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kong.go
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kong.go
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package kong
import (
"errors"
"fmt"
"io"
"os"
"path/filepath"
"reflect"
"regexp"
"strings"
)
var (
callbackReturnSignature = reflect.TypeOf((*error)(nil)).Elem()
)
func failField(parent reflect.Value, field reflect.StructField, format string, args ...interface{}) error {
name := parent.Type().Name()
if name == "" {
name = "<anonymous struct>"
}
return fmt.Errorf("%s.%s: %s", name, field.Name, fmt.Sprintf(format, args...))
}
// Must creates a new Parser or panics if there is an error.
func Must(ast interface{}, options ...Option) *Kong {
k, err := New(ast, options...)
if err != nil {
panic(err)
}
return k
}
type usageOnError int
const (
shortUsage usageOnError = iota + 1
fullUsage
)
// Kong is the main parser type.
type Kong struct {
// Grammar model.
Model *Application
// Termination function (defaults to os.Exit)
Exit func(int)
Stdout io.Writer
Stderr io.Writer
bindings bindings
loader ConfigurationLoader
resolvers []Resolver
registry *Registry
ignoreFields []*regexp.Regexp
noDefaultHelp bool
usageOnError usageOnError
help HelpPrinter
shortHelp HelpPrinter
helpFormatter HelpValueFormatter
helpOptions HelpOptions
helpFlag *Flag
groups []Group
vars Vars
flagNamer func(string) string
// Set temporarily by Options. These are applied after build().
postBuildOptions []Option
embedded []embedded
dynamicCommands []*dynamicCommand
}
// New creates a new Kong parser on grammar.
//
// See the README (https://github.com/alecthomas/kong) for usage instructions.
func New(grammar interface{}, options ...Option) (*Kong, error) {
k := &Kong{
Exit: os.Exit,
Stdout: os.Stdout,
Stderr: os.Stderr,
registry: NewRegistry().RegisterDefaults(),
vars: Vars{},
bindings: bindings{},
helpFormatter: DefaultHelpValueFormatter,
ignoreFields: make([]*regexp.Regexp, 0),
flagNamer: func(s string) string {
return strings.ToLower(dashedString(s))
},
}
options = append(options, Bind(k))
for _, option := range options {
if err := option.Apply(k); err != nil {
return nil, err
}
}
if k.help == nil {
k.help = DefaultHelpPrinter
}
if k.shortHelp == nil {
k.shortHelp = DefaultShortHelpPrinter
}
model, err := build(k, grammar)
if err != nil {
return k, err
}
model.Name = filepath.Base(os.Args[0])
k.Model = model
k.Model.HelpFlag = k.helpFlag
// Embed any embedded structs.
for _, embed := range k.embedded {
tag, err := parseTagString(strings.Join(embed.tags, " "))
if err != nil {
return nil, err
}
tag.Embed = true
v := reflect.Indirect(reflect.ValueOf(embed.strct))
node, err := buildNode(k, v, CommandNode, tag, map[string]bool{})
if err != nil {
return nil, err
}
for _, child := range node.Children {
child.Parent = k.Model.Node
k.Model.Children = append(k.Model.Children, child)
}
k.Model.Flags = append(k.Model.Flags, node.Flags...)
}
// Synthesise command nodes.
for _, dcmd := range k.dynamicCommands {
tag, terr := parseTagString(strings.Join(dcmd.tags, " "))
if terr != nil {
return nil, terr
}
tag.Name = dcmd.name
tag.Help = dcmd.help
tag.Group = dcmd.group
tag.Cmd = true
v := reflect.Indirect(reflect.ValueOf(dcmd.cmd))
err = buildChild(k, k.Model.Node, CommandNode, reflect.Value{}, reflect.StructField{
Name: dcmd.name,
Type: v.Type(),
}, v, tag, dcmd.name, map[string]bool{})
if err != nil {
return nil, err
}
}
for _, option := range k.postBuildOptions {
if err = option.Apply(k); err != nil {
return nil, err
}
}
k.postBuildOptions = nil
if err = k.interpolate(k.Model.Node); err != nil {
return nil, err
}
k.bindings.add(k.vars)
if err = checkOverlappingXorAnd(k); err != nil {
return nil, err
}
return k, nil
}
func checkOverlappingXorAnd(k *Kong) error {
xorGroups := map[string][]string{}
andGroups := map[string][]string{}
for _, flag := range k.Model.Node.Flags {
for _, xor := range flag.Xor {
xorGroups[xor] = append(xorGroups[xor], flag.Name)
}
for _, and := range flag.And {
andGroups[and] = append(andGroups[and], flag.Name)
}
}
for xor, xorSet := range xorGroups {
for and, andSet := range andGroups {
overlappingEntries := []string{}
for _, xorTag := range xorSet {
for _, andTag := range andSet {
if xorTag == andTag {
overlappingEntries = append(overlappingEntries, xorTag)
}
}
}
if len(overlappingEntries) > 1 {
return fmt.Errorf("invalid xor and combination, %s and %s overlap with more than one: %s", xor, and, overlappingEntries)
}
}
}
return nil
}
type varStack []Vars
func (v *varStack) head() Vars { return (*v)[len(*v)-1] }
func (v *varStack) pop() { *v = (*v)[:len(*v)-1] }
func (v *varStack) push(vars Vars) Vars {
if len(*v) != 0 {
vars = (*v)[len(*v)-1].CloneWith(vars)
}
*v = append(*v, vars)
return vars
}
// Interpolate variables into model.
func (k *Kong) interpolate(node *Node) (err error) {
stack := varStack{}
return Visit(node, func(node Visitable, next Next) error {
switch node := node.(type) {
case *Node:
vars := stack.push(node.Vars())
node.Help, err = interpolate(node.Help, vars, nil)
if err != nil {
return fmt.Errorf("help for %s: %s", node.Path(), err)
}
err = next(nil)
stack.pop()
return err
case *Value:
return next(k.interpolateValue(node, stack.head()))
}
return next(nil)
})
}
func (k *Kong) interpolateValue(value *Value, vars Vars) (err error) {
if len(value.Tag.Vars) > 0 {
vars = vars.CloneWith(value.Tag.Vars)
}
if varsContributor, ok := value.Mapper.(VarsContributor); ok {
vars = vars.CloneWith(varsContributor.Vars(value))
}
if value.Enum, err = interpolate(value.Enum, vars, nil); err != nil {
return fmt.Errorf("enum for %s: %s", value.Summary(), err)
}
if value.Default, err = interpolate(value.Default, vars, nil); err != nil {
return fmt.Errorf("default value for %s: %s", value.Summary(), err)
}
if value.Enum, err = interpolate(value.Enum, vars, nil); err != nil {
return fmt.Errorf("enum value for %s: %s", value.Summary(), err)
}
updatedVars := map[string]string{
"default": value.Default,
"enum": value.Enum,
}
if value.Flag != nil {
for i, env := range value.Flag.Envs {
if value.Flag.Envs[i], err = interpolate(env, vars, updatedVars); err != nil {
return fmt.Errorf("env value for %s: %s", value.Summary(), err)
}
}
value.Tag.Envs = value.Flag.Envs
updatedVars["env"] = ""
if len(value.Flag.Envs) != 0 {
updatedVars["env"] = value.Flag.Envs[0]
}
}
value.Help, err = interpolate(value.Help, vars, updatedVars)
if err != nil {
return fmt.Errorf("help for %s: %s", value.Summary(), err)
}
return nil
}
// Provide additional builtin flags, if any.
func (k *Kong) extraFlags() []*Flag {
if k.noDefaultHelp {
return nil
}
var helpTarget helpValue
value := reflect.ValueOf(&helpTarget).Elem()
helpFlag := &Flag{
Short: 'h',
Value: &Value{
Name: "help",
Help: "Show context-sensitive help.",
OrigHelp: "Show context-sensitive help.",
Target: value,
Tag: &Tag{},
Mapper: k.registry.ForValue(value),
DefaultValue: reflect.ValueOf(false),
},
}
helpFlag.Flag = helpFlag
k.helpFlag = helpFlag
return []*Flag{helpFlag}
}
// Parse arguments into target.
//
// The return Context can be used to further inspect the parsed command-line, to format help, to find the
// selected command, to run command Run() methods, and so on. See Context and README for more information.
//
// Will return a ParseError if a *semantically* invalid command-line is encountered (as opposed to a syntactically
// invalid one, which will report a normal error).
func (k *Kong) Parse(args []string) (ctx *Context, err error) {
ctx, err = Trace(k, args)
if err != nil {
return nil, err
}
if ctx.Error != nil {
return nil, &ParseError{error: ctx.Error, Context: ctx}
}
if err = k.applyHook(ctx, "BeforeReset"); err != nil {
return nil, &ParseError{error: err, Context: ctx}
}
if err = ctx.Reset(); err != nil {
return nil, &ParseError{error: err, Context: ctx}
}
if err = k.applyHook(ctx, "BeforeResolve"); err != nil {
return nil, &ParseError{error: err, Context: ctx}
}
if err = ctx.Resolve(); err != nil {
return nil, &ParseError{error: err, Context: ctx}
}
if err = k.applyHook(ctx, "BeforeApply"); err != nil {
return nil, &ParseError{error: err, Context: ctx}
}
if _, err = ctx.Apply(); err != nil {
return nil, &ParseError{error: err, Context: ctx}
}
if err = ctx.Validate(); err != nil {
return nil, &ParseError{error: err, Context: ctx}
}
if err = k.applyHook(ctx, "AfterApply"); err != nil {
return nil, &ParseError{error: err, Context: ctx}
}
return ctx, nil
}
func (k *Kong) applyHook(ctx *Context, name string) error {
for _, trace := range ctx.Path {
var value reflect.Value
switch {
case trace.App != nil:
value = trace.App.Target
case trace.Argument != nil:
value = trace.Argument.Target
case trace.Command != nil:
value = trace.Command.Target
case trace.Positional != nil:
value = trace.Positional.Target
case trace.Flag != nil:
value = trace.Flag.Value.Target
default:
panic("unsupported Path")
}
for _, method := range getMethods(value, name) {
binds := k.bindings.clone()
binds.add(ctx, trace)
binds.add(trace.Node().Vars().CloneWith(k.vars))
binds.merge(ctx.bindings)
if err := callFunction(method, binds); err != nil {
return err
}
}
}
// Path[0] will always be the app root.
return k.applyHookToDefaultFlags(ctx, ctx.Path[0].Node(), name)
}
// Call hook on any unset flags with default values.
func (k *Kong) applyHookToDefaultFlags(ctx *Context, node *Node, name string) error {
if node == nil {
return nil
}
return Visit(node, func(n Visitable, next Next) error {
node, ok := n.(*Node)
if !ok {
return next(nil)
}
binds := k.bindings.clone().add(ctx).add(node.Vars().CloneWith(k.vars))
for _, flag := range node.Flags {
if !flag.HasDefault || ctx.values[flag.Value].IsValid() || !flag.Target.IsValid() {
continue
}
for _, method := range getMethods(flag.Target, name) {
path := &Path{Flag: flag}
if err := callFunction(method, binds.clone().add(path)); err != nil {
return next(err)
}
}
}
return next(nil)
})
}
func formatMultilineMessage(w io.Writer, leaders []string, format string, args ...interface{}) {
lines := strings.Split(strings.TrimRight(fmt.Sprintf(format, args...), "\n"), "\n")
leader := ""
for _, l := range leaders {
if l == "" {
continue
}
leader += l + ": "
}
fmt.Fprintf(w, "%s%s\n", leader, lines[0])
for _, line := range lines[1:] {
fmt.Fprintf(w, "%*s%s\n", len(leader), " ", line)
}
}
// Printf writes a message to Kong.Stdout with the application name prefixed.
func (k *Kong) Printf(format string, args ...interface{}) *Kong {
formatMultilineMessage(k.Stdout, []string{k.Model.Name}, format, args...)
return k
}
// Errorf writes a message to Kong.Stderr with the application name prefixed.
func (k *Kong) Errorf(format string, args ...interface{}) *Kong {
formatMultilineMessage(k.Stderr, []string{k.Model.Name, "error"}, format, args...)
return k
}
// Fatalf writes a message to Kong.Stderr with the application name prefixed then exits with a non-zero status.
func (k *Kong) Fatalf(format string, args ...interface{}) {
k.Errorf(format, args...)
k.Exit(1)
}
// FatalIfErrorf terminates with an error message if err != nil.
func (k *Kong) FatalIfErrorf(err error, args ...interface{}) {
if err == nil {
return
}
msg := err.Error()
if len(args) > 0 {
msg = fmt.Sprintf(args[0].(string), args[1:]...) + ": " + err.Error() //nolint
}
// Maybe display usage information.
var parseErr *ParseError
if errors.As(err, &parseErr) {
switch k.usageOnError {
case fullUsage:
_ = k.help(k.helpOptions, parseErr.Context)
fmt.Fprintln(k.Stdout)
case shortUsage:
_ = k.shortHelp(k.helpOptions, parseErr.Context)
fmt.Fprintln(k.Stdout)
}
}
k.Fatalf("%s", msg)
}
// LoadConfig from path using the loader configured via Configuration(loader).
//
// "path" will have ~ and any variables expanded.
func (k *Kong) LoadConfig(path string) (Resolver, error) {
var err error
path = ExpandPath(path)
path, err = interpolate(path, k.vars, nil)
if err != nil {
return nil, err
}
r, err := os.Open(path) //nolint: gas
if err != nil {
return nil, err
}
defer r.Close()
return k.loader(r)
}