveSchema(parent, true)
			if assert.NoError(t, err) {
				assert.True(t, rt.IsMap)
				assert.False(t, rt.IsComplexObject)
				assert.Equal(t, "map[string][]"+val.Expected, rt.GoType)
				assert.Equal(t, "object", rt.SwaggerType)
			}
		}

		// refs as additional properties
		for _, val := range schRefVals {
			sch := new(spec.Schema)
			sch.Ref, _ = spec.NewRef("#/definitions/" + val.Type)
			parent := new(spec.Schema)
			parent.AdditionalProperties = new(spec.SchemaOrBool)
			parent.AdditionalProperties.Schema = sch

			rt, err := resolver.ResolveSchema(parent, true)
			if assert.NoError(t, err) {
				assert.True(t, rt.IsMap)
				assert.False(t, rt.IsComplexObject)
				assert.Equal(t, "map[string]"+val.Expected, rt.GoType)
				assert.Equal(t, "object", rt.SwaggerType)
			}
		}

		// when additional properties and properties present, it's a complex object

		// primitives as additional properties
		for _, val := range schTypeVals {
			sch := new(spec.Schema)

			sch.Typed(val.Type, val.Format)
			parent := new(spec.Schema)
			parent.Properties = make(map[string]spec.Schema)
			parent.Properties["id"] = *spec.Int32Property()
			parent.AdditionalProperties = new(spec.SchemaOrBool)
			parent.AdditionalProperties.Schema = sch

			rt, err := resolver.ResolveSchema(parent, true)
			if assert.NoError(t, err) {
				assert.True(t, rt.IsComplexObject)
				assert.False(t, rt.IsMap)
				assert.Equal(t, "map[string]"+val.Expected, rt.GoType)
				assert.Equal(t, "object", rt.SwaggerType)
			}
		}

		// array of primitives as additional properties
		for _, val := range schTypeVals {
			sch := new(spec.Schema)

			sch.Typed(val.Type, val.Format)
			parent := new(spec.Schema)
			parent.Properties = make(map[string]spec.Schema)
			parent.Properties["id"] = *spec.Int32Property()
			parent.AdditionalProperties = new(spec.SchemaOrBool)
			parent.AdditionalProperties.Schema = new(spec.Schema).CollectionOf(*sch)

			rt, err := resolver.ResolveSchema(parent, true)
			if assert.NoError(t, err) {
				assert.True(t, rt.IsComplexObject)
				assert.False(t, rt.IsMap)
				assert.Equal(t, "map[string][]"+val.Expected, rt.GoType)
				assert.Equal(t, "object", rt.SwaggerType)
			}
		}

		// refs as additional properties
		for _, val := range schRefVals {
			sch := new(spec.Schema)
			sch.Ref, _ = spec.NewRef("#/definitions/" + val.Type)
			parent := new(spec.Schema)
			parent.Properties = make(map[string]spec.Schema)
			parent.Properties["id"] = *spec.Int32Property()
			parent.AdditionalProperties = new(spec.SchemaOrBool)
			parent.AdditionalProperties.Schema = sch

			rt, err := resolver.ResolveSchema(parent, true)
			if assert.NoError(t, err) {
				assert.True(t, rt.IsComplexObject)
				assert.False(t, rt.IsMap)
				assert.Equal(t, "map[string]"+val.Expected, rt.GoType)
				assert.Equal(t, "object", rt.SwaggerType)
			}
		}

	}
}