コード例 #1
0
ファイル: openapi_test.go プロジェクト: simonswine/kubernetes
func (_ TestInput) OpenAPIDefinition() *common.OpenAPIDefinition {
	schema := spec.Schema{}
	schema.Description = "Test input"
	schema.Properties = map[string]spec.Schema{
		"name": {
			SchemaProps: spec.SchemaProps{
				Description: "Name of the input",
				Type:        []string{"string"},
				Format:      "",
			},
		},
		"id": {
			SchemaProps: spec.SchemaProps{
				Description: "ID of the input",
				Type:        []string{"integer"},
				Format:      "int32",
			},
		},
		"tags": {
			SchemaProps: spec.SchemaProps{
				Description: "",
				Type:        []string{"array"},
				Items: &spec.SchemaOrArray{
					Schema: &spec.Schema{
						SchemaProps: spec.SchemaProps{
							Type:   []string{"string"},
							Format: "",
						},
					},
				},
			},
		},
	}
	return &common.OpenAPIDefinition{
		Schema:       schema,
		Dependencies: []string{},
	}
}
コード例 #2
0
ファイル: openapi_test.go プロジェクト: simonswine/kubernetes
func (_ TestOutput) OpenAPIDefinition() *common.OpenAPIDefinition {
	schema := spec.Schema{}
	schema.Description = "Test output"
	schema.Properties = map[string]spec.Schema{
		"name": {
			SchemaProps: spec.SchemaProps{
				Description: "Name of the output",
				Type:        []string{"string"},
				Format:      "",
			},
		},
		"count": {
			SchemaProps: spec.SchemaProps{
				Description: "Number of outputs",
				Type:        []string{"integer"},
				Format:      "int32",
			},
		},
	}
	return &common.OpenAPIDefinition{
		Schema:       schema,
		Dependencies: []string{},
	}
}
コード例 #3
0
ファイル: schema.go プロジェクト: xiwenc/go-swagger
func (scp *schemaParser) createParser(nm string, schema, ps *spec.Schema, fld *ast.Field) *sectionedParser {

	sp := new(sectionedParser)
	sp.setDescription = func(lines []string) { ps.Description = joinDropLast(lines) }
	if ps.Ref.String() == "" {
		sp.taggers = []tagParser{
			newSingleLineTagParser("maximum", &setMaximum{schemaValidations{ps}, rxf(rxMaximumFmt, "")}),
			newSingleLineTagParser("minimum", &setMinimum{schemaValidations{ps}, rxf(rxMinimumFmt, "")}),
			newSingleLineTagParser("multipleOf", &setMultipleOf{schemaValidations{ps}, rxf(rxMultipleOfFmt, "")}),
			newSingleLineTagParser("minLength", &setMinLength{schemaValidations{ps}, rxf(rxMinLengthFmt, "")}),
			newSingleLineTagParser("maxLength", &setMaxLength{schemaValidations{ps}, rxf(rxMaxLengthFmt, "")}),
			newSingleLineTagParser("pattern", &setPattern{schemaValidations{ps}, rxf(rxPatternFmt, "")}),
			newSingleLineTagParser("minItems", &setMinItems{schemaValidations{ps}, rxf(rxMinItemsFmt, "")}),
			newSingleLineTagParser("maxItems", &setMaxItems{schemaValidations{ps}, rxf(rxMaxItemsFmt, "")}),
			newSingleLineTagParser("unique", &setUnique{schemaValidations{ps}, rxf(rxUniqueFmt, "")}),
			newSingleLineTagParser("required", &setRequiredSchema{schema, nm}),
			newSingleLineTagParser("readOnly", &setReadOnlySchema{ps}),
			newSingleLineTagParser("discriminator", &setDiscriminator{schema, nm}),
		}

		itemsTaggers := func(items *spec.Schema, level int) []tagParser {
			// the expression is 1-index based not 0-index
			itemsPrefix := fmt.Sprintf(rxItemsPrefixFmt, level+1)
			return []tagParser{
				newSingleLineTagParser(fmt.Sprintf("items%dMaximum", level), &setMaximum{schemaValidations{items}, rxf(rxMaximumFmt, itemsPrefix)}),
				newSingleLineTagParser(fmt.Sprintf("items%dMinimum", level), &setMinimum{schemaValidations{items}, rxf(rxMinimumFmt, itemsPrefix)}),
				newSingleLineTagParser(fmt.Sprintf("items%dMultipleOf", level), &setMultipleOf{schemaValidations{items}, rxf(rxMultipleOfFmt, itemsPrefix)}),
				newSingleLineTagParser(fmt.Sprintf("items%dMinLength", level), &setMinLength{schemaValidations{items}, rxf(rxMinLengthFmt, itemsPrefix)}),
				newSingleLineTagParser(fmt.Sprintf("items%dMaxLength", level), &setMaxLength{schemaValidations{items}, rxf(rxMaxLengthFmt, itemsPrefix)}),
				newSingleLineTagParser(fmt.Sprintf("items%dPattern", level), &setPattern{schemaValidations{items}, rxf(rxPatternFmt, itemsPrefix)}),
				newSingleLineTagParser(fmt.Sprintf("items%dMinItems", level), &setMinItems{schemaValidations{items}, rxf(rxMinItemsFmt, itemsPrefix)}),
				newSingleLineTagParser(fmt.Sprintf("items%dMaxItems", level), &setMaxItems{schemaValidations{items}, rxf(rxMaxItemsFmt, itemsPrefix)}),
				newSingleLineTagParser(fmt.Sprintf("items%dUnique", level), &setUnique{schemaValidations{items}, rxf(rxUniqueFmt, itemsPrefix)}),
			}

		}
		// check if this is a primitive, if so parse the validations from the
		// doc comments of the slice declaration.
		if ftped, ok := fld.Type.(*ast.ArrayType); ok {
			ftpe := ftped
			items, level := ps.Items, 0
			for items != nil && items.Schema != nil {
				switch iftpe := ftpe.Elt.(type) {
				case *ast.ArrayType:
					eleTaggers := itemsTaggers(items.Schema, level)
					sp.taggers = append(eleTaggers, sp.taggers...)
					ftpe = iftpe
				case *ast.Ident:
					if iftpe.Obj == nil {
						sp.taggers = append(itemsTaggers(items.Schema, level), sp.taggers...)
					}
					break
					//default:
					//return fmt.Errorf("unknown field type (%T) ele for %q", iftpe, nm)
				}
				items = items.Schema.Items
				level = level + 1
			}
		}
	} else {
		sp.taggers = []tagParser{
			newSingleLineTagParser("required", &setRequiredSchema{schema, nm}),
		}
	}
	return sp
}