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v/vlib/flag/flag.v

500 lines
14 KiB
V

module flag
// module flag for command-line flag parsing
//
// - parsing flags like '--flag' or '--stuff=things' or '--things stuff'
// - handles bool, int, float and string args
// - is able to print usage
// - handled unknown arguments as error
//
// Usage example:
//
// ```v
// module main
//
// import os
// import flag
//
// fn main() {
// mut fp := flag.new_flag_parser(os.args)
// fp.application('flag_example_tool')
// fp.version('v0.0.0')
// fp.description('This tool is only designed to show how the flag lib is working')
//
// fp.skip_executable()
//
// an_int := fp.int('an_int', 666, 'some int to define 666 is default')
// a_bool := fp.bool('a_bool', false, 'some \'real\' flag')
// a_float := fp.float('a_float', 1.0, 'also floats')
// a_string := fp.string('a_string', 'no text', 'finally, some text')
//
// additional_args := fp.finalize() or {
// eprintln(err)
// println(fp.usage())
// return
// }
//
// println('
// an_int: $an_int
// a_bool: $a_bool
// a_float: $a_float
// a_string: \'$a_string\'
// ')
// println(additional_args.join_lines())
// }
// ```
// data object storing information about a defined flag
pub struct Flag {
pub:
name string // name as it appears on command line
abbr byte // shortcut
usage string // help message
val_desc string // something like '<arg>' that appears in usage,
// and also the default value, when the flag is not given
}
//
pub struct FlagParser {
pub mut:
args []string // the arguments to be parsed
flags []Flag // registered flags
application_name string
application_version string
application_description string
min_free_args int
max_free_args int
args_description string
}
pub const (
// used for formating usage message
SPACE = ' '
UNDERLINE = '-----------------------------------------------'
MAX_ARGS_NUMBER = 4048
)
// create a new flag set for parsing command line arguments
// TODO use INT_MAX some how
pub fn new_flag_parser(args []string) &FlagParser {
return &FlagParser{args: args.clone(), max_free_args: MAX_ARGS_NUMBER}
}
// change the application name to be used in 'usage' output
pub fn (fs mut FlagParser) application(name string) {
fs.application_name = name
}
// change the application version to be used in 'usage' output
pub fn (fs mut FlagParser) version(vers string) {
fs.application_version = vers
}
// change the application version to be used in 'usage' output
pub fn (fs mut FlagParser) description(desc string) {
fs.application_description = desc
}
// in most cases you do not need the first argv for flag parsing
pub fn (fs mut FlagParser) skip_executable() {
fs.args.delete(0)
}
// private helper to register a flag
fn (fs mut FlagParser) add_flag(name string, abbr byte, usage string, desc string) {
fs.flags << Flag{
name: name,
abbr: abbr,
usage: usage,
val_desc: desc
}
}
// private: general parsing a single argument
// - search args for existence
// if true
// extract the defined value as string
// else
// return an (dummy) error -> argument is not defined
//
// - the name, usage are registered
// - found arguments and corresponding values are removed from args list
fn (fs mut FlagParser) parse_value(longhand string, shorthand byte) []string {
full := '--$longhand'
mut found_entries := []string
mut to_delete := []int
mut should_skip_one := false
for i, arg in fs.args {
if should_skip_one {
should_skip_one = false
continue
}
if arg == '--' {
//End of input. We're done here.
break
}
if arg == full || (arg[0] == `-` && arg[1] == shorthand && arg.len == 2) {
if i+1 > fs.args.len {
panic("Missing argument for '$longhand'")
}
nextarg := fs.args[i+1]
if nextarg.len > 2 && nextarg[..2] == '--' {
//It could be end of input (--) or another argument (--abc).
//Both are invalid so die.
panic("Missing argument for '$longhand'")
}
found_entries << fs.args[i+1]
to_delete << i
to_delete << i+1
should_skip_one = true
continue
}
if arg.len > full.len+1 && arg[..full.len+1] == '$full=' {
found_entries << arg[full.len+1..]
to_delete << i
continue
}
}
for i, del in to_delete {
//i entrys are deleted so it's shifted left i times.
fs.args.delete(del - i)
}
return found_entries
}
// special parsing for bool values
// see also: parse_value
//
// special: it is allowed to define bool flags without value
// -> '--flag' is parsed as true
// -> '--flag' is equal to '--flag=true'
fn (fs mut FlagParser) parse_bool_value(longhand string, shorthand byte) ?string {
full := '--$longhand'
for i, arg in fs.args {
if arg == '--' {
//End of input. We're done.
break
}
if arg == full || (arg[0] == `-` && arg[1] == shorthand && arg.len == 2) {
if fs.args.len > i+1 && (fs.args[i+1] in ['true', 'false']) {
val := fs.args[i+1]
fs.args.delete(i+1)
fs.args.delete(i)
return val
} else {
fs.args.delete(i)
return 'true'
}
}
if arg.len > full.len+1 && arg[..full.len+1] == '$full=' {
// Flag abc=true
val := arg[full.len+1..]
fs.args.delete(i)
return val
}
if arg[0] == `-` && arg.index_byte(shorthand) != -1 {
// -abc is equivalent to -a -b -c
return 'true'
}
}
return error("parameter '$longhand' not found")
}
// bool_opt returns an optional that returns the value associated with the flag.
// In the situation that the flag was not provided, it returns null.
pub fn (fs mut FlagParser) bool_opt(name string, abbr byte, usage string) ?bool {
fs.add_flag(name, abbr, usage, '<bool>')
parsed := fs.parse_bool_value(name, abbr) or {
return error("parameter '$name' not provided")
}
return parsed == 'true'
}
// defining and parsing a bool flag
// if defined
// the value is returned (true/false)
// else
// the default value is returned
// version with abbr
//TODO error handling for invalid string to bool conversion
pub fn (fs mut FlagParser) bool_(name string, abbr byte, bdefault bool, usage string) bool {
value := fs.bool_opt(name, abbr, usage) or {
return bdefault
}
return value
}
// defining and parsing a bool flag
// if defined
// the value is returned (true/false)
// else
// the default value is returned
//TODO error handling for invalid string to bool conversion
pub fn (fs mut FlagParser) bool(name string, v bool, usage string) bool {
return fs.bool_(name, 0, v, usage)
}
// int_multi returns all instances of values associated with the flags provided
// In the case that none were found, it returns an empty array.
pub fn (fs mut FlagParser) int_multi(name string, abbr byte, usage string) []int {
fs.add_flag(name, abbr, usage, '<multiple ints>')
parsed := fs.parse_value(name, abbr)
mut value := []int
for val in parsed {
value << val.int()
}
return value
}
// int_opt returns an optional that returns the value associated with the flag.
// In the situation that the flag was not provided, it returns null.
pub fn (fs mut FlagParser) int_opt(name string, abbr byte, usage string) ?int {
fs.add_flag(name, abbr, usage, '<int>')
parsed := fs.parse_value(name, abbr)
if parsed.len == 0 {
return error("parameter '$name' not provided")
}
return parsed[0].int()
}
// defining and parsing an int flag
// if defined
// the value is returned (int)
// else
// the default value is returned
// version with abbr
//TODO error handling for invalid string to int conversion
pub fn (fs mut FlagParser) int_(name string, abbr byte, idefault int, usage string) int {
value := fs.int_opt(name, abbr, usage) or {
return idefault
}
return value
}
// defining and parsing an int flag
// if defined
// the value is returned (int)
// else
// the default value is returned
//TODO error handling for invalid string to int conversion
pub fn (fs mut FlagParser) int(name string, i int, usage string) int {
return fs.int_(name, 0, i, usage)
}
// float_multi returns all instances of values associated with the flags provided
// In the case that none were found, it returns an empty array.
pub fn (fs mut FlagParser) float_multi(name string, abbr byte, usage string) []f32 {
fs.add_flag(name, abbr, usage, '<multiple floats>')
parsed := fs.parse_value(name, abbr)
mut value := []f32
for val in parsed {
value << val.f32()
}
return value
}
// float_opt returns an optional that returns the value associated with the flag.
// In the situation that the flag was not provided, it returns null.
pub fn (fs mut FlagParser) float_opt(name string, abbr byte, usage string) ?f32 {
fs.add_flag(name, abbr, usage, '<float>')
parsed := fs.parse_value(name, abbr)
if parsed.len == 0 {
return error("parameter '$name' not provided")
}
return parsed[0].f32()
}
// defining and parsing a float flag
// if defined
// the value is returned (float)
// else
// the default value is returned
// version with abbr
//TODO error handling for invalid string to float conversion
pub fn (fs mut FlagParser) float_(name string, abbr byte, fdefault f32, usage string) f32 {
value := fs.float_opt(name, abbr, usage) or {
return fdefault
}
return value
}
// defining and parsing a float flag
// if defined
// the value is returned (float)
// else
// the default value is returned
//TODO error handling for invalid string to float conversion
pub fn (fs mut FlagParser) float(name string, f f32, usage string) f32 {
return fs.float_(name, 0, f, usage)
}
// string_multi returns all instances of values associated with the flags provided
// In the case that none were found, it returns an empty array.
pub fn (fs mut FlagParser) string_multi(name string, abbr byte, usage string) []string {
fs.add_flag(name, abbr, usage, '<multiple floats>')
return fs.parse_value(name, abbr)
}
// string_opt returns an optional that returns the value associated with the flag.
// In the situation that the flag was not provided, it returns null.
pub fn (fs mut FlagParser) string_opt(name string, abbr byte, usage string) ?string {
fs.add_flag(name, abbr, usage, '<string>')
parsed := fs.parse_value(name, abbr)
if parsed.len == 0 {
return error("parameter '$name' not provided")
}
return parsed[0]
}
// defining and parsing a string flag
// if defined
// the value is returned (string)
// else
// the default value is returned
// version with abbr
pub fn (fs mut FlagParser) string_(name string, abbr byte, sdefault string, usage string) string {
value := fs.string_opt(name, abbr, usage) or {
return sdefault
}
return value
}
// defining and parsing a string flag
// if defined
// the value is returned (string)
// else
// the default value is returned
pub fn (fs mut FlagParser) string(name string, sdefault string, usage string) string {
return fs.string_(name, 0, sdefault, usage)
}
pub fn (fs mut FlagParser) limit_free_args_to_at_least(n int) {
if n > MAX_ARGS_NUMBER {
panic('flag.limit_free_args_to_at_least expect n to be smaller than $MAX_ARGS_NUMBER')
}
if n <= 0 {
panic('flag.limit_free_args_to_at_least expect n to be a positive number')
}
fs.min_free_args = n
}
pub fn (fs mut FlagParser) limit_free_args_to_exactly(n int) {
if n > MAX_ARGS_NUMBER {
panic('flag.limit_free_args_to_exactly expect n to be smaller than $MAX_ARGS_NUMBER')
}
if n < 0 {
panic('flag.limit_free_args_to_exactly expect n to be a non negative number')
}
fs.min_free_args = n
fs.max_free_args = n
}
// this will cause an error in finalize() if free args are out of range
// (min, ..., max)
pub fn (fs mut FlagParser) limit_free_args(min, max int) {
if min > max {
panic('flag.limit_free_args expect min < max, got $min >= $max')
}
fs.min_free_args = min
fs.max_free_args = max
}
pub fn (fs mut FlagParser) arguments_description(description string){
fs.args_description = description
}
// collect all given information and
pub fn (fs FlagParser) usage() string {
positive_min_arg := ( fs.min_free_args > 0 )
positive_max_arg := ( fs.max_free_args > 0 && fs.max_free_args != MAX_ARGS_NUMBER )
no_arguments := ( fs.min_free_args == 0 && fs.max_free_args == 0 )
mut adesc := if fs.args_description.len > 0 { fs.args_description } else { '[ARGS]' }
if no_arguments { adesc = '' }
mut use := ''
if fs.application_version != '' {
use += '$fs.application_name $fs.application_version\n'
use += '$UNDERLINE\n'
}
use += 'Usage: ${fs.application_name} [options] $adesc\n'
use += '\n'
if fs.application_description != '' {
use += 'Description:\n'
use += '$fs.application_description'
use += '\n\n'
}
// show a message about the [ARGS]:
if positive_min_arg || positive_max_arg || no_arguments {
if no_arguments {
use += 'This application does not expect any arguments\n\n'
goto end_of_arguments_handling
}
mut s:= []string
if positive_min_arg { s << 'at least $fs.min_free_args' }
if positive_max_arg { s << 'at most $fs.max_free_args' }
if positive_min_arg && positive_max_arg && fs.min_free_args == fs.max_free_args {
s = ['exactly $fs.min_free_args']
}
sargs := s.join(' and ')
use += 'The arguments should be $sargs in number.\n\n'
}
end_of_arguments_handling:
if fs.flags.len > 0 {
use += 'Options:\n'
for f in fs.flags {
mut onames:=[]string
if f.abbr != 0 {
onames << '-${f.abbr.str()}'
}
if f.name != '' {
if !f.val_desc.contains('<bool>') {
onames << '--${f.name} $f.val_desc'
}else{
onames << '--${f.name}'
}
}
option_names := ' ' + onames.join(', ')
space := if option_names.len > SPACE.len-2 {
'\n${SPACE}'
} else {
SPACE[option_names.len..]
}
use += '${option_names}${space}${f.usage}\n'
}
}
return use
}
// finalize argument parsing -> call after all arguments are defined
//
// all remaining arguments are returned in the same order they are defined on
// command line
//
// if additional flag are found (things starting with '--') an error is returned
// error handling is up to the application developer
pub fn (fs FlagParser) finalize() ?[]string {
for a in fs.args {
if a.len >= 2 && a[..2] == '--' {
return error('Unknown argument \'${a[2..]}\'')
}
}
if fs.args.len < fs.min_free_args && fs.min_free_args > 0 {
return error('Expected at least ${fs.min_free_args} arguments, but given $fs.args.len')
}
if fs.args.len > fs.max_free_args && fs.max_free_args > 0 {
return error('Expected at most ${fs.max_free_args} arguments, but given $fs.args.len')
}
if fs.args.len > 0 && fs.max_free_args == 0 && fs.min_free_args == 0 {
return error('Expected no arguments, but given $fs.args.len')
}
return fs.args
}