// Copyright 2018 Guillaume Pinot (@TeXitoi) , // Kevin Knapp (@kbknapp) , and // Ana Hobden (@hoverbear) // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use clap::Parser; #[test] fn basic() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { Foo, Bar, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum)] arg: ArgChoice, } assert_eq!( Opt { arg: ArgChoice::Foo }, Opt::try_parse_from(&["", "foo"]).unwrap() ); assert_eq!( Opt { arg: ArgChoice::Bar }, Opt::try_parse_from(&["", "bar"]).unwrap() ); assert!(Opt::try_parse_from(&["", "fOo"]).is_err()); } #[test] fn default_value() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { Foo, Bar, } impl Default for ArgChoice { fn default() -> Self { Self::Bar } } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum, default_value_t)] arg: ArgChoice, } assert_eq!( Opt { arg: ArgChoice::Foo }, Opt::try_parse_from(&["", "foo"]).unwrap() ); assert_eq!( Opt { arg: ArgChoice::Bar }, Opt::try_parse_from(&["", "bar"]).unwrap() ); assert_eq!( Opt { arg: ArgChoice::Bar }, Opt::try_parse_from(&[""]).unwrap() ); } #[test] fn multi_word_is_renamed_kebab() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] #[allow(non_camel_case_types)] enum ArgChoice { FooBar, BAR_BAZ, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum)] arg: ArgChoice, } assert_eq!( Opt { arg: ArgChoice::FooBar }, Opt::try_parse_from(&["", "foo-bar"]).unwrap() ); assert_eq!( Opt { arg: ArgChoice::BAR_BAZ }, Opt::try_parse_from(&["", "bar-baz"]).unwrap() ); assert!(Opt::try_parse_from(&["", "FooBar"]).is_err()); } #[test] fn variant_with_defined_casing() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { #[clap(rename_all = "screaming_snake")] FooBar, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum)] arg: ArgChoice, } assert_eq!( Opt { arg: ArgChoice::FooBar }, Opt::try_parse_from(&["", "FOO_BAR"]).unwrap() ); assert!(Opt::try_parse_from(&["", "FooBar"]).is_err()); } #[test] fn casing_is_propagated_from_parent() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] #[clap(rename_all = "screaming_snake")] enum ArgChoice { FooBar, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum)] arg: ArgChoice, } assert_eq!( Opt { arg: ArgChoice::FooBar }, Opt::try_parse_from(&["", "FOO_BAR"]).unwrap() ); assert!(Opt::try_parse_from(&["", "FooBar"]).is_err()); } #[test] fn casing_propagation_is_overridden() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] #[clap(rename_all = "screaming_snake")] enum ArgChoice { #[clap(rename_all = "camel")] FooBar, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum)] arg: ArgChoice, } assert_eq!( Opt { arg: ArgChoice::FooBar }, Opt::try_parse_from(&["", "fooBar"]).unwrap() ); assert!(Opt::try_parse_from(&["", "FooBar"]).is_err()); assert!(Opt::try_parse_from(&["", "FOO_BAR"]).is_err()); } #[test] fn ignore_case() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { Foo, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum, ignore_case(true))] arg: ArgChoice, } assert_eq!( Opt { arg: ArgChoice::Foo }, Opt::try_parse_from(&["", "foo"]).unwrap() ); assert_eq!( Opt { arg: ArgChoice::Foo }, Opt::try_parse_from(&["", "fOo"]).unwrap() ); } #[test] fn ignore_case_set_to_false() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { Foo, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum, ignore_case(false))] arg: ArgChoice, } assert_eq!( Opt { arg: ArgChoice::Foo }, Opt::try_parse_from(&["", "foo"]).unwrap() ); assert!(Opt::try_parse_from(&["", "fOo"]).is_err()); } #[test] fn alias() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { #[clap(alias = "TOTP")] Totp, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum, ignore_case(false))] arg: ArgChoice, } assert_eq!( Opt { arg: ArgChoice::Totp }, Opt::try_parse_from(&["", "totp"]).unwrap() ); assert_eq!( Opt { arg: ArgChoice::Totp }, Opt::try_parse_from(&["", "TOTP"]).unwrap() ); } #[test] fn multiple_alias() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { #[clap(alias = "TOTP", alias = "t")] Totp, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum, ignore_case(false))] arg: ArgChoice, } assert_eq!( Opt { arg: ArgChoice::Totp }, Opt::try_parse_from(&["", "totp"]).unwrap() ); assert_eq!( Opt { arg: ArgChoice::Totp }, Opt::try_parse_from(&["", "TOTP"]).unwrap() ); assert_eq!( Opt { arg: ArgChoice::Totp }, Opt::try_parse_from(&["", "t"]).unwrap() ); } #[test] fn skip_variant() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] #[allow(dead_code)] // silence warning about `Baz` being unused enum ArgChoice { Foo, Bar, #[clap(skip)] Baz, } assert_eq!( ::value_variants() .iter() .map(clap::ArgEnum::to_possible_value) .map(Option::unwrap) .collect::>(), vec![ clap::PossibleValue::new("foo"), clap::PossibleValue::new("bar") ] ); { use clap::ArgEnum; assert!(ArgChoice::from_str("foo", true).is_ok()); assert!(ArgChoice::from_str("bar", true).is_ok()); assert!(ArgChoice::from_str("baz", true).is_err()); } } #[test] fn skip_non_unit_variant() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] #[allow(dead_code)] // silence warning about `Baz` being unused enum ArgChoice { Foo, Bar, #[clap(skip)] Baz(usize), } assert_eq!( ::value_variants() .iter() .map(clap::ArgEnum::to_possible_value) .map(Option::unwrap) .collect::>(), vec![ clap::PossibleValue::new("foo"), clap::PossibleValue::new("bar") ] ); { use clap::ArgEnum; assert!(ArgChoice::from_str("foo", true).is_ok()); assert!(ArgChoice::from_str("bar", true).is_ok()); assert!(ArgChoice::from_str("baz", true).is_err()); } } #[test] fn from_str_invalid() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { Foo, } { use clap::ArgEnum; assert!(ArgChoice::from_str("bar", true).is_err()); } } #[test] fn option_type() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { Foo, Bar, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum)] arg: Option, } assert_eq!(Opt { arg: None }, Opt::try_parse_from(&[""]).unwrap()); assert_eq!( Opt { arg: Some(ArgChoice::Foo) }, Opt::try_parse_from(&["", "foo"]).unwrap() ); assert_eq!( Opt { arg: Some(ArgChoice::Bar) }, Opt::try_parse_from(&["", "bar"]).unwrap() ); assert!(Opt::try_parse_from(&["", "fOo"]).is_err()); } #[test] fn option_option_type() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { Foo, Bar, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum, long)] arg: Option>, } assert_eq!(Opt { arg: None }, Opt::try_parse_from(&[""]).unwrap()); assert_eq!( Opt { arg: Some(None) }, Opt::try_parse_from(&["", "--arg"]).unwrap() ); assert_eq!( Opt { arg: Some(Some(ArgChoice::Foo)) }, Opt::try_parse_from(&["", "--arg", "foo"]).unwrap() ); assert_eq!( Opt { arg: Some(Some(ArgChoice::Bar)) }, Opt::try_parse_from(&["", "--arg", "bar"]).unwrap() ); assert!(Opt::try_parse_from(&["", "--arg", "fOo"]).is_err()); } #[test] fn vec_type() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { Foo, Bar, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum, short, long)] arg: Vec, } assert_eq!(Opt { arg: vec![] }, Opt::try_parse_from(&[""]).unwrap()); assert_eq!( Opt { arg: vec![ArgChoice::Foo] }, Opt::try_parse_from(&["", "-a", "foo"]).unwrap() ); assert_eq!( Opt { arg: vec![ArgChoice::Foo, ArgChoice::Bar] }, Opt::try_parse_from(&["", "-a", "foo", "-a", "bar"]).unwrap() ); assert!(Opt::try_parse_from(&["", "-a", "fOo"]).is_err()); } #[test] fn option_vec_type() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { Foo, Bar, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap(arg_enum, short, long)] arg: Option>, } assert_eq!(Opt { arg: None }, Opt::try_parse_from(&[""]).unwrap()); assert_eq!( Opt { arg: Some(vec![ArgChoice::Foo]) }, Opt::try_parse_from(&["", "-a", "foo"]).unwrap() ); assert_eq!( Opt { arg: Some(vec![ArgChoice::Foo, ArgChoice::Bar]) }, Opt::try_parse_from(&["", "-a", "foo", "-a", "bar"]).unwrap() ); assert!(Opt::try_parse_from(&["", "-a", "fOo"]).is_err()); } #[test] fn vec_type_default_value() { #[derive(clap::ArgEnum, PartialEq, Debug, Clone)] enum ArgChoice { Foo, Bar, Baz, } #[derive(Parser, PartialEq, Debug)] struct Opt { #[clap( arg_enum, short, long, default_value = "foo,bar", value_delimiter = ',' )] arg: Vec, } assert_eq!( Opt { arg: vec![ArgChoice::Foo, ArgChoice::Bar] }, Opt::try_parse_from(&[""]).unwrap() ); assert_eq!( Opt { arg: vec![ArgChoice::Foo, ArgChoice::Baz] }, Opt::try_parse_from(&["", "-a", "foo,baz"]).unwrap() ); }