Example #1
0
func (g *Generator) generateOperation(b *descriptor.Binding) *spec.Operation {
	response := new(spec.Response)
	responses := new(spec.Responses)

	op := new(spec.Operation)
	op.Tags = make([]string, 0)
	op.Parameters = make([]spec.Parameter, 0)

	op.ID = strings.ToLower(b.Method.GetName())

	// op.Consumes = []string{"application/x-www-form-urlencoded", "application/json", "application/x-protobuf"}
	// op.Produces = []string{"application/json", "application/x-protobuf"}
	if cmt := g.file.GetCommentText(b.Method.CommentPath); cmt != nil {
		// TODO(ceram1): Cut by newline to extract summary, like golang.
		op.Summary = *cmt
		_ = strings.Index(*cmt, "\n\n") // idx to cut comment.

		op.Description = *cmt
	}

	for _, param := range b.PathParams {
		p := g.generatePathParameter(&param)
		op.Parameters = append(op.Parameters, *p)
	}

	response.Ref = messageRef(b.Method.ResponseType)

	responses.Default = response
	op.Responses = responses
	return op
}
Example #2
0
func (pp *paramStructParser) parseStructType(gofile *ast.File, operation *spec.Operation, tpe *ast.StructType, seenPreviously map[string]spec.Parameter) error {
	if tpe.Fields != nil {
		pt := seenPreviously

		for _, fld := range tpe.Fields.List {
			if len(fld.Names) == 0 {
				// when the embedded struct is annotated with swagger:allOf it will be used as allOf property
				// otherwise the fields will just be included as normal properties
				if err := pp.parseEmbeddedStruct(gofile, operation, fld.Type, pt); err != nil {
					return err
				}
			}
		}

		for _, fld := range tpe.Fields.List {
			var nm, gnm string
			if len(fld.Names) > 0 && fld.Names[0] != nil && fld.Names[0].IsExported() {
				nm = fld.Names[0].Name
				gnm = nm
				if fld.Tag != nil && len(strings.TrimSpace(fld.Tag.Value)) > 0 {
					tv, err := strconv.Unquote(fld.Tag.Value)
					if err != nil {
						return err
					}

					if strings.TrimSpace(tv) != "" {
						st := reflect.StructTag(tv)
						jsonTag := st.Get("json")
						if jsonTag != "" && jsonTag != "-" {
							nm = strings.Split(jsonTag, ",")[0]
						}
					}
				}

				in := "query"
				// scan for param location first, this changes some behavior down the line
				if fld.Doc != nil {
					for _, cmt := range fld.Doc.List {
						for _, line := range strings.Split(cmt.Text, "\n") {
							matches := rxIn.FindStringSubmatch(line)
							if len(matches) > 0 && len(strings.TrimSpace(matches[1])) > 0 {
								in = strings.TrimSpace(matches[1])
							}
						}
					}
				}

				ps := pt[nm]
				ps.In = in
				var pty swaggerTypable = paramTypable{&ps}
				if in == "body" {
					pty = schemaTypable{pty.Schema(), 0}
				}
				if err := parseProperty(pp.scp, gofile, fld.Type, pty); err != nil {
					return err
				}

				sp := new(sectionedParser)
				sp.setDescription = func(lines []string) { ps.Description = joinDropLast(lines) }
				if ps.Ref.GetURL() == nil {
					sp.taggers = []tagParser{
						newSingleLineTagParser("maximum", &setMaximum{paramValidations{&ps}, rxf(rxMaximumFmt, "")}),
						newSingleLineTagParser("minimum", &setMinimum{paramValidations{&ps}, rxf(rxMinimumFmt, "")}),
						newSingleLineTagParser("multipleOf", &setMultipleOf{paramValidations{&ps}, rxf(rxMultipleOfFmt, "")}),
						newSingleLineTagParser("minLength", &setMinLength{paramValidations{&ps}, rxf(rxMinLengthFmt, "")}),
						newSingleLineTagParser("maxLength", &setMaxLength{paramValidations{&ps}, rxf(rxMaxLengthFmt, "")}),
						newSingleLineTagParser("pattern", &setPattern{paramValidations{&ps}, rxf(rxPatternFmt, "")}),
						newSingleLineTagParser("collectionFormat", &setCollectionFormat{paramValidations{&ps}, rxf(rxCollectionFormatFmt, "")}),
						newSingleLineTagParser("minItems", &setMinItems{paramValidations{&ps}, rxf(rxMinItemsFmt, "")}),
						newSingleLineTagParser("maxItems", &setMaxItems{paramValidations{&ps}, rxf(rxMaxItemsFmt, "")}),
						newSingleLineTagParser("unique", &setUnique{paramValidations{&ps}, rxf(rxUniqueFmt, "")}),
						newSingleLineTagParser("required", &setRequiredParam{&ps}),
						newSingleLineTagParser("in", &matchOnlyParam{&ps, rxIn}),
					}

					itemsTaggers := func(items *spec.Items, 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{itemsValidations{items}, rxf(rxMaximumFmt, itemsPrefix)}),
							newSingleLineTagParser(fmt.Sprintf("items%dMinimum", level), &setMinimum{itemsValidations{items}, rxf(rxMinimumFmt, itemsPrefix)}),
							newSingleLineTagParser(fmt.Sprintf("items%dMultipleOf", level), &setMultipleOf{itemsValidations{items}, rxf(rxMultipleOfFmt, itemsPrefix)}),
							newSingleLineTagParser(fmt.Sprintf("items%dMinLength", level), &setMinLength{itemsValidations{items}, rxf(rxMinLengthFmt, itemsPrefix)}),
							newSingleLineTagParser(fmt.Sprintf("items%dMaxLength", level), &setMaxLength{itemsValidations{items}, rxf(rxMaxLengthFmt, itemsPrefix)}),
							newSingleLineTagParser(fmt.Sprintf("items%dPattern", level), &setPattern{itemsValidations{items}, rxf(rxPatternFmt, itemsPrefix)}),
							newSingleLineTagParser(fmt.Sprintf("items%dCollectionFormat", level), &setCollectionFormat{itemsValidations{items}, rxf(rxCollectionFormatFmt, itemsPrefix)}),
							newSingleLineTagParser(fmt.Sprintf("items%dMinItems", level), &setMinItems{itemsValidations{items}, rxf(rxMinItemsFmt, itemsPrefix)}),
							newSingleLineTagParser(fmt.Sprintf("items%dMaxItems", level), &setMaxItems{itemsValidations{items}, rxf(rxMaxItemsFmt, itemsPrefix)}),
							newSingleLineTagParser(fmt.Sprintf("items%dUnique", level), &setUnique{itemsValidations{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 {
							switch iftpe := ftpe.Elt.(type) {
							case *ast.ArrayType:
								eleTaggers := itemsTaggers(items, level)
								sp.taggers = append(eleTaggers, sp.taggers...)
								ftpe = iftpe
							case *ast.Ident:
								if iftpe.Obj == nil {
									sp.taggers = append(itemsTaggers(items, level), sp.taggers...)
								}
								break
							default:
								return fmt.Errorf("unknown field type ele for %q", nm)
							}
							items = items.Items
							level = level + 1
						}
					}

				} else {

					sp.taggers = []tagParser{
						newSingleLineTagParser("required", &matchOnlyParam{&ps, rxRequired}),
						newSingleLineTagParser("in", &matchOnlyParam{&ps, rxIn}),
					}
				}
				if err := sp.Parse(fld.Doc); err != nil {
					return err
				}

				if ps.Name == "" {
					ps.Name = nm
				}

				if nm != gnm {
					ps.AddExtension("x-go-name", gnm)
				}
				pt[nm] = ps
			}
		}

		for k, p := range pt {
			for i, v := range operation.Parameters {
				if v.Name == k {
					operation.Parameters = append(operation.Parameters[:i], operation.Parameters[i+1:]...)
					break
				}
			}
			operation.Parameters = append(operation.Parameters, p)
		}
	}

	return nil
}
Example #3
0
func buildOperation(route *revel.Route) *spec.Operation {
	var (
		typeInfo   *harness.TypeInfo
		methodSpec *harness.MethodSpec
	)

	info, rerr := harness.ProcessSource(revel.CodePaths)
	if rerr != nil {
		panic(rerr) // TODO EMPTY PANIC
	}

	// get the TypeInfo and MethodSpec for this route
	for _, cinfo := range info.ControllerSpecs() {
		typeInfo = cinfo // TODO move inside if (get around compiler complaint)
		if route.ControllerName == typeInfo.StructName {
			for _, spec := range cinfo.MethodSpecs {
				if route.MethodName == spec.Name {
					methodSpec = spec
					break
				}
			}
			break
		}
	}

	op := new(spec.Operation)
	// TODO op.Description
	// this will probably require either editing harness.ProcessSource to also grab comments OR
	// to copy that functionality and modify it
	op.Consumes = ContentTypes
	op.Produces = ContentTypes
	op.AddExtension("x-revel-action", route.Action)

	for i, arg := range methodSpec.Args {
		// skip over fixed paramters that match up to the arguments
		if i < len(route.FixedParams) {
			continue
		}
		var param spec.Parameter
		param.Name = arg.Name
		param.Type = arg.TypeExpr.Expr

		// TODO review
		// TODO: better path vs query vs body vs multipart
		count := strings.Count(route.Path, ":") + strings.Count(route.Path, "*")
		if i < count {
			param.In = "path"
		} else {
			param.In = "body"
		}
		op.Parameters = append(op.Parameters, param)
	}

	// TODO RenderCalls
	// fmt.Printf("route:       %#v\n", route)
	// fmt.Printf("typeInfo:    %#v\n", typeInfo)
	// fmt.Printf("methodSpec: %#v\n", methodSpec)
	// for _, call := range methodSpec.RenderCalls {
	// 	fmt.Printf("\tcall: %#v\n", call)
	// }

	/*
		"responses": {
		  "200": {
		    "description": "A list of pets.",
		    "schema": {
		      "type": "array",
		      "items": {
		        "$ref": "#/definitions/Pet"
		      }
		    }
		  }
		}
	*/

	return op
}