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package api
import (
"bytes"
"fmt"
"regexp"
"sort"
"strings"
"text/template"
)
// An Operation defines a specific API Operation.
type Operation struct {
API *API `json:"-"`
ExportedName string
Name string
Documentation string
HTTP HTTPInfo
InputRef ShapeRef `json:"input"`
OutputRef ShapeRef `json:"output"`
Paginator *Paginator
Deprecated bool `json:"deprecated"`
}
// A HTTPInfo defines the method of HTTP request for the Operation.
type HTTPInfo struct {
Method string
RequestURI string
ResponseCode uint
}
// HasInput returns if the Operation accepts an input paramater
func (o *Operation) HasInput() bool {
return o.InputRef.ShapeName != ""
}
// HasOutput returns if the Operation accepts an output parameter
func (o *Operation) HasOutput() bool {
return o.OutputRef.ShapeName != ""
}
// tplOperation defines a template for rendering an API Operation
var tplOperation = template.Must(template.New("operation").Parse(`
const op{{ .ExportedName }} = "{{ .Name }}"
// {{ .ExportedName }}Request generates a request for the {{ .ExportedName }} operation.
func (c *{{ .API.StructName }}) {{ .ExportedName }}Request(` +
`input {{ .InputRef.GoType }}) (req *request.Request, output {{ .OutputRef.GoType }}) {
{{ if (or .Deprecated (or .InputRef.Deprecated .OutputRef.Deprecated)) }}if c.Client.Config.Logger != nil {
c.Client.Config.Logger.Log("This operation, {{ .ExportedName }}, has been deprecated")
}
op := &request.Operation{ {{ else }} op := &request.Operation{ {{ end }}
Name: op{{ .ExportedName }},
{{ if ne .HTTP.Method "" }}HTTPMethod: "{{ .HTTP.Method }}",
{{ end }}{{ if ne .HTTP.RequestURI "" }}HTTPPath: "{{ .HTTP.RequestURI }}",
{{ end }}{{ if .Paginator }}Paginator: &request.Paginator{
InputTokens: {{ .Paginator.InputTokensString }},
OutputTokens: {{ .Paginator.OutputTokensString }},
LimitToken: "{{ .Paginator.LimitKey }}",
TruncationToken: "{{ .Paginator.MoreResults }}",
},
{{ end }}
}
if input == nil {
input = &{{ .InputRef.GoTypeElem }}{}
}
req = c.newRequest(op, input, output){{ if eq .OutputRef.Shape.Placeholder true }}
req.Handlers.Unmarshal.Remove({{ .API.ProtocolPackage }}.UnmarshalHandler)
req.Handlers.Unmarshal.PushBackNamed(protocol.UnmarshalDiscardBodyHandler){{ end }}
output = &{{ .OutputRef.GoTypeElem }}{}
req.Data = output
return
}
{{ .Documentation }}func (c *{{ .API.StructName }}) {{ .ExportedName }}(` +
`input {{ .InputRef.GoType }}) ({{ .OutputRef.GoType }}, error) {
req, out := c.{{ .ExportedName }}Request(input)
err := req.Send()
return out, err
}
{{ if .Paginator }}
func (c *{{ .API.StructName }}) {{ .ExportedName }}Pages(` +
`input {{ .InputRef.GoType }}, fn func(p {{ .OutputRef.GoType }}, lastPage bool) (shouldContinue bool)) error {
page, _ := c.{{ .ExportedName }}Request(input)
page.Handlers.Build.PushBack(request.MakeAddToUserAgentFreeFormHandler("Paginator"))
return page.EachPage(func(p interface{}, lastPage bool) bool {
return fn(p.({{ .OutputRef.GoType }}), lastPage)
})
}
{{ end }}
`))
// GoCode returns a string of rendered GoCode for this Operation
func (o *Operation) GoCode() string {
var buf bytes.Buffer
err := tplOperation.Execute(&buf, o)
if err != nil {
panic(err)
}
return strings.TrimSpace(buf.String())
}
// tplInfSig defines the template for rendering an Operation's signature within an Interface definition.
var tplInfSig = template.Must(template.New("opsig").Parse(`
{{ .ExportedName }}Request({{ .InputRef.GoTypeWithPkgName }}) (*request.Request, {{ .OutputRef.GoTypeWithPkgName }})
{{ .ExportedName }}({{ .InputRef.GoTypeWithPkgName }}) ({{ .OutputRef.GoTypeWithPkgName }}, error)
{{ if .Paginator }}
{{ .ExportedName }}Pages({{ .InputRef.GoTypeWithPkgName }}, func({{ .OutputRef.GoTypeWithPkgName }}, bool) bool) error{{ end }}
`))
// InterfaceSignature returns a string representing the Operation's interface{}
// functional signature.
func (o *Operation) InterfaceSignature() string {
var buf bytes.Buffer
err := tplInfSig.Execute(&buf, o)
if err != nil {
panic(err)
}
return strings.TrimSpace(buf.String())
}
// tplExample defines the template for rendering an Operation example
var tplExample = template.Must(template.New("operationExample").Parse(`
func Example{{ .API.StructName }}_{{ .ExportedName }}() {
svc := {{ .API.PackageName }}.New(session.New())
{{ .ExampleInput }}
resp, err := svc.{{ .ExportedName }}(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
`))
// Example returns a string of the rendered Go code for the Operation
func (o *Operation) Example() string {
var buf bytes.Buffer
err := tplExample.Execute(&buf, o)
if err != nil {
panic(err)
}
return strings.TrimSpace(buf.String())
}
// ExampleInput return a string of the rendered Go code for an example's input parameters
func (o *Operation) ExampleInput() string {
if len(o.InputRef.Shape.MemberRefs) == 0 {
return fmt.Sprintf("var params *%s.%s",
o.API.PackageName(), o.InputRef.GoTypeElem())
}
e := example{o, map[string]int{}}
return "params := " + e.traverseAny(o.InputRef.Shape, false, false)
}
// A example provides
type example struct {
*Operation
visited map[string]int
}
// traverseAny returns rendered Go code for the shape.
func (e *example) traverseAny(s *Shape, required, payload bool) string {
str := ""
e.visited[s.ShapeName]++
switch s.Type {
case "structure":
str = e.traverseStruct(s, required, payload)
case "list":
str = e.traverseList(s, required, payload)
case "map":
str = e.traverseMap(s, required, payload)
default:
str = e.traverseScalar(s, required, payload)
}
e.visited[s.ShapeName]--
return str
}
var reType = regexp.MustCompile(`\b([A-Z])`)
// traverseStruct returns rendered Go code for a structure type shape.
func (e *example) traverseStruct(s *Shape, required, payload bool) string {
var buf bytes.Buffer
buf.WriteString("&" + s.API.PackageName() + "." + s.GoTypeElem() + "{")
if required {
buf.WriteString(" // Required")
}
buf.WriteString("\n")
req := make([]string, len(s.Required))
copy(req, s.Required)
sort.Strings(req)
if e.visited[s.ShapeName] < 2 {
for _, n := range req {
m := s.MemberRefs[n].Shape
p := n == s.Payload && (s.MemberRefs[n].Streaming || m.Streaming)
buf.WriteString(n + ": " + e.traverseAny(m, true, p) + ",")
if m.Type != "list" && m.Type != "structure" && m.Type != "map" {
buf.WriteString(" // Required")
}
buf.WriteString("\n")
}
for _, n := range s.MemberNames() {
if s.IsRequired(n) {
continue
}
m := s.MemberRefs[n].Shape
p := n == s.Payload && (s.MemberRefs[n].Streaming || m.Streaming)
buf.WriteString(n + ": " + e.traverseAny(m, false, p) + ",\n")
}
} else {
buf.WriteString("// Recursive values...\n")
}
buf.WriteString("}")
return buf.String()
}
// traverseMap returns rendered Go code for a map type shape.
func (e *example) traverseMap(s *Shape, required, payload bool) string {
var buf bytes.Buffer
t := reType.ReplaceAllString(s.GoTypeElem(), s.API.PackageName()+".$1")
buf.WriteString(t + "{")
if required {
buf.WriteString(" // Required")
}
buf.WriteString("\n")
if e.visited[s.ShapeName] < 2 {
m := s.ValueRef.Shape
buf.WriteString("\"Key\": " + e.traverseAny(m, true, false) + ",")
if m.Type != "list" && m.Type != "structure" && m.Type != "map" {
buf.WriteString(" // Required")
}
buf.WriteString("\n// More values...\n")
} else {
buf.WriteString("// Recursive values...\n")
}
buf.WriteString("}")
return buf.String()
}
// traverseList returns rendered Go code for a list type shape.
func (e *example) traverseList(s *Shape, required, payload bool) string {
var buf bytes.Buffer
t := reType.ReplaceAllString(s.GoTypeElem(), s.API.PackageName()+".$1")
buf.WriteString(t + "{")
if required {
buf.WriteString(" // Required")
}
buf.WriteString("\n")
if e.visited[s.ShapeName] < 2 {
m := s.MemberRef.Shape
buf.WriteString(e.traverseAny(m, true, false) + ",")
if m.Type != "list" && m.Type != "structure" && m.Type != "map" {
buf.WriteString(" // Required")
}
buf.WriteString("\n// More values...\n")
} else {
buf.WriteString("// Recursive values...\n")
}
buf.WriteString("}")
return buf.String()
}
// traverseScalar returns an AWS Type string representation initialized to a value.
// Will panic if s is an unsupported shape type.
func (e *example) traverseScalar(s *Shape, required, payload bool) string {
str := ""
switch s.Type {
case "integer", "long":
str = `aws.Int64(1)`
case "float", "double":
str = `aws.Float64(1.0)`
case "string", "character":
str = `aws.String("` + s.ShapeName + `")`
case "blob":
if payload {
str = `bytes.NewReader([]byte("PAYLOAD"))`
} else {
str = `[]byte("PAYLOAD")`
}
case "boolean":
str = `aws.Bool(true)`
case "timestamp":
str = `aws.Time(time.Now())`
default:
panic("unsupported shape " + s.Type)
}
return str
}
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