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build.go
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build.go
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package kong
import (
"fmt"
"reflect"
"strings"
)
// Plugins are dynamically embedded command-line structures.
//
// Each element in the Plugins list *must* be a pointer to a structure.
type Plugins []interface{}
func build(k *Kong, ast interface{}) (app *Application, err error) {
v := reflect.ValueOf(ast)
iv := reflect.Indirect(v)
if v.Kind() != reflect.Ptr || iv.Kind() != reflect.Struct {
return nil, fmt.Errorf("expected a pointer to a struct but got %T", ast)
}
app = &Application{}
extraFlags := k.extraFlags()
seenFlags := map[string]bool{}
for _, flag := range extraFlags {
seenFlags[flag.Name] = true
}
node, err := buildNode(k, iv, ApplicationNode, newEmptyTag(), seenFlags)
if err != nil {
return nil, err
}
if len(node.Positional) > 0 && len(node.Children) > 0 {
return nil, fmt.Errorf("can't mix positional arguments and branching arguments on %T", ast)
}
app.Node = node
app.Node.Flags = append(extraFlags, app.Node.Flags...)
app.Tag = newEmptyTag()
app.Tag.Vars = k.vars
return app, nil
}
func dashedString(s string) string {
return strings.Join(camelCase(s), "-")
}
type flattenedField struct {
field reflect.StructField
value reflect.Value
tag *Tag
}
func flattenedFields(v reflect.Value, ptag *Tag) (out []flattenedField, err error) {
v = reflect.Indirect(v)
if v.Kind() != reflect.Struct {
return out, nil
}
for i := 0; i < v.NumField(); i++ {
ft := v.Type().Field(i)
fv := v.Field(i)
tag, err := parseTag(v, ft)
if err != nil {
return nil, err
}
if tag.Ignored {
continue
}
// Assign group if it's not already set.
if tag.Group == "" {
tag.Group = ptag.Group
}
// Accumulate prefixes.
tag.Prefix = ptag.Prefix + tag.Prefix
tag.EnvPrefix = ptag.EnvPrefix + tag.EnvPrefix
// Combine parent vars.
tag.Vars = ptag.Vars.CloneWith(tag.Vars)
// Command and embedded structs can be pointers, so we hydrate them now.
if (tag.Cmd || tag.Embed) && ft.Type.Kind() == reflect.Ptr {
fv = reflect.New(ft.Type.Elem()).Elem()
v.FieldByIndex(ft.Index).Set(fv.Addr())
}
if !ft.Anonymous && !tag.Embed {
if fv.CanSet() {
field := flattenedField{field: ft, value: fv, tag: tag}
out = append(out, field)
}
continue
}
// Embedded type.
if fv.Kind() == reflect.Interface {
fv = fv.Elem()
} else if fv.Type() == reflect.TypeOf(Plugins{}) {
for i := 0; i < fv.Len(); i++ {
fields, ferr := flattenedFields(fv.Index(i).Elem(), tag)
if ferr != nil {
return nil, ferr
}
out = append(out, fields...)
}
continue
}
sub, err := flattenedFields(fv, tag)
if err != nil {
return nil, err
}
out = append(out, sub...)
}
return out, nil
}
// Build a Node in the Kong data model.
//
// "v" is the value to create the node from, "typ" is the output Node type.
func buildNode(k *Kong, v reflect.Value, typ NodeType, tag *Tag, seenFlags map[string]bool) (*Node, error) {
node := &Node{
Type: typ,
Target: v,
Tag: tag,
}
fields, err := flattenedFields(v, tag)
if err != nil {
return nil, err
}
MAIN:
for _, field := range fields {
for _, r := range k.ignoreFields {
if r.MatchString(v.Type().Name() + "." + field.field.Name) {
continue MAIN
}
}
ft := field.field
fv := field.value
tag := field.tag
name := tag.Name
if name == "" {
name = tag.Prefix + k.flagNamer(ft.Name)
} else {
name = tag.Prefix + name
}
if len(tag.Envs) != 0 {
for i := range tag.Envs {
tag.Envs[i] = tag.EnvPrefix + tag.Envs[i]
}
}
// Nested structs are either commands or args, unless they implement the Mapper interface.
if field.value.Kind() == reflect.Struct && (tag.Cmd || tag.Arg) && k.registry.ForValue(fv) == nil {
typ := CommandNode
if tag.Arg {
typ = ArgumentNode
}
err = buildChild(k, node, typ, v, ft, fv, tag, name, seenFlags)
} else {
err = buildField(k, node, v, ft, fv, tag, name, seenFlags)
}
if err != nil {
return nil, err
}
}
// Validate if there are no duplicate names
if err := checkDuplicateNames(node, v); err != nil {
return nil, err
}
// "Unsee" flags.
for _, flag := range node.Flags {
delete(seenFlags, "--"+flag.Name)
if flag.Short != 0 {
delete(seenFlags, "-"+string(flag.Short))
}
if negFlag := negatableFlagName(flag.Name, flag.Tag.Negatable); negFlag != "" {
delete(seenFlags, negFlag)
}
for _, aflag := range flag.Aliases {
delete(seenFlags, "--"+aflag)
}
}
if err := validatePositionalArguments(node); err != nil {
return nil, err
}
return node, nil
}
func validatePositionalArguments(node *Node) error {
var last *Value
for i, curr := range node.Positional {
if last != nil {
// Scan through argument positionals to ensure optional is never before a required.
if !last.Required && curr.Required {
return fmt.Errorf("%s: required %q cannot come after optional %q", node.FullPath(), curr.Name, last.Name)
}
// Cumulative argument needs to be last.
if last.IsCumulative() {
return fmt.Errorf("%s: argument %q cannot come after cumulative %q", node.FullPath(), curr.Name, last.Name)
}
}
last = curr
curr.Position = i
}
return nil
}
func buildChild(k *Kong, node *Node, typ NodeType, v reflect.Value, ft reflect.StructField, fv reflect.Value, tag *Tag, name string, seenFlags map[string]bool) error {
child, err := buildNode(k, fv, typ, newEmptyTag(), seenFlags)
if err != nil {
return err
}
child.Name = name
child.Tag = tag
child.Parent = node
child.Help = tag.Help
child.Hidden = tag.Hidden
child.Group = buildGroupForKey(k, tag.Group)
child.Aliases = tag.Aliases
if provider, ok := fv.Addr().Interface().(HelpProvider); ok {
child.Detail = provider.Help()
}
// A branching argument. This is a bit hairy, as we let buildNode() do the parsing, then check that
// a positional argument is provided to the child, and move it to the branching argument field.
if tag.Arg {
if len(child.Positional) == 0 {
return failField(v, ft, "positional branch must have at least one child positional argument named %q", name)
}
if child.Positional[0].Name != name {
return failField(v, ft, "first field in positional branch must have the same name as the parent field (%s).", child.Name)
}
child.Argument = child.Positional[0]
child.Positional = child.Positional[1:]
if child.Help == "" {
child.Help = child.Argument.Help
}
} else {
if tag.HasDefault {
if node.DefaultCmd != nil {
return failField(v, ft, "can't have more than one default command under %s", node.Summary())
}
if tag.Default != "withargs" && (len(child.Children) > 0 || len(child.Positional) > 0) {
return failField(v, ft, "default command %s must not have subcommands or arguments", child.Summary())
}
node.DefaultCmd = child
}
if tag.Passthrough {
if len(child.Children) > 0 || len(child.Flags) > 0 {
return failField(v, ft, "passthrough command %s must not have subcommands or flags", child.Summary())
}
if len(child.Positional) != 1 {
return failField(v, ft, "passthrough command %s must contain exactly one positional argument", child.Summary())
}
if !checkPassthroughArg(child.Positional[0].Target) {
return failField(v, ft, "passthrough command %s must contain exactly one positional argument of []string type", child.Summary())
}
child.Passthrough = true
}
}
node.Children = append(node.Children, child)
if len(child.Positional) > 0 && len(child.Children) > 0 {
return failField(v, ft, "can't mix positional arguments and branching arguments")
}
return nil
}
func buildField(k *Kong, node *Node, v reflect.Value, ft reflect.StructField, fv reflect.Value, tag *Tag, name string, seenFlags map[string]bool) error {
mapper := k.registry.ForNamedValue(tag.Type, fv)
if mapper == nil {
return failField(v, ft, "unsupported field type %s, perhaps missing a cmd:\"\" tag?", ft.Type)
}
value := &Value{
Name: name,
Help: tag.Help,
OrigHelp: tag.Help,
HasDefault: tag.HasDefault,
Default: tag.Default,
DefaultValue: reflect.New(fv.Type()).Elem(),
Mapper: mapper,
Tag: tag,
Target: fv,
Enum: tag.Enum,
Passthrough: tag.Passthrough,
PassthroughMode: tag.PassthroughMode,
// Flags are optional by default, and args are required by default.
Required: (!tag.Arg && tag.Required) || (tag.Arg && !tag.Optional),
Format: tag.Format,
}
if tag.Arg {
node.Positional = append(node.Positional, value)
} else {
if seenFlags["--"+value.Name] {
return failField(v, ft, "duplicate flag --%s", value.Name)
}
seenFlags["--"+value.Name] = true
for _, alias := range tag.Aliases {
aliasFlag := "--" + alias
if seenFlags[aliasFlag] {
return failField(v, ft, "duplicate flag %s", aliasFlag)
}
seenFlags[aliasFlag] = true
}
if tag.Short != 0 {
if seenFlags["-"+string(tag.Short)] {
return failField(v, ft, "duplicate short flag -%c", tag.Short)
}
seenFlags["-"+string(tag.Short)] = true
}
if tag.Negatable != "" {
negFlag := negatableFlagName(value.Name, tag.Negatable)
if seenFlags[negFlag] {
return failField(v, ft, "duplicate negation flag %s", negFlag)
}
seenFlags[negFlag] = true
}
flag := &Flag{
Value: value,
Aliases: tag.Aliases,
Short: tag.Short,
PlaceHolder: tag.PlaceHolder,
Envs: tag.Envs,
Group: buildGroupForKey(k, tag.Group),
Xor: tag.Xor,
And: tag.And,
Hidden: tag.Hidden,
}
value.Flag = flag
node.Flags = append(node.Flags, flag)
}
return nil
}
func buildGroupForKey(k *Kong, key string) *Group {
if key == "" {
return nil
}
for _, group := range k.groups {
if group.Key == key {
return &group
}
}
// No group provided with kong.ExplicitGroups. We create one ad-hoc for this key.
return &Group{
Key: key,
Title: key,
}
}
func checkDuplicateNames(node *Node, v reflect.Value) error {
seenNames := make(map[string]struct{})
for _, node := range node.Children {
if _, ok := seenNames[node.Name]; ok {
name := v.Type().Name()
if name == "" {
name = "<anonymous struct>"
}
return fmt.Errorf("duplicate command name %q in command %q", node.Name, name)
}
seenNames[node.Name] = struct{}{}
}
return nil
}