// paramsStructMap returns the string representation of a map of values func (f paramFiller) paramsStructMap(value map[string]interface{}, shape *api.Shape) string { out := f.typeName(shape) + "{\n" keys := utilsort.SortedKeys(value) for _, k := range keys { v := value[k] out += fmt.Sprintf("%q: %s,\n", k, f.paramsStructAny(v, shape.ValueRef.Shape)) } out += "}" return out }
// GenerateAssertions builds assertions for a shape based on its type. // // The shape's recursive values also will have assertions generated for them. func GenerateAssertions(out interface{}, shape *api.Shape, prefix string) string { switch t := out.(type) { case map[string]interface{}: keys := utilsort.SortedKeys(t) code := "" if shape.Type == "map" { for _, k := range keys { v := t[k] s := shape.ValueRef.Shape code += GenerateAssertions(v, s, prefix+"[\""+k+"\"]") } } else { for _, k := range keys { v := t[k] m := findMember(shape, k) s := shape.MemberRefs[m].Shape code += GenerateAssertions(v, s, prefix+"."+m+"") } } return code case []interface{}: code := "" for i, v := range t { s := shape.MemberRef.Shape code += GenerateAssertions(v, s, prefix+"["+strconv.Itoa(i)+"]") } return code default: switch shape.Type { case "timestamp": return fmt.Sprintf("assert.Equal(t, time.Unix(%#v, 0).UTC().String(), %s.String())\n", out, prefix) case "blob": return fmt.Sprintf("assert.Equal(t, %#v, string(%s))\n", out, prefix) case "integer", "long": return fmt.Sprintf("assert.Equal(t, int64(%#v), *%s)\n", out, prefix) default: return fmt.Sprintf("assert.Equal(t, %#v, *%s)\n", out, prefix) } } }