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comply/vendor/github.com/voxelbrain/goptions/flagset.go

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2019-07-14 16:51:10 +00:00
package goptions
import (
"errors"
"fmt"
"io"
"os"
"reflect"
"strings"
"sync"
)
// A FlagSet represents one set of flags which belong to one particular program.
// A FlagSet is also used to represent a subset of flags belonging to one verb.
type FlagSet struct {
// This HelpFunc will be called when PrintHelp() is called.
HelpFunc
// Name of the program. Might be used by HelpFunc.
Name string
helpFlag *Flag
remainderFlag *Flag
shortMap map[string]*Flag
longMap map[string]*Flag
verbFlag *Flag
// Global option flags
Flags []*Flag
// Verbs and corresponding FlagSets
Verbs map[string]*FlagSet
parent *FlagSet
}
// NewFlagSet returns a new FlagSet containing all the flags which result from
// parsing the tags of the struct. Said struct as to be passed to the function
// as a pointer.
// If a tag line is erroneous, NewFlagSet() panics as this is considered a
// compile time error rather than a runtme error.
func NewFlagSet(name string, v interface{}) *FlagSet {
structValue := reflect.ValueOf(v)
if structValue.Kind() != reflect.Ptr {
panic("Value type is not a pointer to a struct")
}
structValue = structValue.Elem()
if structValue.Kind() != reflect.Struct {
panic("Value type is not a pointer to a struct")
}
return newFlagset(name, structValue, nil)
}
// Internal version which skips type checking and takes the "parent"'s
// remainder flag as a parameter.
func newFlagset(name string, structValue reflect.Value, parent *FlagSet) *FlagSet {
var once sync.Once
r := &FlagSet{
Name: name,
Flags: make([]*Flag, 0),
HelpFunc: DefaultHelpFunc,
parent: parent,
}
if parent != nil && parent.remainderFlag != nil {
r.remainderFlag = parent.remainderFlag
}
var i int
// Parse Option fields
for i = 0; i < structValue.Type().NumField(); i++ {
// Skip unexported fields
if StartsWithLowercase(structValue.Type().Field(i).Name) {
continue
}
fieldValue := structValue.Field(i)
tag := structValue.Type().Field(i).Tag.Get("goptions")
flag, err := parseStructField(fieldValue, tag)
if err != nil {
panic(fmt.Sprintf("Invalid struct field: %s", err))
}
if fieldValue.Type().Name() == "Verbs" {
r.verbFlag = flag
break
}
if fieldValue.Type().Name() == "Help" {
r.helpFlag = flag
}
if fieldValue.Type().Name() == "Remainder" && r.remainderFlag == nil {
r.remainderFlag = flag
}
if len(tag) != 0 {
r.Flags = append(r.Flags, flag)
}
}
// Parse verb fields
for i++; i < structValue.Type().NumField(); i++ {
once.Do(func() {
r.Verbs = make(map[string]*FlagSet)
})
fieldValue := structValue.Field(i)
tag := structValue.Type().Field(i).Tag.Get("goptions")
r.Verbs[tag] = newFlagset(tag, fieldValue, r)
}
r.createMaps()
return r
}
var (
ErrHelpRequest = errors.New("Request for Help")
)
// Parse takes the command line arguments and sets the corresponding values
// in the FlagSet's struct.
func (fs *FlagSet) Parse(args []string) (err error) {
// Parse global flags
for len(args) > 0 {
if !((isLong(args[0]) && fs.hasLongFlag(args[0][2:])) ||
(isShort(args[0]) && fs.hasShortFlag(args[0][1:2]))) {
break
}
f := fs.FlagByName(args[0])
args, err = f.Parse(args)
if err != nil {
return
}
if f == fs.helpFlag && f.WasSpecified {
return ErrHelpRequest
}
}
// Process verb
if len(args) > 0 {
if verb, ok := fs.Verbs[args[0]]; ok {
fs.verbFlag.value.Set(reflect.ValueOf(Verbs(args[0])))
err := verb.Parse(args[1:])
if err != nil {
return err
}
args = args[0:0]
}
}
// Process remainder
if len(args) > 0 {
if fs.remainderFlag == nil {
return fmt.Errorf("Invalid trailing arguments: %v", args)
}
remainder := reflect.MakeSlice(fs.remainderFlag.value.Type(), len(args), len(args))
reflect.Copy(remainder, reflect.ValueOf(args))
fs.remainderFlag.value.Set(remainder)
}
// Check for unset, obligatory, single Flags
for _, f := range fs.Flags {
if f.Obligatory && !f.WasSpecified && len(f.MutexGroups) == 0 {
return fmt.Errorf("%s must be specified", f.Name())
}
}
// Check for multiple set Flags in one mutex group
// Check also for unset, obligatory mutex groups
mgs := fs.MutexGroups()
for _, mg := range mgs {
if !mg.IsValid() {
return fmt.Errorf("Exactly one of %s must be specified", strings.Join(mg.Names(), ", "))
}
}
return nil
}
func (fs *FlagSet) createMaps() {
fs.longMap = make(map[string]*Flag)
fs.shortMap = make(map[string]*Flag)
for _, flag := range fs.Flags {
fs.longMap[flag.Long] = flag
fs.shortMap[flag.Short] = flag
}
}
func (fs *FlagSet) hasLongFlag(fname string) bool {
_, ok := fs.longMap[fname]
return ok
}
func (fs *FlagSet) hasShortFlag(fname string) bool {
_, ok := fs.shortMap[fname]
return ok
}
func (fs *FlagSet) FlagByName(fname string) *Flag {
if isShort(fname) && fs.hasShortFlag(fname[1:2]) {
return fs.shortMap[fname[1:2]]
} else if isLong(fname) && fs.hasLongFlag(fname[2:]) {
return fs.longMap[fname[2:]]
}
return nil
}
// MutexGroups returns a map of Flag lists which contain mutually
// exclusive flags.
func (fs *FlagSet) MutexGroups() map[string]MutexGroup {
r := make(map[string]MutexGroup)
for _, f := range fs.Flags {
for _, mg := range f.MutexGroups {
if len(mg) == 0 {
continue
}
if _, ok := r[mg]; !ok {
r[mg] = make(MutexGroup, 0)
}
r[mg] = append(r[mg], f)
}
}
return r
}
// Prints the FlagSet's help to the given writer.
func (fs *FlagSet) PrintHelp(w io.Writer) {
fs.HelpFunc(w, fs)
}
func (fs *FlagSet) ParseAndFail(w io.Writer, args []string) {
err := fs.Parse(args)
if err != nil {
errCode := 0
if err != ErrHelpRequest {
errCode = 1
fmt.Fprintf(w, "Error: %s\n", err)
}
fs.PrintHelp(w)
os.Exit(errCode)
}
}
func StartsWithLowercase(s string) bool {
if len(s) <= 0 {
return false
}
return strings.ToLower(s)[0] == s[0]
}