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) } } } }