clap/tests/derive/legacy/help.rs

473 lines
12 KiB
Rust

use clap::{AppSettings, Args, CommandFactory, Parser, Subcommand};
#[test]
fn arg_help_heading_applied() {
#[derive(Debug, Clone, Parser)]
struct CliOptions {
#[clap(long)]
#[clap(help_heading = Some("HEADING A"))]
should_be_in_section_a: u32,
#[clap(long)]
no_section: u32,
}
let cmd = CliOptions::command();
let should_be_in_section_a = if cfg!(feature = "unstable-v4") {
cmd.get_arguments()
.find(|a| a.get_id() == "should_be_in_section_a")
.unwrap()
} else {
cmd.get_arguments()
.find(|a| a.get_id() == "should-be-in-section-a")
.unwrap()
};
assert_eq!(should_be_in_section_a.get_help_heading(), Some("HEADING A"));
let should_be_in_section_b = if cfg!(feature = "unstable-v4") {
cmd.get_arguments()
.find(|a| a.get_id() == "no_section")
.unwrap()
} else {
cmd.get_arguments()
.find(|a| a.get_id() == "no-section")
.unwrap()
};
assert_eq!(should_be_in_section_b.get_help_heading(), None);
}
#[test]
fn app_help_heading_applied() {
#[derive(Debug, Clone, Parser)]
#[clap(next_help_heading = "DEFAULT")]
struct CliOptions {
#[clap(long)]
#[clap(help_heading = Some("HEADING A"))]
should_be_in_section_a: u32,
#[clap(long)]
should_be_in_default_section: u32,
}
let cmd = CliOptions::command();
let should_be_in_section_a = if cfg!(feature = "unstable-v4") {
cmd.get_arguments()
.find(|a| a.get_id() == "should_be_in_section_a")
.unwrap()
} else {
cmd.get_arguments()
.find(|a| a.get_id() == "should-be-in-section-a")
.unwrap()
};
assert_eq!(should_be_in_section_a.get_help_heading(), Some("HEADING A"));
let should_be_in_default_section = if cfg!(feature = "unstable-v4") {
cmd.get_arguments()
.find(|a| a.get_id() == "should_be_in_default_section")
.unwrap()
} else {
cmd.get_arguments()
.find(|a| a.get_id() == "should-be-in-default-section")
.unwrap()
};
assert_eq!(
should_be_in_default_section.get_help_heading(),
Some("DEFAULT")
);
}
#[test]
fn app_help_heading_flattened() {
// Used to help track the cause in tests
#![allow(clippy::enum_variant_names)]
#[derive(Debug, Clone, Parser)]
struct CliOptions {
#[clap(flatten)]
options_a: OptionsA,
#[clap(flatten)]
options_b: OptionsB,
#[clap(subcommand)]
sub_a: SubA,
#[clap(long)]
should_be_in_default_section: u32,
}
#[derive(Debug, Clone, Args)]
#[clap(next_help_heading = "HEADING A")]
struct OptionsA {
#[clap(long)]
should_be_in_section_a: u32,
}
#[derive(Debug, Clone, Args)]
#[clap(next_help_heading = "HEADING B")]
struct OptionsB {
#[clap(long)]
should_be_in_section_b: u32,
}
#[derive(Debug, Clone, Subcommand)]
enum SubA {
#[clap(flatten)]
SubB(SubB),
#[clap(subcommand)]
SubC(SubC),
SubAOne,
#[clap(next_help_heading = "SUB A")]
SubATwo {
should_be_in_sub_a: u32,
},
}
#[derive(Debug, Clone, Subcommand)]
enum SubB {
#[clap(next_help_heading = "SUB B")]
SubBOne { should_be_in_sub_b: u32 },
}
#[derive(Debug, Clone, Subcommand)]
enum SubC {
#[clap(next_help_heading = "SUB C")]
SubCOne { should_be_in_sub_c: u32 },
}
let cmd = CliOptions::command();
let should_be_in_section_a = if cfg!(feature = "unstable-v4") {
cmd.get_arguments()
.find(|a| a.get_id() == "should_be_in_section_a")
.unwrap()
} else {
cmd.get_arguments()
.find(|a| a.get_id() == "should-be-in-section-a")
.unwrap()
};
assert_eq!(should_be_in_section_a.get_help_heading(), Some("HEADING A"));
let should_be_in_section_b = if cfg!(feature = "unstable-v4") {
cmd.get_arguments()
.find(|a| a.get_id() == "should_be_in_section_b")
.unwrap()
} else {
cmd.get_arguments()
.find(|a| a.get_id() == "should-be-in-section-b")
.unwrap()
};
assert_eq!(should_be_in_section_b.get_help_heading(), Some("HEADING B"));
let should_be_in_default_section = if cfg!(feature = "unstable-v4") {
cmd.get_arguments()
.find(|a| a.get_id() == "should_be_in_default_section")
.unwrap()
} else {
cmd.get_arguments()
.find(|a| a.get_id() == "should-be-in-default-section")
.unwrap()
};
assert_eq!(should_be_in_default_section.get_help_heading(), None);
let sub_a_two = cmd.find_subcommand("sub-a-two").unwrap();
let should_be_in_sub_a = if cfg!(feature = "unstable-v4") {
sub_a_two
.get_arguments()
.find(|a| a.get_id() == "should_be_in_sub_a")
.unwrap()
} else {
sub_a_two
.get_arguments()
.find(|a| a.get_id() == "should-be-in-sub-a")
.unwrap()
};
assert_eq!(should_be_in_sub_a.get_help_heading(), Some("SUB A"));
let sub_b_one = cmd.find_subcommand("sub-b-one").unwrap();
let should_be_in_sub_b = if cfg!(feature = "unstable-v4") {
sub_b_one
.get_arguments()
.find(|a| a.get_id() == "should_be_in_sub_b")
.unwrap()
} else {
sub_b_one
.get_arguments()
.find(|a| a.get_id() == "should-be-in-sub-b")
.unwrap()
};
assert_eq!(should_be_in_sub_b.get_help_heading(), Some("SUB B"));
let sub_c = cmd.find_subcommand("sub-c").unwrap();
let sub_c_one = sub_c.find_subcommand("sub-c-one").unwrap();
let should_be_in_sub_c = if cfg!(feature = "unstable-v4") {
sub_c_one
.get_arguments()
.find(|a| a.get_id() == "should_be_in_sub_c")
.unwrap()
} else {
sub_c_one
.get_arguments()
.find(|a| a.get_id() == "should-be-in-sub-c")
.unwrap()
};
assert_eq!(should_be_in_sub_c.get_help_heading(), Some("SUB C"));
}
#[test]
fn flatten_field_with_help_heading() {
#[derive(Debug, Clone, Parser)]
struct CliOptions {
#[clap(flatten)]
#[clap(next_help_heading = "HEADING A")]
options_a: OptionsA,
}
#[derive(Debug, Clone, Args)]
struct OptionsA {
#[clap(long)]
should_be_in_section_a: u32,
}
let cmd = CliOptions::command();
let should_be_in_section_a = if cfg!(feature = "unstable-v4") {
cmd.get_arguments()
.find(|a| a.get_id() == "should_be_in_section_a")
.unwrap()
} else {
cmd.get_arguments()
.find(|a| a.get_id() == "should-be-in-section-a")
.unwrap()
};
assert_eq!(should_be_in_section_a.get_help_heading(), Some("HEADING A"));
}
// The challenge with this test is creating an error situation not caught by `clap`'s error checking
// but by the code that `clap_derive` generates.
//
// Ultimately, the easiest way to confirm is to put a debug statement in the desired error path.
#[test]
fn derive_generated_error_has_full_context() {
#[derive(Debug, Parser)]
#[clap(subcommand_negates_reqs = true)]
struct Opts {
#[clap(long)]
req_str: String,
#[clap(subcommand)]
cmd: Option<SubCommands>,
}
#[derive(Debug, Parser)]
enum SubCommands {
Sub {
#[clap(short, long, parse(from_occurrences))]
verbose: u8,
},
}
let result = Opts::try_parse_from(&["test", "sub"]);
assert!(
result.is_err(),
"`SubcommandsNegateReqs` with non-optional `req_str` should fail: {:?}",
result.unwrap()
);
if cfg!(feature = "unstable-v4") {
let expected = r#"error: The following required argument was not provided: req_str
USAGE:
clap --req-str <REQ_STR>
clap <SUBCOMMAND>
For more information try --help
"#;
assert_eq!(result.unwrap_err().to_string(), expected);
} else {
let expected = r#"error: The following required argument was not provided: req-str
USAGE:
clap --req-str <REQ_STR>
clap <SUBCOMMAND>
For more information try --help
"#;
assert_eq!(result.unwrap_err().to_string(), expected);
}
}
#[test]
fn derive_order_next_order() {
static HELP: &str = "test 1.2
USAGE:
test [OPTIONS]
OPTIONS:
--flag-b first flag
--option-b <OPTION_B> first option
-h, --help Print help information
-V, --version Print version information
--flag-a second flag
--option-a <OPTION_A> second option
";
#[derive(Parser, Debug)]
#[clap(name = "test", version = "1.2")]
#[clap(setting = AppSettings::DeriveDisplayOrder)]
struct Args {
#[clap(flatten)]
a: A,
#[clap(flatten)]
b: B,
}
#[derive(Args, Debug)]
#[clap(next_display_order = 10000)]
struct A {
/// second flag
#[clap(long)]
flag_a: bool,
/// second option
#[clap(long)]
option_a: Option<String>,
}
#[derive(Args, Debug)]
#[clap(next_display_order = 10)]
struct B {
/// first flag
#[clap(long)]
flag_b: bool,
/// first option
#[clap(long)]
option_b: Option<String>,
}
use clap::CommandFactory;
let mut cmd = Args::command();
let mut buffer: Vec<u8> = Default::default();
cmd.write_help(&mut buffer).unwrap();
let help = String::from_utf8(buffer).unwrap();
assert_eq!(help, HELP);
}
#[test]
fn derive_order_next_order_flatten() {
static HELP: &str = "test 1.2
USAGE:
test [OPTIONS]
OPTIONS:
--flag-b first flag
--option-b <OPTION_B> first option
-h, --help Print help information
-V, --version Print version information
--flag-a second flag
--option-a <OPTION_A> second option
";
#[derive(Parser, Debug)]
#[clap(setting = AppSettings::DeriveDisplayOrder)]
#[clap(name = "test", version = "1.2")]
struct Args {
#[clap(flatten)]
#[clap(next_display_order = 10000)]
a: A,
#[clap(flatten)]
#[clap(next_display_order = 10)]
b: B,
}
#[derive(Args, Debug)]
struct A {
/// second flag
#[clap(long)]
flag_a: bool,
/// second option
#[clap(long)]
option_a: Option<String>,
}
#[derive(Args, Debug)]
struct B {
/// first flag
#[clap(long)]
flag_b: bool,
/// first option
#[clap(long)]
option_b: Option<String>,
}
use clap::CommandFactory;
let mut cmd = Args::command();
let mut buffer: Vec<u8> = Default::default();
cmd.write_help(&mut buffer).unwrap();
let help = String::from_utf8(buffer).unwrap();
assert_eq!(help, HELP);
}
#[test]
fn derive_order_no_next_order() {
static HELP: &str = "test 1.2
USAGE:
test [OPTIONS]
OPTIONS:
--flag-a first flag
--flag-b second flag
-h, --help Print help information
--option-a <OPTION_A> first option
--option-b <OPTION_B> second option
-V, --version Print version information
";
#[derive(Parser, Debug)]
#[clap(name = "test", version = "1.2")]
#[clap(setting = AppSettings::DeriveDisplayOrder)]
#[clap(next_display_order = None)]
struct Args {
#[clap(flatten)]
a: A,
#[clap(flatten)]
b: B,
}
#[derive(Args, Debug)]
struct A {
/// first flag
#[clap(long)]
flag_a: bool,
/// first option
#[clap(long)]
option_a: Option<String>,
}
#[derive(Args, Debug)]
struct B {
/// second flag
#[clap(long)]
flag_b: bool,
/// second option
#[clap(long)]
option_b: Option<String>,
}
use clap::CommandFactory;
let mut cmd = Args::command();
let mut buffer: Vec<u8> = Default::default();
cmd.write_help(&mut buffer).unwrap();
let help = String::from_utf8(buffer).unwrap();
assert_eq!(help, HELP);
}