use proc_macro2::{Ident, Span, TokenStream};
use quote::{format_ident, quote, quote_spanned};
use syn::{spanned::Spanned, Data, DeriveInput, FieldsUnnamed, Generics, Variant};
use crate::derives::args;
use crate::derives::args::collect_args_fields;
use crate::item::{Item, Kind, Name};
use crate::utils::{is_simple_ty, subty_if_name};
pub(crate) fn derive_subcommand(input: &DeriveInput) -> Result<TokenStream, syn::Error> {
let ident = &input.ident;
match input.data {
Data::Enum(ref e) => {
let name = Name::Derived(ident.clone());
let item = Item::from_subcommand_enum(input, name)?;
let variants = e
.variants
.iter()
.map(|variant| {
let item =
Item::from_subcommand_variant(variant, item.casing(), item.env_casing())?;
Ok((variant, item))
})
.collect::<Result<Vec<_>, syn::Error>>()?;
gen_for_enum(&item, ident, &input.generics, &variants)
}
_ => abort_call_site!("`#[derive(Subcommand)]` only supports enums"),
}
}
pub(crate) fn gen_for_enum(
item: &Item,
item_name: &Ident,
generics: &Generics,
variants: &[(&Variant, Item)],
) -> Result<TokenStream, syn::Error> {
if !matches!(&*item.kind(), Kind::Command(_)) {
abort! { item.kind().span(),
"`{}` cannot be used with `command`",
item.kind().name(),
}
}
let (impl_generics, ty_generics, where_clause) = generics.split_for_impl();
let from_arg_matches = gen_from_arg_matches(variants)?;
let update_from_arg_matches = gen_update_from_arg_matches(variants)?;
let augmentation = gen_augment(variants, item, false)?;
let augmentation_update = gen_augment(variants, item, true)?;
let has_subcommand = gen_has_subcommand(variants)?;
Ok(quote! {
#[allow(
dead_code,
unreachable_code,
unused_variables,
unused_braces,
unused_qualifications,
)]
#[allow(
clippy::style,
clippy::complexity,
clippy::pedantic,
clippy::restriction,
clippy::perf,
clippy::deprecated,
clippy::nursery,
clippy::cargo,
clippy::suspicious_else_formatting,
clippy::almost_swapped,
clippy::redundant_locals,
)]
#[automatically_derived]
impl #impl_generics clap::FromArgMatches for #item_name #ty_generics #where_clause {
fn from_arg_matches(__clap_arg_matches: &clap::ArgMatches) -> ::std::result::Result<Self, clap::Error> {
Self::from_arg_matches_mut(&mut __clap_arg_matches.clone())
}
#from_arg_matches
fn update_from_arg_matches(&mut self, __clap_arg_matches: &clap::ArgMatches) -> ::std::result::Result<(), clap::Error> {
self.update_from_arg_matches_mut(&mut __clap_arg_matches.clone())
}
#update_from_arg_matches
}
#[allow(
dead_code,
unreachable_code,
unused_variables,
unused_braces,
unused_qualifications,
)]
#[allow(
clippy::style,
clippy::complexity,
clippy::pedantic,
clippy::restriction,
clippy::perf,
clippy::deprecated,
clippy::nursery,
clippy::cargo,
clippy::suspicious_else_formatting,
clippy::almost_swapped,
clippy::redundant_locals,
)]
#[automatically_derived]
impl #impl_generics clap::Subcommand for #item_name #ty_generics #where_clause {
fn augment_subcommands <'b>(__clap_app: clap::Command) -> clap::Command {
#augmentation
}
fn augment_subcommands_for_update <'b>(__clap_app: clap::Command) -> clap::Command {
#augmentation_update
}
fn has_subcommand(__clap_name: &str) -> bool {
#has_subcommand
}
}
})
}
fn gen_augment(
variants: &[(&Variant, Item)],
parent_item: &Item,
override_required: bool,
) -> Result<TokenStream, syn::Error> {
use syn::Fields::{Named, Unit, Unnamed};
let app_var = Ident::new("__clap_app", Span::call_site());
let mut subcommands = Vec::new();
for (variant, item) in variants {
let kind = item.kind();
let genned = match &*kind {
Kind::Skip(_, _) | Kind::Arg(_) | Kind::FromGlobal(_) | Kind::Value => None,
Kind::ExternalSubcommand => {
let ty = match variant.fields {
Unnamed(ref fields) if fields.unnamed.len() == 1 => &fields.unnamed[0].ty,
_ => abort!(
variant,
"The enum variant marked with `external_subcommand` must be \
a single-typed tuple, and the type must be either `Vec<String>` \
or `Vec<OsString>`."
),
};
let deprecations = if !override_required {
item.deprecations()
} else {
quote!()
};
let subty = subty_if_name(ty, "Vec").ok_or_else(|| {
format_err!(
ty.span(),
"The type must be `Vec<_>` \
to be used with `external_subcommand`."
)
})?;
let subcommand = quote_spanned! { kind.span()=>
#deprecations
let #app_var = #app_var
.external_subcommand_value_parser(clap::value_parser!(#subty));
};
Some(subcommand)
}
Kind::Flatten(_) => match variant.fields {
Unnamed(FieldsUnnamed { ref unnamed, .. }) if unnamed.len() == 1 => {
let ty = &unnamed[0].ty;
let deprecations = if !override_required {
item.deprecations()
} else {
quote!()
};
let next_help_heading = item.next_help_heading();
let next_display_order = item.next_display_order();
let subcommand = if override_required {
quote! {
#deprecations
let #app_var = #app_var
#next_help_heading
#next_display_order;
let #app_var = <#ty as clap::Subcommand>::augment_subcommands_for_update(#app_var);
}
} else {
quote! {
#deprecations
let #app_var = #app_var
#next_help_heading
#next_display_order;
let #app_var = <#ty as clap::Subcommand>::augment_subcommands(#app_var);
}
};
Some(subcommand)
}
_ => abort!(
variant,
"`flatten` is usable only with single-typed tuple variants"
),
},
Kind::Subcommand(_) => {
let subcommand_var = Ident::new("__clap_subcommand", Span::call_site());
let arg_block = match variant.fields {
Named(_) => {
abort!(variant, "non single-typed tuple enums are not supported")
}
Unit => quote!( #subcommand_var ),
Unnamed(FieldsUnnamed { ref unnamed, .. }) if unnamed.len() == 1 => {
let ty = &unnamed[0].ty;
if override_required {
quote_spanned! { ty.span()=>
{
<#ty as clap::Subcommand>::augment_subcommands_for_update(#subcommand_var)
}
}
} else {
quote_spanned! { ty.span()=>
{
<#ty as clap::Subcommand>::augment_subcommands(#subcommand_var)
}
}
}
}
Unnamed(..) => {
abort!(variant, "non single-typed tuple enums are not supported")
}
};
let name = item.cased_name();
let deprecations = if !override_required {
item.deprecations()
} else {
quote!()
};
let initial_app_methods = item.initial_top_level_methods();
let final_from_attrs = item.final_top_level_methods();
let override_methods = if override_required {
quote_spanned! { kind.span()=>
.subcommand_required(false)
.arg_required_else_help(false)
}
} else {
quote!()
};
let subcommand = quote! {
let #app_var = #app_var.subcommand({
#deprecations;
let #subcommand_var = clap::Command::new(#name);
let #subcommand_var = #subcommand_var
.subcommand_required(true)
.arg_required_else_help(true);
let #subcommand_var = #subcommand_var #initial_app_methods;
let #subcommand_var = #arg_block;
#subcommand_var #final_from_attrs #override_methods
});
};
Some(subcommand)
}
Kind::Command(_) => {
let subcommand_var = Ident::new("__clap_subcommand", Span::call_site());
let sub_augment = match variant.fields {
Named(ref fields) => {
let fields = collect_args_fields(item, fields)?;
args::gen_augment(&fields, &subcommand_var, item, override_required)?
}
Unit => {
let arg_block = quote!( #subcommand_var );
let initial_app_methods = item.initial_top_level_methods();
let final_from_attrs = item.final_top_level_methods();
quote! {
let #subcommand_var = #subcommand_var #initial_app_methods;
let #subcommand_var = #arg_block;
#subcommand_var #final_from_attrs
}
}
Unnamed(FieldsUnnamed { ref unnamed, .. }) if unnamed.len() == 1 => {
let ty = &unnamed[0].ty;
let arg_block = if override_required {
quote_spanned! { ty.span()=>
{
<#ty as clap::Args>::augment_args_for_update(#subcommand_var)
}
}
} else {
quote_spanned! { ty.span()=>
{
<#ty as clap::Args>::augment_args(#subcommand_var)
}
}
};
let initial_app_methods = item.initial_top_level_methods();
let final_from_attrs = item.final_top_level_methods();
quote! {
let #subcommand_var = #subcommand_var #initial_app_methods;
let #subcommand_var = #arg_block;
#subcommand_var #final_from_attrs
}
}
Unnamed(..) => {
abort!(variant, "non single-typed tuple enums are not supported")
}
};
let deprecations = if !override_required {
item.deprecations()
} else {
quote!()
};
let name = item.cased_name();
let subcommand = quote! {
let #app_var = #app_var.subcommand({
#deprecations
let #subcommand_var = clap::Command::new(#name);
#sub_augment
});
};
Some(subcommand)
}
};
subcommands.push(genned);
}
let deprecations = if !override_required {
parent_item.deprecations()
} else {
quote!()
};
let initial_app_methods = parent_item.initial_top_level_methods();
let final_app_methods = parent_item.final_top_level_methods();
Ok(quote! {
#deprecations;
let #app_var = #app_var #initial_app_methods;
#( #subcommands )*;
#app_var #final_app_methods
})
}
fn gen_has_subcommand(variants: &[(&Variant, Item)]) -> Result<TokenStream, syn::Error> {
use syn::Fields::Unnamed;
let mut ext_subcmd = false;
let (flatten_variants, variants): (Vec<_>, Vec<_>) = variants
.iter()
.filter_map(|(variant, item)| {
let kind = item.kind();
match &*kind {
Kind::Skip(_, _) | Kind::Arg(_) | Kind::FromGlobal(_) | Kind::Value => None,
Kind::ExternalSubcommand => {
ext_subcmd = true;
None
}
Kind::Flatten(_) | Kind::Subcommand(_) | Kind::Command(_) => Some((variant, item)),
}
})
.partition(|(_, item)| {
let kind = item.kind();
matches!(&*kind, Kind::Flatten(_))
});
let subcommands = variants.iter().map(|(_variant, item)| {
let sub_name = item.cased_name();
quote! {
if #sub_name == __clap_name {
return true
}
}
});
let child_subcommands = flatten_variants
.iter()
.map(|(variant, _attrs)| match variant.fields {
Unnamed(ref fields) if fields.unnamed.len() == 1 => {
let ty = &fields.unnamed[0].ty;
Ok(quote! {
if <#ty as clap::Subcommand>::has_subcommand(__clap_name) {
return true;
}
})
}
_ => abort!(
variant,
"`flatten` is usable only with single-typed tuple variants"
),
})
.collect::<Result<Vec<_>, syn::Error>>()?;
let genned = if ext_subcmd {
quote! { true }
} else {
quote! {
#( #subcommands )*
#( #child_subcommands )else*
false
}
};
Ok(genned)
}
fn gen_from_arg_matches(variants: &[(&Variant, Item)]) -> Result<TokenStream, syn::Error> {
use syn::Fields::{Named, Unit, Unnamed};
let subcommand_name_var = format_ident!("__clap_name");
let sub_arg_matches_var = format_ident!("__clap_arg_matches");
let mut ext_subcmd = None;
let mut flatten_variants = Vec::new();
let mut unflatten_variants = Vec::new();
for (variant, item) in variants {
let kind = item.kind();
match &*kind {
Kind::Skip(_, _) | Kind::Arg(_) | Kind::FromGlobal(_) | Kind::Value => {}
Kind::ExternalSubcommand => {
if ext_subcmd.is_some() {
abort!(
item.kind().span(),
"Only one variant can be marked with `external_subcommand`, \
this is the second"
);
}
let ty = match variant.fields {
Unnamed(ref fields) if fields.unnamed.len() == 1 => &fields.unnamed[0].ty,
_ => abort!(
variant,
"The enum variant marked with `external_subcommand` must be \
a single-typed tuple, and the type must be either `Vec<String>` \
or `Vec<OsString>`."
),
};
let (span, str_ty) = match subty_if_name(ty, "Vec") {
Some(subty) => {
if is_simple_ty(subty, "String") {
(subty.span(), quote!(::std::string::String))
} else if is_simple_ty(subty, "OsString") {
(subty.span(), quote!(::std::ffi::OsString))
} else {
abort!(
ty.span(),
"The type must be either `Vec<String>` or `Vec<OsString>` \
to be used with `external_subcommand`."
);
}
}
None => abort!(
ty.span(),
"The type must be either `Vec<String>` or `Vec<OsString>` \
to be used with `external_subcommand`."
),
};
ext_subcmd = Some((span, &variant.ident, str_ty));
}
Kind::Flatten(_) | Kind::Subcommand(_) | Kind::Command(_) => {
if matches!(&*item.kind(), Kind::Flatten(_)) {
flatten_variants.push((variant, item));
} else {
unflatten_variants.push((variant, item));
}
}
}
}
let subcommands = unflatten_variants.iter().map(|(variant, item)| {
let sub_name = item.cased_name();
let variant_name = &variant.ident;
let constructor_block = match variant.fields {
Named(ref fields) => {
let fields = collect_args_fields(item, fields)?;
args::gen_constructor(&fields)?
},
Unit => quote!(),
Unnamed(ref fields) if fields.unnamed.len() == 1 => {
let ty = &fields.unnamed[0].ty;
quote!( ( <#ty as clap::FromArgMatches>::from_arg_matches_mut(__clap_arg_matches)? ) )
}
Unnamed(..) => abort_call_site!("{}: tuple enums are not supported", variant.ident),
};
Ok(quote! {
if #subcommand_name_var == #sub_name && !#sub_arg_matches_var.contains_id("") {
return ::std::result::Result::Ok(Self :: #variant_name #constructor_block)
}
})
}).collect::<Result<Vec<_>, syn::Error>>()?;
let child_subcommands = flatten_variants.iter().map(|(variant, _attrs)| {
let variant_name = &variant.ident;
match variant.fields {
Unnamed(ref fields) if fields.unnamed.len() == 1 => {
let ty = &fields.unnamed[0].ty;
Ok(quote! {
if __clap_arg_matches
.subcommand_name()
.map(|__clap_name| <#ty as clap::Subcommand>::has_subcommand(__clap_name))
.unwrap_or_default()
{
let __clap_res = <#ty as clap::FromArgMatches>::from_arg_matches_mut(__clap_arg_matches)?;
return ::std::result::Result::Ok(Self :: #variant_name (__clap_res));
}
})
}
_ => abort!(
variant,
"`flatten` is usable only with single-typed tuple variants"
),
}
}).collect::<Result<Vec<_>, syn::Error>>()?;
let wildcard = match ext_subcmd {
Some((span, var_name, str_ty)) => quote_spanned! { span=>
::std::result::Result::Ok(Self::#var_name(
::std::iter::once(#str_ty::from(#subcommand_name_var))
.chain(
#sub_arg_matches_var
.remove_many::<#str_ty>("")
.unwrap()
.map(#str_ty::from)
)
.collect::<::std::vec::Vec<_>>()
))
},
None => quote! {
::std::result::Result::Err(clap::Error::raw(clap::error::ErrorKind::InvalidSubcommand, format!("The subcommand '{}' wasn't recognized", #subcommand_name_var)))
},
};
let raw_deprecated = args::raw_deprecated();
Ok(quote! {
fn from_arg_matches_mut(__clap_arg_matches: &mut clap::ArgMatches) -> ::std::result::Result<Self, clap::Error> {
#raw_deprecated
#( #child_subcommands )else*
if let Some((#subcommand_name_var, mut __clap_arg_sub_matches)) = __clap_arg_matches.remove_subcommand() {
let #sub_arg_matches_var = &mut __clap_arg_sub_matches;
#( #subcommands )*
#wildcard
} else {
::std::result::Result::Err(clap::Error::raw(clap::error::ErrorKind::MissingSubcommand, "A subcommand is required but one was not provided."))
}
}
})
}
fn gen_update_from_arg_matches(variants: &[(&Variant, Item)]) -> Result<TokenStream, syn::Error> {
use syn::Fields::{Named, Unit, Unnamed};
let (flatten, variants): (Vec<_>, Vec<_>) = variants
.iter()
.filter_map(|(variant, item)| {
let kind = item.kind();
match &*kind {
Kind::Skip(_, _)
| Kind::Arg(_)
| Kind::FromGlobal(_)
| Kind::Value
| Kind::ExternalSubcommand => None,
Kind::Flatten(_) | Kind::Subcommand(_) | Kind::Command(_) => Some((variant, item)),
}
})
.partition(|(_, item)| {
let kind = item.kind();
matches!(&*kind, Kind::Flatten(_))
});
let subcommands = variants.iter().map(|(variant, item)| {
let sub_name = item.cased_name();
let variant_name = &variant.ident;
let (pattern, updater) = match variant.fields {
Named(ref fields) => {
let field_names = fields.named.iter().map(|field| {
field.ident.as_ref().unwrap()
}).collect::<Vec<_>>();
let fields = collect_args_fields(item, fields)?;
let update = args::gen_updater(&fields, false)?;
(quote!( { #( #field_names, )* }), quote!( { #update } ))
}
Unit => (quote!(), quote!({})),
Unnamed(ref fields) => {
if fields.unnamed.len() == 1 {
(
quote!((ref mut __clap_arg)),
quote!(clap::FromArgMatches::update_from_arg_matches_mut(
__clap_arg,
__clap_arg_matches
)?),
)
} else {
abort_call_site!("{}: tuple enums are not supported", variant.ident)
}
}
};
Ok(quote! {
Self :: #variant_name #pattern if #sub_name == __clap_name => {
let (_, mut __clap_arg_sub_matches) = __clap_arg_matches.remove_subcommand().unwrap();
let __clap_arg_matches = &mut __clap_arg_sub_matches;
#updater
}
})
}).collect::<Result<Vec<_>, _>>()?;
let child_subcommands = flatten.iter().map(|(variant, _attrs)| {
let variant_name = &variant.ident;
match variant.fields {
Unnamed(ref fields) if fields.unnamed.len() == 1 => {
let ty = &fields.unnamed[0].ty;
Ok(quote! {
if <#ty as clap::Subcommand>::has_subcommand(__clap_name) {
if let Self :: #variant_name (child) = s {
<#ty as clap::FromArgMatches>::update_from_arg_matches_mut(child, __clap_arg_matches)?;
return ::std::result::Result::Ok(());
}
}
})
}
_ => abort!(
variant,
"`flatten` is usable only with single-typed tuple variants"
),
}
}).collect::<Result<Vec<_>, _>>()?;
let raw_deprecated = args::raw_deprecated();
Ok(quote! {
fn update_from_arg_matches_mut<'b>(
&mut self,
__clap_arg_matches: &mut clap::ArgMatches,
) -> ::std::result::Result<(), clap::Error> {
#raw_deprecated
if let Some(__clap_name) = __clap_arg_matches.subcommand_name() {
match self {
#( #subcommands ),*
s => {
#( #child_subcommands )*
*s = <Self as clap::FromArgMatches>::from_arg_matches_mut(__clap_arg_matches)?;
}
}
}
::std::result::Result::Ok(())
}
})
}