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|
package flaggy
import (
"log"
"reflect"
"strings"
"unicode/utf8"
)
// Help represents the values needed to render a Help page
type Help struct {
Subcommands []HelpSubcommand
Positionals []HelpPositional
Flags []HelpFlag
UsageString string
CommandName string
PrependMessage string
AppendMessage string
Message string
Description string
}
// HelpSubcommand is used to template subcommand Help output
type HelpSubcommand struct {
ShortName string
LongName string
Description string
Position int
Spacer string
}
// HelpPositional is used to template positional Help output
type HelpPositional struct {
Name string
Description string
Required bool
Position int
DefaultValue string
Spacer string
}
// HelpFlag is used to template string flag Help output
type HelpFlag struct {
ShortName string
LongName string
Description string
DefaultValue string
Spacer string
}
// ExtractValues extracts Help template values from a subcommand and its parent
// parser. The parser is required in order to detect default flag settings
// for help and version output.
func (h *Help) ExtractValues(p *Parser, message string) {
// accept message string for output
h.Message = message
// extract Help values from the current subcommand in context
// prependMessage string
h.PrependMessage = p.subcommandContext.AdditionalHelpPrepend
// appendMessage string
h.AppendMessage = p.subcommandContext.AdditionalHelpAppend
// command name
h.CommandName = p.subcommandContext.Name
// description
h.Description = p.subcommandContext.Description
maxLength := getLongestNameLength(p.subcommandContext.Subcommands, 0)
// subcommands []HelpSubcommand
for _, cmd := range p.subcommandContext.Subcommands {
if cmd.Hidden {
continue
}
newHelpSubcommand := HelpSubcommand{
ShortName: cmd.ShortName,
LongName: cmd.Name,
Description: cmd.Description,
Position: cmd.Position,
Spacer: makeSpacer(cmd.Name, maxLength),
}
h.Subcommands = append(h.Subcommands, newHelpSubcommand)
}
maxLength = getLongestNameLength(p.subcommandContext.PositionalFlags, 0)
// parse positional flags into help output structs
for _, pos := range p.subcommandContext.PositionalFlags {
if pos.Hidden {
continue
}
newHelpPositional := HelpPositional{
Name: pos.Name,
Position: pos.Position,
Description: pos.Description,
Required: pos.Required,
DefaultValue: pos.defaultValue,
Spacer: makeSpacer(pos.Name, maxLength),
}
h.Positionals = append(h.Positionals, newHelpPositional)
}
maxLength = len(versionFlagLongName)
if len(helpFlagLongName) > maxLength {
maxLength = len(helpFlagLongName)
}
maxLength = getLongestNameLength(p.subcommandContext.Flags, maxLength)
maxLength = getLongestNameLength(p.Flags, maxLength)
// if the built-in version flag is enabled, then add it as a help flag
if p.ShowVersionWithVersionFlag {
defaultVersionFlag := HelpFlag{
ShortName: "",
LongName: versionFlagLongName,
Description: "Displays the program version string.",
DefaultValue: "",
Spacer: makeSpacer(versionFlagLongName, maxLength),
}
h.Flags = append(h.Flags, defaultVersionFlag)
}
// if the built-in help flag exists, then add it as a help flag
if p.ShowHelpWithHFlag {
defaultHelpFlag := HelpFlag{
ShortName: helpFlagShortName,
LongName: helpFlagLongName,
Description: "Displays help with available flag, subcommand, and positional value parameters.",
DefaultValue: "",
Spacer: makeSpacer(helpFlagLongName, maxLength),
}
h.Flags = append(h.Flags, defaultHelpFlag)
}
// go through every flag in the subcommand and add it to help output
h.parseFlagsToHelpFlags(p.subcommandContext.Flags, maxLength)
// go through every flag in the parent parser and add it to help output
h.parseFlagsToHelpFlags(p.Flags, maxLength)
// formulate the usage string
// first, we capture all the command and positional names by position
commandsByPosition := make(map[int]string)
for _, pos := range p.subcommandContext.PositionalFlags {
if pos.Hidden {
continue
}
if len(commandsByPosition[pos.Position]) > 0 {
commandsByPosition[pos.Position] = commandsByPosition[pos.Position] + "|" + pos.Name
} else {
commandsByPosition[pos.Position] = pos.Name
}
}
for _, cmd := range p.subcommandContext.Subcommands {
if cmd.Hidden {
continue
}
if len(commandsByPosition[cmd.Position]) > 0 {
commandsByPosition[cmd.Position] = commandsByPosition[cmd.Position] + "|" + cmd.Name
} else {
commandsByPosition[cmd.Position] = cmd.Name
}
}
// find the highest position count in the map
var highestPosition int
for i := range commandsByPosition {
if i > highestPosition {
highestPosition = i
}
}
// only have a usage string if there are positional items
var usageString string
if highestPosition > 0 {
// find each positional value and make our final string
usageString = p.subcommandContext.Name
for i := 1; i <= highestPosition; i++ {
if len(commandsByPosition[i]) > 0 {
usageString = usageString + " [" + commandsByPosition[i] + "]"
} else {
// dont keep listing after the first position without any properties
// it will be impossible to reach anything beyond here anyway
break
}
}
}
h.UsageString = usageString
}
// parseFlagsToHelpFlags parses the specified slice of flags into
// help flags on the the calling help command
func (h *Help) parseFlagsToHelpFlags(flags []*Flag, maxLength int) {
for _, f := range flags {
if f.Hidden {
continue
}
// parse help values out if the flag hasn't been parsed yet
if !f.parsed {
f.parsed = true
// parse the default value as a string and remember it for help output
f.defaultValue, _ = f.returnAssignmentVarValueAsString()
}
// determine the default value based on the assignment variable
defaultValue := f.defaultValue
// dont show nils
if defaultValue == "<nil>" {
defaultValue = ""
}
// for bools, dont show a default of false
_, isBool := f.AssignmentVar.(*bool)
if isBool {
b := f.AssignmentVar.(*bool)
if *b == false {
defaultValue = ""
}
}
newHelpFlag := HelpFlag{
ShortName: f.ShortName,
LongName: f.LongName,
Description: f.Description,
DefaultValue: defaultValue,
Spacer: makeSpacer(f.LongName, maxLength),
}
h.AddFlagToHelp(newHelpFlag)
}
}
// AddFlagToHelp adds a flag to help output if it does not exist
func (h *Help) AddFlagToHelp(f HelpFlag) {
for _, existingFlag := range h.Flags {
if len(existingFlag.ShortName) > 0 && existingFlag.ShortName == f.ShortName {
return
}
if len(existingFlag.LongName) > 0 && existingFlag.LongName == f.LongName {
return
}
}
h.Flags = append(h.Flags, f)
}
// getLongestNameLength takes a slice of any supported flag and returns the length of the longest of their names
func getLongestNameLength(slice interface{}, min int) int {
var maxLength = min
s := reflect.ValueOf(slice)
|
