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author | Valentin Popov <valentin@popov.link> | 2024-01-08 00:21:28 +0300 |
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committer | Valentin Popov <valentin@popov.link> | 2024-01-08 00:21:28 +0300 |
commit | 1b6a04ca5504955c571d1c97504fb45ea0befee4 (patch) | |
tree | 7579f518b23313e8a9748a88ab6173d5e030b227 /vendor/clap_derive/src | |
parent | 5ecd8cf2cba827454317368b68571df0d13d7842 (diff) | |
download | fparkan-1b6a04ca5504955c571d1c97504fb45ea0befee4.tar.xz fparkan-1b6a04ca5504955c571d1c97504fb45ea0befee4.zip |
Initial vendor packages
Signed-off-by: Valentin Popov <valentin@popov.link>
Diffstat (limited to 'vendor/clap_derive/src')
-rw-r--r-- | vendor/clap_derive/src/attr.rs | 215 | ||||
-rw-r--r-- | vendor/clap_derive/src/derives/args.rs | 765 | ||||
-rw-r--r-- | vendor/clap_derive/src/derives/into_app.rs | 117 | ||||
-rw-r--r-- | vendor/clap_derive/src/derives/mod.rs | 23 | ||||
-rw-r--r-- | vendor/clap_derive/src/derives/parser.rs | 119 | ||||
-rw-r--r-- | vendor/clap_derive/src/derives/subcommand.rs | 674 | ||||
-rw-r--r-- | vendor/clap_derive/src/derives/value_enum.rs | 130 | ||||
-rw-r--r-- | vendor/clap_derive/src/dummies.rs | 99 | ||||
-rw-r--r-- | vendor/clap_derive/src/item.rs | 1468 | ||||
-rw-r--r-- | vendor/clap_derive/src/lib.rs | 116 | ||||
-rw-r--r-- | vendor/clap_derive/src/macros.rs | 21 | ||||
-rw-r--r-- | vendor/clap_derive/src/utils/doc_comments.rs | 126 | ||||
-rw-r--r-- | vendor/clap_derive/src/utils/error.rs | 22 | ||||
-rw-r--r-- | vendor/clap_derive/src/utils/mod.rs | 13 | ||||
-rw-r--r-- | vendor/clap_derive/src/utils/spanned.rs | 89 | ||||
-rw-r--r-- | vendor/clap_derive/src/utils/ty.rs | 165 |
16 files changed, 4162 insertions, 0 deletions
diff --git a/vendor/clap_derive/src/attr.rs b/vendor/clap_derive/src/attr.rs new file mode 100644 index 0000000..3bc9ac0 --- /dev/null +++ b/vendor/clap_derive/src/attr.rs @@ -0,0 +1,215 @@ +use std::iter::FromIterator; + +use proc_macro2::TokenStream; +use quote::quote; +use quote::ToTokens; +use syn::spanned::Spanned; +use syn::{ + parenthesized, + parse::{Parse, ParseStream}, + punctuated::Punctuated, + Attribute, Expr, Ident, LitStr, Token, +}; + +use crate::utils::Sp; + +#[derive(Clone)] +pub struct ClapAttr { + pub kind: Sp<AttrKind>, + pub name: Ident, + pub magic: Option<MagicAttrName>, + pub value: Option<AttrValue>, +} + +impl ClapAttr { + pub fn parse_all(all_attrs: &[Attribute]) -> Result<Vec<Self>, syn::Error> { + let mut parsed = Vec::new(); + for attr in all_attrs { + let kind = if attr.path().is_ident("clap") { + Sp::new(AttrKind::Clap, attr.path().span()) + } else if attr.path().is_ident("structopt") { + Sp::new(AttrKind::StructOpt, attr.path().span()) + } else if attr.path().is_ident("command") { + Sp::new(AttrKind::Command, attr.path().span()) + } else if attr.path().is_ident("group") { + Sp::new(AttrKind::Group, attr.path().span()) + } else if attr.path().is_ident("arg") { + Sp::new(AttrKind::Arg, attr.path().span()) + } else if attr.path().is_ident("value") { + Sp::new(AttrKind::Value, attr.path().span()) + } else { + continue; + }; + for mut attr in + attr.parse_args_with(Punctuated::<ClapAttr, Token![,]>::parse_terminated)? + { + attr.kind = kind; + parsed.push(attr); + } + } + Ok(parsed) + } + + pub fn value_or_abort(&self) -> Result<&AttrValue, syn::Error> { + self.value + .as_ref() + .ok_or_else(|| format_err!(self.name, "attribute `{}` requires a value", self.name)) + } + + pub fn lit_str_or_abort(&self) -> Result<&LitStr, syn::Error> { + let value = self.value_or_abort()?; + match value { + AttrValue::LitStr(tokens) => Ok(tokens), + AttrValue::Expr(_) | AttrValue::Call(_) => { + abort!( + self.name, + "attribute `{}` can only accept string literals", + self.name + ) + } + } + } +} + +impl Parse for ClapAttr { + fn parse(input: ParseStream) -> syn::Result<Self> { + let name: Ident = input.parse()?; + let name_str = name.to_string(); + + let magic = match name_str.as_str() { + "rename_all" => Some(MagicAttrName::RenameAll), + "rename_all_env" => Some(MagicAttrName::RenameAllEnv), + "skip" => Some(MagicAttrName::Skip), + "next_display_order" => Some(MagicAttrName::NextDisplayOrder), + "next_help_heading" => Some(MagicAttrName::NextHelpHeading), + "default_value_t" => Some(MagicAttrName::DefaultValueT), + "default_values_t" => Some(MagicAttrName::DefaultValuesT), + "default_value_os_t" => Some(MagicAttrName::DefaultValueOsT), + "default_values_os_t" => Some(MagicAttrName::DefaultValuesOsT), + "long" => Some(MagicAttrName::Long), + "short" => Some(MagicAttrName::Short), + "value_parser" => Some(MagicAttrName::ValueParser), + "action" => Some(MagicAttrName::Action), + "env" => Some(MagicAttrName::Env), + "flatten" => Some(MagicAttrName::Flatten), + "value_enum" => Some(MagicAttrName::ValueEnum), + "from_global" => Some(MagicAttrName::FromGlobal), + "subcommand" => Some(MagicAttrName::Subcommand), + "external_subcommand" => Some(MagicAttrName::ExternalSubcommand), + "verbatim_doc_comment" => Some(MagicAttrName::VerbatimDocComment), + "about" => Some(MagicAttrName::About), + "long_about" => Some(MagicAttrName::LongAbout), + "long_help" => Some(MagicAttrName::LongHelp), + "author" => Some(MagicAttrName::Author), + "version" => Some(MagicAttrName::Version), + _ => None, + }; + + let value = if input.peek(Token![=]) { + // `name = value` attributes. + let assign_token = input.parse::<Token![=]>()?; // skip '=' + if input.peek(LitStr) { + let lit: LitStr = input.parse()?; + Some(AttrValue::LitStr(lit)) + } else { + match input.parse::<Expr>() { + Ok(expr) => Some(AttrValue::Expr(expr)), + + Err(_) => abort! { + assign_token, + "expected `string literal` or `expression` after `=`" + }, + } + } + } else if input.peek(syn::token::Paren) { + // `name(...)` attributes. + let nested; + parenthesized!(nested in input); + + let method_args: Punctuated<_, _> = nested.parse_terminated(Expr::parse, Token![,])?; + Some(AttrValue::Call(Vec::from_iter(method_args))) + } else { + None + }; + + Ok(Self { + kind: Sp::new(AttrKind::Clap, name.span()), + name, + magic, + value, + }) + } +} + +#[derive(Copy, Clone, PartialEq, Eq)] +pub enum MagicAttrName { + Short, + Long, + ValueParser, + Action, + Env, + Flatten, + ValueEnum, + FromGlobal, + Subcommand, + VerbatimDocComment, + ExternalSubcommand, + About, + LongAbout, + LongHelp, + Author, + Version, + RenameAllEnv, + RenameAll, + Skip, + DefaultValueT, + DefaultValuesT, + DefaultValueOsT, + DefaultValuesOsT, + NextDisplayOrder, + NextHelpHeading, +} + +#[derive(Clone)] +#[allow(clippy::large_enum_variant)] +pub enum AttrValue { + LitStr(LitStr), + Expr(Expr), + Call(Vec<Expr>), +} + +impl ToTokens for AttrValue { + fn to_tokens(&self, tokens: &mut TokenStream) { + match self { + Self::LitStr(t) => t.to_tokens(tokens), + Self::Expr(t) => t.to_tokens(tokens), + Self::Call(t) => { + let t = quote!(#(#t),*); + t.to_tokens(tokens) + } + } + } +} + +#[derive(Copy, Clone, PartialEq, Eq)] +pub enum AttrKind { + Clap, + StructOpt, + Command, + Group, + Arg, + Value, +} + +impl AttrKind { + pub fn as_str(&self) -> &'static str { + match self { + Self::Clap => "clap", + Self::StructOpt => "structopt", + Self::Command => "command", + Self::Group => "group", + Self::Arg => "arg", + Self::Value => "value", + } + } +} diff --git a/vendor/clap_derive/src/derives/args.rs b/vendor/clap_derive/src/derives/args.rs new file mode 100644 index 0000000..279f6ca --- /dev/null +++ b/vendor/clap_derive/src/derives/args.rs @@ -0,0 +1,765 @@ +// Copyright 2018 Guillaume Pinot (@TeXitoi) <texitoi@texitoi.eu>, +// Kevin Knapp (@kbknapp) <kbknapp@gmail.com>, and +// Ana Hobden (@hoverbear) <operator@hoverbear.org> +// +// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or +// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license +// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your +// option. This file may not be copied, modified, or distributed +// except according to those terms. +// +// This work was derived from Structopt (https://github.com/TeXitoi/structopt) +// commit#ea76fa1b1b273e65e3b0b1046643715b49bec51f which is licensed under the +// MIT/Apache 2.0 license. + +use proc_macro2::{Ident, Span, TokenStream}; +use quote::{format_ident, quote, quote_spanned}; +use syn::{ + punctuated::Punctuated, spanned::Spanned, token::Comma, Data, DataStruct, DeriveInput, Field, + Fields, FieldsNamed, Generics, +}; + +use crate::item::{Item, Kind, Name}; +use crate::utils::{inner_type, sub_type, Sp, Ty}; + +pub fn derive_args(input: &DeriveInput) -> Result<TokenStream, syn::Error> { + let ident = &input.ident; + + match input.data { + Data::Struct(DataStruct { + fields: Fields::Named(ref fields), + .. + }) => { + let name = Name::Derived(ident.clone()); + let item = Item::from_args_struct(input, name)?; + let fields = collect_args_fields(&item, fields)?; + gen_for_struct(&item, ident, &input.generics, &fields) + } + Data::Struct(DataStruct { + fields: Fields::Unit, + .. + }) => { + let name = Name::Derived(ident.clone()); + let item = Item::from_args_struct(input, name)?; + let fields = Punctuated::<Field, Comma>::new(); + let fields = fields + .iter() + .map(|field| { + let item = Item::from_args_field(field, item.casing(), item.env_casing())?; + Ok((field, item)) + }) + .collect::<Result<Vec<_>, syn::Error>>()?; + gen_for_struct(&item, ident, &input.generics, &fields) + } + _ => abort_call_site!("`#[derive(Args)]` only supports non-tuple structs"), + } +} + +pub fn gen_for_struct( + item: &Item, + item_name: &Ident, + generics: &Generics, + fields: &[(&Field, 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 constructor = gen_constructor(fields)?; + let updater = gen_updater(fields, true)?; + let raw_deprecated = raw_deprecated(); + + let app_var = Ident::new("__clap_app", Span::call_site()); + let augmentation = gen_augment(fields, &app_var, item, false)?; + let augmentation_update = gen_augment(fields, &app_var, item, true)?; + + let group_id = if item.skip_group() { + quote!(None) + } else { + let group_id = item.group_id(); + quote!(Some(clap::Id::from(#group_id))) + }; + + 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()) + } + + fn from_arg_matches_mut(__clap_arg_matches: &mut clap::ArgMatches) -> ::std::result::Result<Self, clap::Error> { + #raw_deprecated + let v = #item_name #constructor; + ::std::result::Result::Ok(v) + } + + 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()) + } + + fn update_from_arg_matches_mut(&mut self, __clap_arg_matches: &mut clap::ArgMatches) -> ::std::result::Result<(), clap::Error> { + #raw_deprecated + #updater + ::std::result::Result::Ok(()) + } + } + + #[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::Args for #item_name #ty_generics #where_clause { + fn group_id() -> Option<clap::Id> { + #group_id + } + fn augment_args<'b>(#app_var: clap::Command) -> clap::Command { + #augmentation + } + fn augment_args_for_update<'b>(#app_var: clap::Command) -> clap::Command { + #augmentation_update + } + } + }) +} + +/// Generate a block of code to add arguments/subcommands corresponding to +/// the `fields` to an cmd. +pub fn gen_augment( + fields: &[(&Field, Item)], + app_var: &Ident, + parent_item: &Item, + override_required: bool, +) -> Result<TokenStream, syn::Error> { + let mut subcommand_specified = false; + let mut args = Vec::new(); + for (field, item) in fields { + let kind = item.kind(); + let genned = match &*kind { + Kind::Command(_) + | Kind::Value + | Kind::Skip(_, _) + | Kind::FromGlobal(_) + | Kind::ExternalSubcommand => None, + Kind::Subcommand(ty) => { + if subcommand_specified { + abort!( + field.span(), + "`#[command(subcommand)]` can only be used once per container" + ); + } + subcommand_specified = true; + + let subcmd_type = match (**ty, sub_type(&field.ty)) { + (Ty::Option, Some(sub_type)) => sub_type, + _ => &field.ty, + }; + let implicit_methods = if **ty == Ty::Option { + quote!() + } else { + quote_spanned! { kind.span()=> + .subcommand_required(true) + .arg_required_else_help(true) + } + }; + + let override_methods = if override_required { + quote_spanned! { kind.span()=> + .subcommand_required(false) + .arg_required_else_help(false) + } + } else { + quote!() + }; + + Some(quote! { + let #app_var = <#subcmd_type as clap::Subcommand>::augment_subcommands( #app_var ); + let #app_var = #app_var + #implicit_methods + #override_methods; + }) + } + Kind::Flatten(ty) => { + let inner_type = match (**ty, sub_type(&field.ty)) { + (Ty::Option, Some(sub_type)) => sub_type, + _ => &field.ty, + }; + + let next_help_heading = item.next_help_heading(); + let next_display_order = item.next_display_order(); + if override_required { + Some(quote_spanned! { kind.span()=> + let #app_var = #app_var + #next_help_heading + #next_display_order; + let #app_var = <#inner_type as clap::Args>::augment_args_for_update(#app_var); + }) + } else { + Some(quote_spanned! { kind.span()=> + let #app_var = #app_var + #next_help_heading + #next_display_order; + let #app_var = <#inner_type as clap::Args>::augment_args(#app_var); + }) + } + } + Kind::Arg(ty) => { + let value_parser = item.value_parser(&field.ty); + let action = item.action(&field.ty); + let value_name = item.value_name(); + + let implicit_methods = match **ty { + Ty::Unit => { + // Leaving out `value_parser` as it will always fail + quote_spanned! { ty.span()=> + .value_name(#value_name) + #action + } + } + Ty::Option => { + quote_spanned! { ty.span()=> + .value_name(#value_name) + #value_parser + #action + } + } + + Ty::OptionOption => quote_spanned! { ty.span()=> + .value_name(#value_name) + .num_args(0..=1) + #value_parser + #action + }, + + Ty::OptionVec => { + if item.is_positional() { + quote_spanned! { ty.span()=> + .value_name(#value_name) + .num_args(1..) // action won't be sufficient for getting multiple + #value_parser + #action + } + } else { + quote_spanned! { ty.span()=> + .value_name(#value_name) + #value_parser + #action + } + } + } + + Ty::Vec => { + if item.is_positional() { + quote_spanned! { ty.span()=> + .value_name(#value_name) + .num_args(1..) // action won't be sufficient for getting multiple + #value_parser + #action + } + } else { + quote_spanned! { ty.span()=> + .value_name(#value_name) + #value_parser + #action + } + } + } + + Ty::VecVec | Ty::OptionVecVec => { + quote_spanned! { ty.span() => + .value_name(#value_name) + #value_parser + #action + } + } + + Ty::Other => { + let required = item.find_default_method().is_none(); + // `ArgAction::takes_values` is assuming `ArgAction::default_value` will be + // set though that won't always be true but this should be good enough, + // otherwise we'll report an "arg required" error when unwrapping. + let action_value = action.args(); + quote_spanned! { ty.span()=> + .value_name(#value_name) + .required(#required && #action_value.takes_values()) + #value_parser + #action + } + } + }; + + let id = item.id(); + let explicit_methods = item.field_methods(); + let deprecations = if !override_required { + item.deprecations() + } else { + quote!() + }; + let override_methods = if override_required { + quote_spanned! { kind.span()=> + .required(false) + } + } else { + quote!() + }; + + Some(quote_spanned! { field.span()=> + let #app_var = #app_var.arg({ + #deprecations + + #[allow(deprecated)] + let arg = clap::Arg::new(#id) + #implicit_methods; + + let arg = arg + #explicit_methods; + + let arg = arg + #override_methods; + + arg + }); + }) + } + }; + args.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(); + let group_app_methods = if parent_item.skip_group() { + quote!() + } else { + let group_id = parent_item.group_id(); + let literal_group_members = fields + .iter() + .filter_map(|(_field, item)| { + let kind = item.kind(); + if matches!(*kind, Kind::Arg(_)) { + Some(item.id()) + } else { + None + } + }) + .collect::<Vec<_>>(); + let literal_group_members_len = literal_group_members.len(); + let mut literal_group_members = quote! {{ + let members: [clap::Id; #literal_group_members_len] = [#( clap::Id::from(#literal_group_members) ),* ]; + members + }}; + // HACK: Validation isn't ready yet for nested arg groups, so just don't populate the group in + // that situation + let possible_group_members_len = fields + .iter() + .filter(|(_field, item)| { + let kind = item.kind(); + matches!(*kind, Kind::Flatten(_)) + }) + .count(); + if 0 < possible_group_members_len { + literal_group_members = quote! {{ + let members: [clap::Id; 0] = []; + members + }}; + } + + let group_methods = parent_item.group_methods(); + + quote!( + .group( + clap::ArgGroup::new(#group_id) + .multiple(true) + #group_methods + .args(#literal_group_members) + ) + ) + }; + Ok(quote! {{ + #deprecations + let #app_var = #app_var + #initial_app_methods + #group_app_methods + ; + #( #args )* + #app_var #final_app_methods + }}) +} + +pub fn gen_constructor(fields: &[(&Field, Item)]) -> Result<TokenStream, syn::Error> { + let fields = fields.iter().map(|(field, item)| { + let field_name = field.ident.as_ref().unwrap(); + let kind = item.kind(); + let arg_matches = format_ident!("__clap_arg_matches"); + let genned = match &*kind { + Kind::Command(_) + | Kind::Value + | Kind::ExternalSubcommand => { + abort! { kind.span(), + "`{}` cannot be used with `arg`", + kind.name(), + } + } + Kind::Subcommand(ty) => { + let subcmd_type = match (**ty, sub_type(&field.ty)) { + (Ty::Option, Some(sub_type)) => sub_type, + _ => &field.ty, + }; + match **ty { + Ty::Option => { + quote_spanned! { kind.span()=> + #field_name: { + if #arg_matches.subcommand_name().map(<#subcmd_type as clap::Subcommand>::has_subcommand).unwrap_or(false) { + Some(<#subcmd_type as clap::FromArgMatches>::from_arg_matches_mut(#arg_matches)?) + } else { + None + } + } + } + }, + Ty::Other => { + quote_spanned! { kind.span()=> + #field_name: { + <#subcmd_type as clap::FromArgMatches>::from_arg_matches_mut(#arg_matches)? + } + } + }, + Ty::Unit | + Ty::Vec | + Ty::OptionOption | + Ty::OptionVec | + Ty::VecVec | + Ty::OptionVecVec => { + abort!( + ty.span(), + "{} types are not supported for subcommand", + ty.as_str() + ); + } + } + } + + Kind::Flatten(ty) => { + let inner_type = match (**ty, sub_type(&field.ty)) { + (Ty::Option, Some(sub_type)) => sub_type, + _ => &field.ty, + }; + match **ty { + Ty::Other => { + quote_spanned! { kind.span()=> + #field_name: <#inner_type as clap::FromArgMatches>::from_arg_matches_mut(#arg_matches)? + } + }, + Ty::Option => { + quote_spanned! { kind.span()=> + #field_name: { + let group_id = <#inner_type as clap::Args>::group_id() + .expect("`#[arg(flatten)]`ed field type implements `Args::group_id`"); + if #arg_matches.contains_id(group_id.as_str()) { + Some( + <#inner_type as clap::FromArgMatches>::from_arg_matches_mut(#arg_matches)? + ) + } else { + None + } + } + } + }, + Ty::Unit | + Ty::Vec | + Ty::OptionOption | + Ty::OptionVec | + Ty::VecVec | + Ty::OptionVecVec => { + abort!( + ty.span(), + "{} types are not supported for flatten", + ty.as_str() + ); + } + } + }, + + Kind::Skip(val, _) => match val { + None => quote_spanned!(kind.span()=> #field_name: Default::default()), + Some(val) => quote_spanned!(kind.span()=> #field_name: (#val).into()), + }, + + Kind::Arg(ty) | Kind::FromGlobal(ty) => { + gen_parsers(item, ty, field_name, field, None)? + } + }; + Ok(genned) + }).collect::<Result<Vec<_>, syn::Error>>()?; + + Ok(quote! {{ + #( #fields ),* + }}) +} + +pub fn gen_updater(fields: &[(&Field, Item)], use_self: bool) -> Result<TokenStream, syn::Error> { + let mut genned_fields = Vec::new(); + for (field, item) in fields { + let field_name = field.ident.as_ref().unwrap(); + let kind = item.kind(); + + let access = if use_self { + quote! { + #[allow(non_snake_case)] + let #field_name = &mut self.#field_name; + } + } else { + quote!() + }; + let arg_matches = format_ident!("__clap_arg_matches"); + + let genned = match &*kind { + Kind::Command(_) | Kind::Value | Kind::ExternalSubcommand => { + abort! { kind.span(), + "`{}` cannot be used with `arg`", + kind.name(), + } + } + Kind::Subcommand(ty) => { + let subcmd_type = match (**ty, sub_type(&field.ty)) { + (Ty::Option, Some(sub_type)) => sub_type, + _ => &field.ty, + }; + + let updater = quote_spanned! { ty.span()=> + <#subcmd_type as clap::FromArgMatches>::update_from_arg_matches_mut(#field_name, #arg_matches)?; + }; + + let updater = match **ty { + Ty::Option => quote_spanned! { kind.span()=> + if let Some(#field_name) = #field_name.as_mut() { + #updater + } else { + *#field_name = Some(<#subcmd_type as clap::FromArgMatches>::from_arg_matches_mut( + #arg_matches + )?); + } + }, + _ => quote_spanned! { kind.span()=> + #updater + }, + }; + + quote_spanned! { kind.span()=> + { + #access + #updater + } + } + } + + Kind::Flatten(ty) => { + let inner_type = match (**ty, sub_type(&field.ty)) { + (Ty::Option, Some(sub_type)) => sub_type, + _ => &field.ty, + }; + + let updater = quote_spanned! { ty.span()=> + <#inner_type as clap::FromArgMatches>::update_from_arg_matches_mut(#field_name, #arg_matches)?; + }; + + let updater = match **ty { + Ty::Option => quote_spanned! { kind.span()=> + if let Some(#field_name) = #field_name.as_mut() { + #updater + } else { + *#field_name = Some(<#inner_type as clap::FromArgMatches>::from_arg_matches_mut( + #arg_matches + )?); + } + }, + _ => quote_spanned! { kind.span()=> + #updater + }, + }; + + quote_spanned! { kind.span()=> + { + #access + #updater + } + } + } + + Kind::Skip(_, _) => quote!(), + + Kind::Arg(ty) | Kind::FromGlobal(ty) => { + gen_parsers(item, ty, field_name, field, Some(&access))? + } + }; + genned_fields.push(genned); + } + + Ok(quote! { + #( #genned_fields )* + }) +} + +fn gen_parsers( + item: &Item, + ty: &Sp<Ty>, + field_name: &Ident, + field: &Field, + update: Option<&TokenStream>, +) -> Result<TokenStream, syn::Error> { + let span = ty.span(); + let convert_type = inner_type(&field.ty); + let id = item.id(); + let get_one = quote_spanned!(span=> remove_one::<#convert_type>); + let get_many = quote_spanned!(span=> remove_many::<#convert_type>); + let get_occurrences = quote_spanned!(span=> remove_occurrences::<#convert_type>); + + // Give this identifier the same hygiene + // as the `arg_matches` parameter definition. This + // allows us to refer to `arg_matches` within a `quote_spanned` block + let arg_matches = format_ident!("__clap_arg_matches"); + + let field_value = match **ty { + Ty::Unit => { + quote_spanned! { ty.span()=> + () + } + } + + Ty::Option => { + quote_spanned! { ty.span()=> + #arg_matches.#get_one(#id) + } + } + + Ty::OptionOption => quote_spanned! { ty.span()=> + if #arg_matches.contains_id(#id) { + Some( + #arg_matches.#get_one(#id) + ) + } else { + None + } + }, + + Ty::OptionVec => quote_spanned! { ty.span()=> + if #arg_matches.contains_id(#id) { + Some(#arg_matches.#get_many(#id) + .map(|v| v.collect::<Vec<_>>()) + .unwrap_or_else(Vec::new)) + } else { + None + } + }, + + Ty::Vec => { + quote_spanned! { ty.span()=> + #arg_matches.#get_many(#id) + .map(|v| v.collect::<Vec<_>>()) + .unwrap_or_else(Vec::new) + } + } + + Ty::VecVec => quote_spanned! { ty.span()=> + #arg_matches.#get_occurrences(#id) + .map(|g| g.map(::std::iter::Iterator::collect).collect::<Vec<Vec<_>>>()) + .unwrap_or_else(Vec::new) + }, + + Ty::OptionVecVec => quote_spanned! { ty.span()=> + #arg_matches.#get_occurrences(#id) + .map(|g| g.map(::std::iter::Iterator::collect).collect::<Vec<Vec<_>>>()) + }, + + Ty::Other => { + quote_spanned! { ty.span()=> + #arg_matches.#get_one(#id) + .ok_or_else(|| clap::Error::raw(clap::error::ErrorKind::MissingRequiredArgument, concat!("The following required argument was not provided: ", #id)))? + } + } + }; + + let genned = if let Some(access) = update { + quote_spanned! { field.span()=> + if #arg_matches.contains_id(#id) { + #access + *#field_name = #field_value + } + } + } else { + quote_spanned!(field.span()=> #field_name: #field_value ) + }; + Ok(genned) +} + +#[cfg(feature = "raw-deprecated")] +pub fn raw_deprecated() -> TokenStream { + quote! {} +} + +#[cfg(not(feature = "raw-deprecated"))] +pub fn raw_deprecated() -> TokenStream { + quote! { + #![allow(deprecated)] // Assuming any deprecation in here will be related to a deprecation in `Args` + + } +} + +pub fn collect_args_fields<'a>( + item: &'a Item, + fields: &'a FieldsNamed, +) -> Result<Vec<(&'a Field, Item)>, syn::Error> { + fields + .named + .iter() + .map(|field| { + let item = Item::from_args_field(field, item.casing(), item.env_casing())?; + Ok((field, item)) + }) + .collect() +} diff --git a/vendor/clap_derive/src/derives/into_app.rs b/vendor/clap_derive/src/derives/into_app.rs new file mode 100644 index 0000000..5abf4ea --- /dev/null +++ b/vendor/clap_derive/src/derives/into_app.rs @@ -0,0 +1,117 @@ +// Copyright 2018 Guillaume Pinot (@TeXitoi) <texitoi@texitoi.eu>, +// Kevin Knapp (@kbknapp) <kbknapp@gmail.com>, and +// Ana Hobden (@hoverbear) <operator@hoverbear.org> +// +// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or +// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license +// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your +// option. This file may not be copied, modified, or distributed +// except according to those terms. +// +// This work was derived from Structopt (https://github.com/TeXitoi/structopt) +// commit#ea76fa1b1b273e65e3b0b1046643715b49bec51f which is licensed under the +// MIT/Apache 2.0 license. + +use proc_macro2::{Span, TokenStream}; +use quote::quote; +use syn::{Generics, Ident}; + +use crate::item::Item; + +pub fn gen_for_struct( + item: &Item, + item_name: &Ident, + generics: &Generics, +) -> Result<TokenStream, syn::Error> { + let (impl_generics, ty_generics, where_clause) = generics.split_for_impl(); + + let name = item.cased_name(); + let app_var = Ident::new("__clap_app", Span::call_site()); + + let tokens = 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::CommandFactory for #item_name #ty_generics #where_clause { + fn command<'b>() -> clap::Command { + let #app_var = clap::Command::new(#name); + <Self as clap::Args>::augment_args(#app_var) + } + + fn command_for_update<'b>() -> clap::Command { + let #app_var = clap::Command::new(#name); + <Self as clap::Args>::augment_args_for_update(#app_var) + } + } + }; + + Ok(tokens) +} + +pub fn gen_for_enum( + item: &Item, + item_name: &Ident, + generics: &Generics, +) -> Result<TokenStream, syn::Error> { + let (impl_generics, ty_generics, where_clause) = generics.split_for_impl(); + + let name = item.cased_name(); + let app_var = Ident::new("__clap_app", Span::call_site()); + + 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::CommandFactory for #item_name #ty_generics #where_clause { + fn command<'b>() -> clap::Command { + let #app_var = clap::Command::new(#name) + .subcommand_required(true) + .arg_required_else_help(true); + <Self as clap::Subcommand>::augment_subcommands(#app_var) + } + + fn command_for_update<'b>() -> clap::Command { + let #app_var = clap::Command::new(#name); + <Self as clap::Subcommand>::augment_subcommands_for_update(#app_var) + .subcommand_required(false) + .arg_required_else_help(false) + } + } + }) +} diff --git a/vendor/clap_derive/src/derives/mod.rs b/vendor/clap_derive/src/derives/mod.rs new file mode 100644 index 0000000..3deeb91 --- /dev/null +++ b/vendor/clap_derive/src/derives/mod.rs @@ -0,0 +1,23 @@ +// Copyright 2018 Guillaume Pinot (@TeXitoi) <texitoi@texitoi.eu>, +// Kevin Knapp (@kbknapp) <kbknapp@gmail.com>, and +// Ana Hobden (@hoverbear) <operator@hoverbear.org> +// +// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or +// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license +// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your +// option. This file may not be copied, modified, or distributed +// except according to those terms. +// +// This work was derived from Structopt (https://github.com/TeXitoi/structopt) +// commit#ea76fa1b1b273e65e3b0b1046643715b49bec51f which is licensed under the +// MIT/Apache 2.0 license. +mod args; +mod into_app; +mod parser; +mod subcommand; +mod value_enum; + +pub use self::parser::derive_parser; +pub use args::derive_args; +pub use subcommand::derive_subcommand; +pub use value_enum::derive_value_enum; diff --git a/vendor/clap_derive/src/derives/parser.rs b/vendor/clap_derive/src/derives/parser.rs new file mode 100644 index 0000000..e511bda --- /dev/null +++ b/vendor/clap_derive/src/derives/parser.rs @@ -0,0 +1,119 @@ +// Copyright 2018 Guillaume Pinot (@TeXitoi) <texitoi@texitoi.eu>, +// Kevin Knapp (@kbknapp) <kbknapp@gmail.com>, and +// Ana Hobden (@hoverbear) <operator@hoverbear.org> +// +// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or +// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license +// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your +// option. This file may not be copied, modified, or distributed +// except according to those terms. +// +// This work was derived from Structopt (https://github.com/TeXitoi/structopt) +// commit#ea76fa1b1b273e65e3b0b1046643715b49bec51f which is licensed under the +// MIT/Apache 2.0 license. + +use proc_macro2::TokenStream; +use quote::quote; +use syn::Ident; +use syn::Variant; +use syn::{ + self, punctuated::Punctuated, token::Comma, Data, DataStruct, DeriveInput, Field, Fields, + Generics, +}; + +use crate::derives::args::collect_args_fields; +use crate::derives::{args, into_app, subcommand}; +use crate::item::Item; +use crate::item::Name; + +pub fn derive_parser(input: &DeriveInput) -> Result<TokenStream, syn::Error> { + let ident = &input.ident; + let pkg_name = std::env::var("CARGO_PKG_NAME").ok().unwrap_or_default(); + + match input.data { + Data::Struct(DataStruct { + fields: Fields::Named(ref fields), + .. + }) => { + let name = Name::Assigned(quote!(#pkg_name)); + let item = Item::from_args_struct(input, name)?; + let fields = collect_args_fields(&item, fields)?; + gen_for_struct(&item, ident, &input.generics, &fields) + } + Data::Struct(DataStruct { + fields: Fields::Unit, + .. + }) => { + let name = Name::Assigned(quote!(#pkg_name)); + let item = Item::from_args_struct(input, name)?; + let fields = Punctuated::<Field, Comma>::new(); + let fields = fields + .iter() + .map(|field| { + let item = Item::from_args_field(field, item.casing(), item.env_casing())?; + Ok((field, item)) + }) + .collect::<Result<Vec<_>, syn::Error>>()?; + gen_for_struct(&item, ident, &input.generics, &fields) + } + Data::Enum(ref e) => { + let name = Name::Assigned(quote!(#pkg_name)); + 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(Parser)]` only supports non-tuple structs and enums"), + } +} + +fn gen_for_struct( + item: &Item, + item_name: &Ident, + generics: &Generics, + fields: &[(&Field, Item)], +) -> Result<TokenStream, syn::Error> { + let (impl_generics, ty_generics, where_clause) = generics.split_for_impl(); + + let into_app = into_app::gen_for_struct(item, item_name, generics)?; + let args = args::gen_for_struct(item, item_name, generics, fields)?; + + Ok(quote! { + #[automatically_derived] + #[allow( + unused_qualifications, + clippy::redundant_locals, + )] + impl #impl_generics clap::Parser for #item_name #ty_generics #where_clause {} + + #into_app + #args + }) +} + +fn gen_for_enum( + item: &Item, + item_name: &Ident, + generics: &Generics, + variants: &[(&Variant, Item)], +) -> Result<TokenStream, syn::Error> { + let (impl_generics, ty_generics, where_clause) = generics.split_for_impl(); + + let into_app = into_app::gen_for_enum(item, item_name, generics)?; + let subcommand = subcommand::gen_for_enum(item, item_name, generics, variants)?; + + Ok(quote! { + #[automatically_derived] + impl #impl_generics clap::Parser for #item_name #ty_generics #where_clause {} + + #into_app + #subcommand + }) +} diff --git a/vendor/clap_derive/src/derives/subcommand.rs b/vendor/clap_derive/src/derives/subcommand.rs new file mode 100644 index 0000000..da438d3 --- /dev/null +++ b/vendor/clap_derive/src/derives/subcommand.rs @@ -0,0 +1,674 @@ +// Copyright 2018 Guillaume Pinot (@TeXitoi) <texitoi@texitoi.eu>, +// Kevin Knapp (@kbknapp) <kbknapp@gmail.com>, and +// Ana Hobden (@hoverbear) <operator@hoverbear.org> +// +// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or +// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license +// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your +// option. This file may not be copied, modified, or distributed +// except according to those terms. +// +// This work was derived from Structopt (https://github.com/TeXitoi/structopt) +// commit#ea76fa1b1b273e65e3b0b1046643715b49bec51f which is licensed under the +// MIT/Apache 2.0 license. + +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 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 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::*; + + 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) => { + // Defer to `gen_augment` for adding cmd methods + 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::*; + + 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::*; + + 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::*; + + let (flatten, variants): (Vec<_>, Vec<_>) = variants + .iter() + .filter_map(|(variant, item)| { + let kind = item.kind(); + match &*kind { + // Fallback to `from_arg_matches_mut` + 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(()) + } + }) +} diff --git a/vendor/clap_derive/src/derives/value_enum.rs b/vendor/clap_derive/src/derives/value_enum.rs new file mode 100644 index 0000000..c0e0434 --- /dev/null +++ b/vendor/clap_derive/src/derives/value_enum.rs @@ -0,0 +1,130 @@ +// Copyright 2018 Guillaume Pinot (@TeXitoi) <texitoi@texitoi.eu>, +// Kevin Knapp (@kbknapp) <kbknapp@gmail.com>, and +// Ana Hobden (@hoverbear) <operator@hoverbear.org> +// +// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or +// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license +// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your +// option. This file may not be copied, modified, or distributed +// except according to those terms. + +use proc_macro2::TokenStream; +use quote::quote; +use quote::quote_spanned; +use syn::{spanned::Spanned, Data, DeriveInput, Fields, Ident, Variant}; + +use crate::item::{Item, Kind, Name}; + +pub fn derive_value_enum(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_value_enum(input, name)?; + let mut variants = Vec::new(); + for variant in &e.variants { + let item = + Item::from_value_enum_variant(variant, item.casing(), item.env_casing())?; + variants.push((variant, item)); + } + gen_for_enum(&item, ident, &variants) + } + _ => abort_call_site!("`#[derive(ValueEnum)]` only supports enums"), + } +} + +pub fn gen_for_enum( + item: &Item, + item_name: &Ident, + variants: &[(&Variant, Item)], +) -> Result<TokenStream, syn::Error> { + if !matches!(&*item.kind(), Kind::Value) { + abort! { item.kind().span(), + "`{}` cannot be used with `value`", + item.kind().name(), + } + } + + let lits = lits(variants)?; + let value_variants = gen_value_variants(&lits); + let to_possible_value = gen_to_possible_value(item, &lits); + + 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 clap::ValueEnum for #item_name { + #value_variants + #to_possible_value + } + }) +} + +fn lits(variants: &[(&Variant, Item)]) -> Result<Vec<(TokenStream, Ident)>, syn::Error> { + let mut genned = Vec::new(); + for (variant, item) in variants { + if let Kind::Skip(_, _) = &*item.kind() { + continue; + } + if !matches!(variant.fields, Fields::Unit) { + abort!(variant.span(), "`#[derive(ValueEnum)]` only supports unit variants. Non-unit variants must be skipped"); + } + let fields = item.field_methods(); + let deprecations = item.deprecations(); + let name = item.cased_name(); + genned.push(( + quote_spanned! { variant.span()=> { + #deprecations + clap::builder::PossibleValue::new(#name) + #fields + }}, + variant.ident.clone(), + )); + } + Ok(genned) +} + +fn gen_value_variants(lits: &[(TokenStream, Ident)]) -> TokenStream { + let lit = lits.iter().map(|l| &l.1).collect::<Vec<_>>(); + + quote! { + fn value_variants<'a>() -> &'a [Self]{ + &[#(Self::#lit),*] + } + } +} + +fn gen_to_possible_value(item: &Item, lits: &[(TokenStream, Ident)]) -> TokenStream { + let (lit, variant): (Vec<TokenStream>, Vec<Ident>) = lits.iter().cloned().unzip(); + + let deprecations = item.deprecations(); + + quote! { + fn to_possible_value<'a>(&self) -> ::std::option::Option<clap::builder::PossibleValue> { + #deprecations + match self { + #(Self::#variant => Some(#lit),)* + _ => None + } + } + } +} diff --git a/vendor/clap_derive/src/dummies.rs b/vendor/clap_derive/src/dummies.rs new file mode 100644 index 0000000..3a1581b --- /dev/null +++ b/vendor/clap_derive/src/dummies.rs @@ -0,0 +1,99 @@ +//! Dummy implementations that we emit along with an error. + +use proc_macro2::Ident; +use quote::quote; + +#[must_use] +pub fn parser(name: &Ident) -> proc_macro2::TokenStream { + let into_app = into_app(name); + quote!( + #[automatically_derived] + impl clap::Parser for #name {} + #into_app + ) +} + +#[must_use] +pub fn into_app(name: &Ident) -> proc_macro2::TokenStream { + quote! { + #[automatically_derived] + impl clap::CommandFactory for #name { + fn command<'b>() -> clap::Command { + unimplemented!() + } + fn command_for_update<'b>() -> clap::Command { + unimplemented!() + } + } + } +} + +#[must_use] +pub fn from_arg_matches(name: &Ident) -> proc_macro2::TokenStream { + quote! { + #[automatically_derived] + impl clap::FromArgMatches for #name { + fn from_arg_matches(_m: &clap::ArgMatches) -> ::std::result::Result<Self, clap::Error> { + unimplemented!() + } + fn update_from_arg_matches(&mut self, matches: &clap::ArgMatches) -> ::std::result::Result<(), clap::Error>{ + unimplemented!() + } + } + } +} + +#[must_use] +pub fn subcommand(name: &Ident) -> proc_macro2::TokenStream { + let from_arg_matches = from_arg_matches(name); + quote! { + #[automatically_derived] + impl clap::Subcommand for #name { + fn augment_subcommands(_cmd: clap::Command) -> clap::Command { + unimplemented!() + } + fn augment_subcommands_for_update(_cmd: clap::Command) -> clap::Command { + unimplemented!() + } + fn has_subcommand(name: &str) -> bool { + unimplemented!() + } + } + #from_arg_matches + } +} + +#[must_use] +pub fn args(name: &Ident) -> proc_macro2::TokenStream { + let from_arg_matches = from_arg_matches(name); + quote! { + #[automatically_derived] + impl clap::Args for #name { + fn augment_args(_cmd: clap::Command) -> clap::Command { + unimplemented!() + } + fn augment_args_for_update(_cmd: clap::Command) -> clap::Command { + unimplemented!() + } + } + #from_arg_matches + } +} + +#[must_use] +pub fn value_enum(name: &Ident) -> proc_macro2::TokenStream { + quote! { + #[automatically_derived] + impl clap::ValueEnum for #name { + fn value_variants<'a>() -> &'a [Self]{ + unimplemented!() + } + fn from_str(_input: &str, _ignore_case: bool) -> ::std::result::Result<Self, String> { + unimplemented!() + } + fn to_possible_value<'a>(&self) -> ::std::option::Option<clap::builder::PossibleValue>{ + unimplemented!() + } + } + } +} diff --git a/vendor/clap_derive/src/item.rs b/vendor/clap_derive/src/item.rs new file mode 100644 index 0000000..114849f --- /dev/null +++ b/vendor/clap_derive/src/item.rs @@ -0,0 +1,1468 @@ +// Copyright 2018 Guillaume Pinot (@TeXitoi) <texitoi@texitoi.eu>, +// Kevin Knapp (@kbknapp) <kbknapp@gmail.com>, and +// Ana Hobden (@hoverbear) <operator@hoverbear.org> +// +// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or +// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license +// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your +// option. This file may not be copied, modified, or distributed +// except according to those terms. +// +// This work was derived from Structopt (https://github.com/TeXitoi/structopt) +// commit#ea76fa1b1b273e65e3b0b1046643715b49bec51f which is licensed under the +// MIT/Apache 2.0 license. + +use std::env; + +use heck::{ToKebabCase, ToLowerCamelCase, ToShoutySnakeCase, ToSnakeCase, ToUpperCamelCase}; +use proc_macro2::{self, Span, TokenStream}; +use quote::{format_ident, quote, quote_spanned, ToTokens}; +use syn::DeriveInput; +use syn::{self, ext::IdentExt, spanned::Spanned, Attribute, Field, Ident, LitStr, Type, Variant}; + +use crate::attr::*; +use crate::utils::{extract_doc_comment, format_doc_comment, inner_type, is_simple_ty, Sp, Ty}; + +/// Default casing style for generated arguments. +pub const DEFAULT_CASING: CasingStyle = CasingStyle::Kebab; + +/// Default casing style for environment variables +pub const DEFAULT_ENV_CASING: CasingStyle = CasingStyle::ScreamingSnake; + +#[derive(Clone)] +pub struct Item { + name: Name, + casing: Sp<CasingStyle>, + env_casing: Sp<CasingStyle>, + ty: Option<Type>, + doc_comment: Vec<Method>, + methods: Vec<Method>, + deprecations: Vec<Deprecation>, + value_parser: Option<ValueParser>, + action: Option<Action>, + verbatim_doc_comment: bool, + force_long_help: bool, + next_display_order: Option<Method>, + next_help_heading: Option<Method>, + is_enum: bool, + is_positional: bool, + skip_group: bool, + group_id: Name, + group_methods: Vec<Method>, + kind: Sp<Kind>, +} + +impl Item { + pub fn from_args_struct(input: &DeriveInput, name: Name) -> Result<Self, syn::Error> { + let ident = input.ident.clone(); + let span = input.ident.span(); + let attrs = &input.attrs; + let argument_casing = Sp::new(DEFAULT_CASING, span); + let env_casing = Sp::new(DEFAULT_ENV_CASING, span); + let kind = Sp::new(Kind::Command(Sp::new(Ty::Other, span)), span); + + let mut res = Self::new(name, ident, None, argument_casing, env_casing, kind); + let parsed_attrs = ClapAttr::parse_all(attrs)?; + res.infer_kind(&parsed_attrs)?; + res.push_attrs(&parsed_attrs)?; + res.push_doc_comment(attrs, "about", Some("long_about")); + + Ok(res) + } + + pub fn from_subcommand_enum(input: &DeriveInput, name: Name) -> Result<Self, syn::Error> { + let ident = input.ident.clone(); + let span = input.ident.span(); + let attrs = &input.attrs; + let argument_casing = Sp::new(DEFAULT_CASING, span); + let env_casing = Sp::new(DEFAULT_ENV_CASING, span); + let kind = Sp::new(Kind::Command(Sp::new(Ty::Other, span)), span); + + let mut res = Self::new(name, ident, None, argument_casing, env_casing, kind); + let parsed_attrs = ClapAttr::parse_all(attrs)?; + res.infer_kind(&parsed_attrs)?; + res.push_attrs(&parsed_attrs)?; + res.push_doc_comment(attrs, "about", Some("long_about")); + + Ok(res) + } + + pub fn from_value_enum(input: &DeriveInput, name: Name) -> Result<Self, syn::Error> { + let ident = input.ident.clone(); + let span = input.ident.span(); + let attrs = &input.attrs; + let argument_casing = Sp::new(DEFAULT_CASING, span); + let env_casing = Sp::new(DEFAULT_ENV_CASING, span); + let kind = Sp::new(Kind::Value, span); + + let mut res = Self::new(name, ident, None, argument_casing, env_casing, kind); + let parsed_attrs = ClapAttr::parse_all(attrs)?; + res.infer_kind(&parsed_attrs)?; + res.push_attrs(&parsed_attrs)?; + // Ignoring `push_doc_comment` as there is no top-level clap builder to add documentation + // to + + if res.has_explicit_methods() { + abort!( + res.methods[0].name.span(), + "{} doesn't exist for `ValueEnum` enums", + res.methods[0].name + ); + } + + Ok(res) + } + + pub fn from_subcommand_variant( + variant: &Variant, + struct_casing: Sp<CasingStyle>, + env_casing: Sp<CasingStyle>, + ) -> Result<Self, syn::Error> { + let name = variant.ident.clone(); + let ident = variant.ident.clone(); + let span = variant.span(); + let ty = match variant.fields { + syn::Fields::Unnamed(syn::FieldsUnnamed { ref unnamed, .. }) if unnamed.len() == 1 => { + Ty::from_syn_ty(&unnamed[0].ty) + } + syn::Fields::Named(_) | syn::Fields::Unnamed(..) | syn::Fields::Unit => { + Sp::new(Ty::Other, span) + } + }; + let kind = Sp::new(Kind::Command(ty), span); + let mut res = Self::new( + Name::Derived(name), + ident, + None, + struct_casing, + env_casing, + kind, + ); + let parsed_attrs = ClapAttr::parse_all(&variant.attrs)?; + res.infer_kind(&parsed_attrs)?; + res.push_attrs(&parsed_attrs)?; + if matches!(&*res.kind, Kind::Command(_) | Kind::Subcommand(_)) { + res.push_doc_comment(&variant.attrs, "about", Some("long_about")); + } + + match &*res.kind { + Kind::Flatten(_) => { + if res.has_explicit_methods() { + abort!( + res.kind.span(), + "methods are not allowed for flattened entry" + ); + } + } + + Kind::Subcommand(_) + | Kind::ExternalSubcommand + | Kind::FromGlobal(_) + | Kind::Skip(_, _) + | Kind::Command(_) + | Kind::Value + | Kind::Arg(_) => (), + } + + Ok(res) + } + + pub fn from_value_enum_variant( + variant: &Variant, + argument_casing: Sp<CasingStyle>, + env_casing: Sp<CasingStyle>, + ) -> Result<Self, syn::Error> { + let ident = variant.ident.clone(); + let span = variant.span(); + let kind = Sp::new(Kind::Value, span); + let mut res = Self::new( + Name::Derived(variant.ident.clone()), + ident, + None, + argument_casing, + env_casing, + kind, + ); + let parsed_attrs = ClapAttr::parse_all(&variant.attrs)?; + res.infer_kind(&parsed_attrs)?; + res.push_attrs(&parsed_attrs)?; + if matches!(&*res.kind, Kind::Value) { + res.push_doc_comment(&variant.attrs, "help", None); + } + + Ok(res) + } + + pub fn from_args_field( + field: &Field, + struct_casing: Sp<CasingStyle>, + env_casing: Sp<CasingStyle>, + ) -> Result<Self, syn::Error> { + let name = field.ident.clone().unwrap(); + let ident = field.ident.clone().unwrap(); + let span = field.span(); + let ty = Ty::from_syn_ty(&field.ty); + let kind = Sp::new(Kind::Arg(ty), span); + let mut res = Self::new( + Name::Derived(name), + ident, + Some(field.ty.clone()), + struct_casing, + env_casing, + kind, + ); + let parsed_attrs = ClapAttr::parse_all(&field.attrs)?; + res.infer_kind(&parsed_attrs)?; + res.push_attrs(&parsed_attrs)?; + if matches!(&*res.kind, Kind::Arg(_)) { + res.push_doc_comment(&field.attrs, "help", Some("long_help")); + } + + match &*res.kind { + Kind::Flatten(_) => { + if res.has_explicit_methods() { + abort!( + res.kind.span(), + "methods are not allowed for flattened entry" + ); + } + } + + Kind::Subcommand(_) => { + if res.has_explicit_methods() { + abort!( + res.kind.span(), + "methods in attributes are not allowed for subcommand" + ); + } + } + Kind::Skip(_, _) + | Kind::FromGlobal(_) + | Kind::Arg(_) + | Kind::Command(_) + | Kind::Value + | Kind::ExternalSubcommand => {} + } + + Ok(res) + } + + fn new( + name: Name, + ident: Ident, + ty: Option<Type>, + casing: Sp<CasingStyle>, + env_casing: Sp<CasingStyle>, + kind: Sp<Kind>, + ) -> Self { + let group_id = Name::Derived(ident); + Self { + name, + ty, + casing, + env_casing, + doc_comment: vec![], + methods: vec![], + deprecations: vec![], + value_parser: None, + action: None, + verbatim_doc_comment: false, + force_long_help: false, + next_display_order: None, + next_help_heading: None, + is_enum: false, + is_positional: true, + skip_group: false, + group_id, + group_methods: vec![], + kind, + } + } + + fn push_method(&mut self, kind: AttrKind, name: Ident, arg: impl ToTokens) { + self.push_method_(kind, name, arg.to_token_stream()); + } + + fn push_method_(&mut self, kind: AttrKind, name: Ident, arg: TokenStream) { + if name == "id" { + match kind { + AttrKind::Command | AttrKind::Value => { + self.deprecations.push(Deprecation { + span: name.span(), + id: "id_is_only_for_arg", + version: "4.0.0", + description: format!( + "`#[{}(id)] was allowed by mistake, instead use `#[{}(name)]`", + kind.as_str(), + kind.as_str() + ), + }); + self.name = Name::Assigned(arg); + } + AttrKind::Group => { + self.group_id = Name::Assigned(arg); + } + AttrKind::Arg | AttrKind::Clap | AttrKind::StructOpt => { + self.name = Name::Assigned(arg); + } + } + } else if name == "name" { + match kind { + AttrKind::Arg => { + self.deprecations.push(Deprecation { + span: name.span(), + id: "id_is_only_for_arg", + version: "4.0.0", + description: format!( + "`#[{}(name)] was allowed by mistake, instead use `#[{}(id)]` or `#[{}(value_name)]`", + kind.as_str(), + kind.as_str(), + kind.as_str() + ), + }); + self.name = Name::Assigned(arg); + } + AttrKind::Group => self.group_methods.push(Method::new(name, arg)), + AttrKind::Command | AttrKind::Value | AttrKind::Clap | AttrKind::StructOpt => { + self.name = Name::Assigned(arg); + } + } + } else if name == "value_parser" { + self.value_parser = Some(ValueParser::Explicit(Method::new(name, arg))); + } else if name == "action" { + self.action = Some(Action::Explicit(Method::new(name, arg))); + } else { + if name == "short" || name == "long" { + self.is_positional = false; + } + match kind { + AttrKind::Group => self.group_methods.push(Method::new(name, arg)), + _ => self.methods.push(Method::new(name, arg)), + }; + } + } + + fn infer_kind(&mut self, attrs: &[ClapAttr]) -> Result<(), syn::Error> { + for attr in attrs { + if let Some(AttrValue::Call(_)) = &attr.value { + continue; + } + + let actual_attr_kind = *attr.kind.get(); + let kind = match &attr.magic { + Some(MagicAttrName::FromGlobal) => { + if attr.value.is_some() { + let expr = attr.value_or_abort()?; + abort!(expr, "attribute `{}` does not accept a value", attr.name); + } + let ty = self + .kind() + .ty() + .cloned() + .unwrap_or_else(|| Sp::new(Ty::Other, self.kind.span())); + let kind = Sp::new(Kind::FromGlobal(ty), attr.name.clone().span()); + Some(kind) + } + Some(MagicAttrName::Subcommand) if attr.value.is_none() => { + if attr.value.is_some() { + let expr = attr.value_or_abort()?; + abort!(expr, "attribute `{}` does not accept a value", attr.name); + } + let ty = self + .kind() + .ty() + .cloned() + .unwrap_or_else(|| Sp::new(Ty::Other, self.kind.span())); + let kind = Sp::new(Kind::Subcommand(ty), attr.name.clone().span()); + Some(kind) + } + Some(MagicAttrName::ExternalSubcommand) if attr.value.is_none() => { + if attr.value.is_some() { + let expr = attr.value_or_abort()?; + abort!(expr, "attribute `{}` does not accept a value", attr.name); + } + let kind = Sp::new(Kind::ExternalSubcommand, attr.name.clone().span()); + Some(kind) + } + Some(MagicAttrName::Flatten) if attr.value.is_none() => { + if attr.value.is_some() { + let expr = attr.value_or_abort()?; + abort!(expr, "attribute `{}` does not accept a value", attr.name); + } + let ty = self + .kind() + .ty() + .cloned() + .unwrap_or_else(|| Sp::new(Ty::Other, self.kind.span())); + let kind = Sp::new(Kind::Flatten(ty), attr.name.clone().span()); + Some(kind) + } + Some(MagicAttrName::Skip) if actual_attr_kind != AttrKind::Group => { + let expr = attr.value.clone(); + let kind = Sp::new( + Kind::Skip(expr, self.kind.attr_kind()), + attr.name.clone().span(), + ); + Some(kind) + } + _ => None, + }; + + if let Some(kind) = kind { + self.set_kind(kind)?; + } + } + + Ok(()) + } + + fn push_attrs(&mut self, attrs: &[ClapAttr]) -> Result<(), syn::Error> { + for attr in attrs { + let actual_attr_kind = *attr.kind.get(); + let expected_attr_kind = self.kind.attr_kind(); + match (actual_attr_kind, expected_attr_kind) { + (AttrKind::Clap, _) | (AttrKind::StructOpt, _) => { + self.deprecations.push(Deprecation::attribute( + "4.0.0", + actual_attr_kind, + expected_attr_kind, + attr.kind.span(), + )); + } + + (AttrKind::Group, AttrKind::Command) => {} + + _ if attr.kind != expected_attr_kind => { + abort!( + attr.kind.span(), + "Expected `{}` attribute instead of `{}`", + expected_attr_kind.as_str(), + actual_attr_kind.as_str() + ); + } + + _ => {} + } + + if let Some(AttrValue::Call(tokens)) = &attr.value { + // Force raw mode with method call syntax + self.push_method(*attr.kind.get(), attr.name.clone(), quote!(#(#tokens),*)); + continue; + } + + match &attr.magic { + Some(MagicAttrName::Short) if attr.value.is_none() => { + assert_attr_kind(attr, &[AttrKind::Arg])?; + + self.push_method( + *attr.kind.get(), + attr.name.clone(), + self.name.clone().translate_char(*self.casing), + ); + } + + Some(MagicAttrName::Long) if attr.value.is_none() => { + assert_attr_kind(attr, &[AttrKind::Arg])?; + + self.push_method(*attr.kind.get(), attr.name.clone(), self.name.clone().translate(*self.casing)); + } + + Some(MagicAttrName::ValueParser) if attr.value.is_none() => { + assert_attr_kind(attr, &[AttrKind::Arg])?; + + self.deprecations.push(Deprecation { + span: attr.name.span(), + id: "bare_value_parser", + version: "4.0.0", + description: "`#[arg(value_parser)]` is now the default and is no longer needed`".to_owned(), + }); + self.value_parser = Some(ValueParser::Implicit(attr.name.clone())); + } + + Some(MagicAttrName::Action) if attr.value.is_none() => { + assert_attr_kind(attr, &[AttrKind::Arg])?; + + self.deprecations.push(Deprecation { + span: attr.name.span(), + id: "bare_action", + version: "4.0.0", + description: "`#[arg(action)]` is now the default and is no longer needed`".to_owned(), + }); + self.action = Some(Action::Implicit(attr.name.clone())); + } + + Some(MagicAttrName::Env) if attr.value.is_none() => { + assert_attr_kind(attr, &[AttrKind::Arg])?; + + self.push_method( + *attr.kind.get(), + attr.name.clone(), + self.name.clone().translate(*self.env_casing), + ); + } + + Some(MagicAttrName::ValueEnum) if attr.value.is_none() => { + assert_attr_kind(attr, &[AttrKind::Arg])?; + + self.is_enum = true + } + + Some(MagicAttrName::VerbatimDocComment) if attr.value.is_none() => { + self.verbatim_doc_comment = true + } + + Some(MagicAttrName::About) if attr.value.is_none() => { + assert_attr_kind(attr, &[AttrKind::Command])?; + + if let Some(method) = + Method::from_env(attr.name.clone(), "CARGO_PKG_DESCRIPTION")? + { + self.methods.push(method); + } + } + + Some(MagicAttrName::LongAbout) if attr.value.is_none() => { + assert_attr_kind(attr, &[AttrKind::Command])?; + + self.force_long_help = true; + } + + Some(MagicAttrName::LongHelp) if attr.value.is_none() => { + assert_attr_kind(attr, &[AttrKind::Arg])?; + + self.force_long_help = true; + } + + Some(MagicAttrName::Author) if attr.value.is_none() => { + assert_attr_kind(attr, &[AttrKind::Command])?; + + if let Some(method) = Method::from_env(attr.name.clone(), "CARGO_PKG_AUTHORS")? { + self.methods.push(method); + } + } + + Some(MagicAttrName::Version) if attr.value.is_none() => { + assert_attr_kind(attr, &[AttrKind::Command])?; + + if let Some(method) = Method::from_env(attr.name.clone(), "CARGO_PKG_VERSION")? { + self.methods.push(method); + } + } + + Some(MagicAttrName::DefaultValueT) => { + assert_attr_kind(attr, &[AttrKind::Arg])?; + + let ty = if let Some(ty) = self.ty.as_ref() { + ty + } else { + abort!( + attr.name.clone(), + "#[arg(default_value_t)] (without an argument) can be used \ + only on field level\n\n= note: {note}\n\n", + + note = "see \ + https://github.com/clap-rs/clap/blob/master/examples/derive_ref/README.md#magic-attributes") + }; + + let val = if let Some(expr) = &attr.value { + quote!(#expr) + } else { + quote!(<#ty as ::std::default::Default>::default()) + }; + + let val = if attrs + .iter() + .any(|a| a.magic == Some(MagicAttrName::ValueEnum)) + { + quote_spanned!(attr.name.clone().span()=> { + static DEFAULT_VALUE: ::std::sync::OnceLock<String> = ::std::sync::OnceLock::new(); + let s = DEFAULT_VALUE.get_or_init(|| { + let val: #ty = #val; + clap::ValueEnum::to_possible_value(&val).unwrap().get_name().to_owned() + }); + let s: &'static str = &*s; + s + }) + } else { + quote_spanned!(attr.name.clone().span()=> { + static DEFAULT_VALUE: ::std::sync::OnceLock<String> = ::std::sync::OnceLock::new(); + let s = DEFAULT_VALUE.get_or_init(|| { + let val: #ty = #val; + ::std::string::ToString::to_string(&val) + }); + let s: &'static str = &*s; + s + }) + }; + + let raw_ident = Ident::new("default_value", attr.name.clone().span()); + self.methods.push(Method::new(raw_ident, val)); + } + + Some(MagicAttrName::DefaultValuesT) => { + assert_attr_kind(attr, &[AttrKind::Arg])?; + + let ty = if let Some(ty) = self.ty.as_ref() { + ty + } else { + abort!( + attr.name.clone(), + "#[arg(default_values_t)] (without an argument) can be used \ + only on field level\n\n= note: {note}\n\n", + + note = "see \ + https://github.com/clap-rs/clap/blob/master/examples/derive_ref/README.md#magic-attributes") + }; + let expr = attr.value_or_abort()?; + + let container_type = Ty::from_syn_ty(ty); + if *container_type != Ty::Vec { + abort!( + attr.name.clone(), + "#[arg(default_values_t)] can be used only on Vec types\n\n= note: {note}\n\n", + + note = "see \ + https://github.com/clap-rs/clap/blob/master/examples/derive_ref/README.md#magic-attributes") + } + let inner_type = inner_type(ty); + + // Use `Borrow<#inner_type>` so we accept `&Vec<#inner_type>` and + // `Vec<#inner_type>`. + let val = if attrs + .iter() + .any(|a| a.magic == Some(MagicAttrName::ValueEnum)) + { + quote_spanned!(attr.name.clone().span()=> { + { + fn iter_to_vals<T>(iterable: impl IntoIterator<Item = T>) -> impl Iterator<Item=String> + where + T: ::std::borrow::Borrow<#inner_type> + { + iterable + .into_iter() + .map(|val| { + clap::ValueEnum::to_possible_value(val.borrow()).unwrap().get_name().to_owned() + }) + } + + static DEFAULT_STRINGS: ::std::sync::OnceLock<Vec<String>> = ::std::sync::OnceLock::new(); + static DEFAULT_VALUES: ::std::sync::OnceLock<Vec<&str>> = ::std::sync::OnceLock::new(); + DEFAULT_VALUES.get_or_init(|| { + DEFAULT_STRINGS.get_or_init(|| iter_to_vals(#expr).collect()).iter().map(::std::string::String::as_str).collect() + }).iter().copied() + } + }) + } else { + quote_spanned!(attr.name.clone().span()=> { + { + fn iter_to_vals<T>(iterable: impl IntoIterator<Item = T>) -> impl Iterator<Item=String> + where + T: ::std::borrow::Borrow<#inner_type> + { + iterable.into_iter().map(|val| val.borrow().to_string()) + } + + static DEFAULT_STRINGS: ::std::sync::OnceLock<Vec<String>> = ::std::sync::OnceLock::new(); + static DEFAULT_VALUES: ::std::sync::OnceLock<Vec<&str>> = ::std::sync::OnceLock::new(); + DEFAULT_VALUES.get_or_init(|| { + DEFAULT_STRINGS.get_or_init(|| iter_to_vals(#expr).collect()).iter().map(::std::string::String::as_str).collect() + }).iter().copied() + } + }) + }; + + self.methods.push(Method::new( + Ident::new("default_values", attr.name.clone().span()), + val, + )); + } + + Some(MagicAttrName::DefaultValueOsT) => { + assert_attr_kind(attr, &[AttrKind::Arg])?; + + let ty = if let Some(ty) = self.ty.as_ref() { + ty + } else { + abort!( + attr.name.clone(), + "#[arg(default_value_os_t)] (without an argument) can be used \ + only on field level\n\n= note: {note}\n\n", + + note = "see \ + https://github.com/clap-rs/clap/blob/master/examples/derive_ref/README.md#magic-attributes") + }; + + let val = if let Some(expr) = &attr.value { + quote!(#expr) + } else { + quote!(<#ty as ::std::default::Default>::default()) + }; + + let val = if attrs + .iter() + .any(|a| a.magic == Some(MagicAttrName::ValueEnum)) + { + quote_spanned!(attr.name.clone().span()=> { + static DEFAULT_VALUE: ::std::sync::OnceLock<String> = ::std::sync::OnceLock::new(); + let s = DEFAULT_VALUE.get_or_init(|| { + let val: #ty = #val; + clap::ValueEnum::to_possible_value(&val).unwrap().get_name().to_owned() + }); + let s: &'static str = &*s; + s + }) + } else { + quote_spanned!(attr.name.clone().span()=> { + static DEFAULT_VALUE: ::std::sync::OnceLock<::std::ffi::OsString> = ::std::sync::OnceLock::new(); + let s = DEFAULT_VALUE.get_or_init(|| { + let val: #ty = #val; + ::std::ffi::OsString::from(val) + }); + let s: &'static ::std::ffi::OsStr = &*s; + s + }) + }; + + let raw_ident = Ident::new("default_value", attr.name.clone().span()); + self.methods.push(Method::new(raw_ident, val)); + } + + Some(MagicAttrName::DefaultValuesOsT) => { + assert_attr_kind(attr, &[AttrKind::Arg])?; + + let ty = if let Some(ty) = self.ty.as_ref() { + ty + } else { + abort!( + attr.name.clone(), + "#[arg(default_values_os_t)] (without an argument) can be used \ + only on field level\n\n= note: {note}\n\n", + + note = "see \ + https://github.com/clap-rs/clap/blob/master/examples/derive_ref/README.md#magic-attributes") + }; + let expr = attr.value_or_abort()?; + + let container_type = Ty::from_syn_ty(ty); + if *container_type != Ty::Vec { + abort!( + attr.name.clone(), + "#[arg(default_values_os_t)] can be used only on Vec types\n\n= note: {note}\n\n", + + note = "see \ + https://github.com/clap-rs/clap/blob/master/examples/derive_ref/README.md#magic-attributes") + } + let inner_type = inner_type(ty); + + // Use `Borrow<#inner_type>` so we accept `&Vec<#inner_type>` and + // `Vec<#inner_type>`. + let val = if attrs + .iter() + .any(|a| a.magic == Some(MagicAttrName::ValueEnum)) + { + quote_spanned!(attr.name.clone().span()=> { + { + fn iter_to_vals<T>(iterable: impl IntoIterator<Item = T>) -> impl Iterator<Item=::std::ffi::OsString> + where + T: ::std::borrow::Borrow<#inner_type> + { + iterable + .into_iter() + .map(|val| { + clap::ValueEnum::to_possible_value(val.borrow()).unwrap().get_name().to_owned().into() + }) + } + + static DEFAULT_STRINGS: ::std::sync::OnceLock<Vec<::std::ffi::OsString>> = ::std::sync::OnceLock::new(); + static DEFAULT_VALUES: ::std::sync::OnceLock<Vec<&::std::ffi::OsStr>> = ::std::sync::OnceLock::new(); + DEFAULT_VALUES.get_or_init(|| { + DEFAULT_STRINGS.get_or_init(|| iter_to_vals(#expr).collect()).iter().map(::std::ffi::OsString::as_os_str).collect() + }).iter().copied() + } + }) + } else { + quote_spanned!(attr.name.clone().span()=> { + { + fn iter_to_vals<T>(iterable: impl IntoIterator<Item = T>) -> impl Iterator<Item=::std::ffi::OsString> + where + T: ::std::borrow::Borrow<#inner_type> + { + iterable.into_iter().map(|val| val.borrow().into()) + } + + static DEFAULT_STRINGS: ::std::sync::OnceLock<Vec<::std::ffi::OsString>> = ::std::sync::OnceLock::new(); + static DEFAULT_VALUES: ::std::sync::OnceLock<Vec<&::std::ffi::OsStr>> = ::std::sync::OnceLock::new(); + DEFAULT_VALUES.get_or_init(|| { + DEFAULT_STRINGS.get_or_init(|| iter_to_vals(#expr).collect()).iter().map(::std::ffi::OsString::as_os_str).collect() + }).iter().copied() + } + }) + }; + + self.methods.push(Method::new( + Ident::new("default_values", attr.name.clone().span()), + val, + )); + } + + Some(MagicAttrName::NextDisplayOrder) => { + assert_attr_kind(attr, &[AttrKind::Command])?; + + let expr = attr.value_or_abort()?; + self.next_display_order = Some(Method::new(attr.name.clone(), quote!(#expr))); + } + + Some(MagicAttrName::NextHelpHeading) => { + assert_attr_kind(attr, &[AttrKind::Command])?; + + let expr = attr.value_or_abort()?; + self.next_help_heading = Some(Method::new(attr.name.clone(), quote!(#expr))); + } + + Some(MagicAttrName::RenameAll) => { + let lit = attr.lit_str_or_abort()?; + self.casing = CasingStyle::from_lit(lit)?; + } + + Some(MagicAttrName::RenameAllEnv) => { + assert_attr_kind(attr, &[AttrKind::Command, AttrKind::Arg])?; + + let lit = attr.lit_str_or_abort()?; + self.env_casing = CasingStyle::from_lit(lit)?; + } + + Some(MagicAttrName::Skip) if actual_attr_kind == AttrKind::Group => { + self.skip_group = true; + } + + None + // Magic only for the default, otherwise just forward to the builder + | Some(MagicAttrName::Short) + | Some(MagicAttrName::Long) + | Some(MagicAttrName::Env) + | Some(MagicAttrName::About) + | Some(MagicAttrName::LongAbout) + | Some(MagicAttrName::LongHelp) + | Some(MagicAttrName::Author) + | Some(MagicAttrName::Version) + => { + let expr = attr.value_or_abort()?; + self.push_method(*attr.kind.get(), attr.name.clone(), expr); + } + + // Magic only for the default, otherwise just forward to the builder + Some(MagicAttrName::ValueParser) | Some(MagicAttrName::Action) => { + let expr = attr.value_or_abort()?; + self.push_method(*attr.kind.get(), attr.name.clone(), expr); + } + + // Directives that never receive a value + Some(MagicAttrName::ValueEnum) + | Some(MagicAttrName::VerbatimDocComment) => { + let expr = attr.value_or_abort()?; + abort!(expr, "attribute `{}` does not accept a value", attr.name); + } + + // Kinds + Some(MagicAttrName::FromGlobal) + | Some(MagicAttrName::Subcommand) + | Some(MagicAttrName::ExternalSubcommand) + | Some(MagicAttrName::Flatten) + | Some(MagicAttrName::Skip) => { + } + } + } + + if self.has_explicit_methods() { + if let Kind::Skip(_, attr) = &*self.kind { + abort!( + self.methods[0].name.span(), + "`{}` cannot be used with `#[{}(skip)]", + self.methods[0].name, + attr.as_str(), + ); + } + if let Kind::FromGlobal(_) = &*self.kind { + abort!( + self.methods[0].name.span(), + "`{}` cannot be used with `#[arg(from_global)]", + self.methods[0].name, + ); + } + } + + Ok(()) + } + + fn push_doc_comment(&mut self, attrs: &[Attribute], short_name: &str, long_name: Option<&str>) { + let lines = extract_doc_comment(attrs); + + if !lines.is_empty() { + let (short_help, long_help) = + format_doc_comment(&lines, !self.verbatim_doc_comment, self.force_long_help); + let short_name = format_ident!("{short_name}"); + let short = Method::new( + short_name, + short_help + .map(|h| quote!(#h)) + .unwrap_or_else(|| quote!(None)), + ); + self.doc_comment.push(short); + if let Some(long_name) = long_name { + let long_name = format_ident!("{long_name}"); + let long = Method::new( + long_name, + long_help + .map(|h| quote!(#h)) + .unwrap_or_else(|| quote!(None)), + ); + self.doc_comment.push(long); + } + } + } + + fn set_kind(&mut self, kind: Sp<Kind>) -> Result<(), syn::Error> { + match (self.kind.get(), kind.get()) { + (Kind::Arg(_), Kind::FromGlobal(_)) + | (Kind::Arg(_), Kind::Subcommand(_)) + | (Kind::Arg(_), Kind::Flatten(_)) + | (Kind::Arg(_), Kind::Skip(_, _)) + | (Kind::Command(_), Kind::Subcommand(_)) + | (Kind::Command(_), Kind::Flatten(_)) + | (Kind::Command(_), Kind::Skip(_, _)) + | (Kind::Command(_), Kind::ExternalSubcommand) + | (Kind::Value, Kind::Skip(_, _)) => { + self.kind = kind; + } + + (_, _) => { + let old = self.kind.name(); + let new = kind.name(); + abort!(kind.span(), "`{new}` cannot be used with `{old}`"); + } + } + Ok(()) + } + + pub fn find_default_method(&self) -> Option<&Method> { + self.methods + .iter() + .find(|m| m.name == "default_value" || m.name == "default_value_os") + } + + /// generate methods from attributes on top of struct or enum + pub fn initial_top_level_methods(&self) -> TokenStream { + let next_display_order = self.next_display_order.as_ref().into_iter(); + let next_help_heading = self.next_help_heading.as_ref().into_iter(); + quote!( + #(#next_display_order)* + #(#next_help_heading)* + ) + } + + pub fn final_top_level_methods(&self) -> TokenStream { + let methods = &self.methods; + let doc_comment = &self.doc_comment; + + quote!( #(#doc_comment)* #(#methods)*) + } + + /// generate methods on top of a field + pub fn field_methods(&self) -> proc_macro2::TokenStream { + let methods = &self.methods; + let doc_comment = &self.doc_comment; + quote!( #(#doc_comment)* #(#methods)* ) + } + + pub fn group_id(&self) -> TokenStream { + self.group_id.clone().raw() + } + + pub fn group_methods(&self) -> TokenStream { + let group_methods = &self.group_methods; + quote!( #(#group_methods)* ) + } + + pub fn deprecations(&self) -> proc_macro2::TokenStream { + let deprecations = &self.deprecations; + quote!( #(#deprecations)* ) + } + + pub fn next_display_order(&self) -> TokenStream { + let next_display_order = self.next_display_order.as_ref().into_iter(); + quote!( #(#next_display_order)* ) + } + + pub fn next_help_heading(&self) -> TokenStream { + let next_help_heading = self.next_help_heading.as_ref().into_iter(); + quote!( #(#next_help_heading)* ) + } + + pub fn id(&self) -> TokenStream { + self.name.clone().raw() + } + + pub fn cased_name(&self) -> TokenStream { + self.name.clone().translate(*self.casing) + } + + pub fn value_name(&self) -> TokenStream { + self.name.clone().translate(CasingStyle::ScreamingSnake) + } + + pub fn value_parser(&self, field_type: &Type) -> Method { + self.value_parser + .clone() + .map(|p| { + let inner_type = inner_type(field_type); + p.resolve(inner_type) + }) + .unwrap_or_else(|| { + let inner_type = inner_type(field_type); + if let Some(action) = self.action.as_ref() { + let span = action.span(); + default_value_parser(inner_type, span) + } else { + let span = self + .action + .as_ref() + .map(|a| a.span()) + .unwrap_or_else(|| self.kind.span()); + default_value_parser(inner_type, span) + } + }) + } + + pub fn action(&self, field_type: &Type) -> Method { + self.action + .clone() + .map(|p| p.resolve(field_type)) + .unwrap_or_else(|| { + if let Some(value_parser) = self.value_parser.as_ref() { + let span = value_parser.span(); + default_action(field_type, span) + } else { + let span = self + .value_parser + .as_ref() + .map(|a| a.span()) + .unwrap_or_else(|| self.kind.span()); + default_action(field_type, span) + } + }) + } + + pub fn kind(&self) -> Sp<Kind> { + self.kind.clone() + } + + pub fn is_positional(&self) -> bool { + self.is_positional + } + + pub fn casing(&self) -> Sp<CasingStyle> { + self.casing + } + + pub fn env_casing(&self) -> Sp<CasingStyle> { + self.env_casing + } + + pub fn has_explicit_methods(&self) -> bool { + self.methods + .iter() + .any(|m| m.name != "help" && m.name != "long_help") + } + + pub fn skip_group(&self) -> bool { + self.skip_group + } +} + +#[derive(Clone)] +enum ValueParser { + Explicit(Method), + Implicit(Ident), +} + +impl ValueParser { + fn resolve(self, _inner_type: &Type) -> Method { + match self { + Self::Explicit(method) => method, + Self::Implicit(ident) => default_value_parser(_inner_type, ident.span()), + } + } + + fn span(&self) -> Span { + match self { + Self::Explicit(method) => method.name.span(), + Self::Implicit(ident) => ident.span(), + } + } +} + +fn default_value_parser(inner_type: &Type, span: Span) -> Method { + let func = Ident::new("value_parser", span); + Method::new( + func, + quote_spanned! { span=> + clap::value_parser!(#inner_type) + }, + ) +} + +#[derive(Clone)] +pub enum Action { + Explicit(Method), + Implicit(Ident), +} + +impl Action { + pub fn resolve(self, _field_type: &Type) -> Method { + match self { + Self::Explicit(method) => method, + Self::Implicit(ident) => default_action(_field_type, ident.span()), + } + } + + pub fn span(&self) -> Span { + match self { + Self::Explicit(method) => method.name.span(), + Self::Implicit(ident) => ident.span(), + } + } +} + +fn default_action(field_type: &Type, span: Span) -> Method { + let ty = Ty::from_syn_ty(field_type); + let args = match *ty { + Ty::Vec | Ty::OptionVec | Ty::VecVec | Ty::OptionVecVec => { + quote_spanned! { span=> + clap::ArgAction::Append + } + } + Ty::Option | Ty::OptionOption => { + quote_spanned! { span=> + clap::ArgAction::Set + } + } + _ => { + if is_simple_ty(field_type, "bool") { + quote_spanned! { span=> + clap::ArgAction::SetTrue + } + } else { + quote_spanned! { span=> + clap::ArgAction::Set + } + } + } + }; + + let func = Ident::new("action", span); + Method::new(func, args) +} + +#[allow(clippy::large_enum_variant)] +#[derive(Clone)] +pub enum Kind { + Arg(Sp<Ty>), + Command(Sp<Ty>), + Value, + FromGlobal(Sp<Ty>), + Subcommand(Sp<Ty>), + Flatten(Sp<Ty>), + Skip(Option<AttrValue>, AttrKind), + ExternalSubcommand, +} + +impl Kind { + pub fn name(&self) -> &'static str { + match self { + Self::Arg(_) => "arg", + Self::Command(_) => "command", + Self::Value => "value", + Self::FromGlobal(_) => "from_global", + Self::Subcommand(_) => "subcommand", + Self::Flatten(_) => "flatten", + Self::Skip(_, _) => "skip", + Self::ExternalSubcommand => "external_subcommand", + } + } + + pub fn attr_kind(&self) -> AttrKind { + match self { + Self::Arg(_) => AttrKind::Arg, + Self::Command(_) => AttrKind::Command, + Self::Value => AttrKind::Value, + Self::FromGlobal(_) => AttrKind::Arg, + Self::Subcommand(_) => AttrKind::Command, + Self::Flatten(_) => AttrKind::Command, + Self::Skip(_, kind) => *kind, + Self::ExternalSubcommand => AttrKind::Command, + } + } + + pub fn ty(&self) -> Option<&Sp<Ty>> { + match self { + Self::Arg(ty) + | Self::Command(ty) + | Self::Flatten(ty) + | Self::FromGlobal(ty) + | Self::Subcommand(ty) => Some(ty), + Self::Value | Self::Skip(_, _) | Self::ExternalSubcommand => None, + } + } +} + +#[derive(Clone)] +pub struct Method { + name: Ident, + args: TokenStream, +} + +impl Method { + pub fn new(name: Ident, args: TokenStream) -> Self { + Method { name, args } + } + + fn from_env(ident: Ident, env_var: &str) -> Result<Option<Self>, syn::Error> { + let mut lit = match env::var(env_var) { + Ok(val) => { + if val.is_empty() { + return Ok(None); + } + LitStr::new(&val, ident.span()) + } + Err(_) => { + abort!( + ident, + "cannot derive `{}` from Cargo.toml\n\n= note: {note}\n\n= help: {help}\n\n", + ident, + note = format_args!("`{env_var}` environment variable is not set"), + help = format_args!("use `{ident} = \"...\"` to set {ident} manually") + ); + } + }; + + if ident == "author" { + let edited = process_author_str(&lit.value()); + lit = LitStr::new(&edited, lit.span()); + } + + Ok(Some(Method::new(ident, quote!(#lit)))) + } + + pub(crate) fn args(&self) -> &TokenStream { + &self.args + } +} + +impl ToTokens for Method { + fn to_tokens(&self, ts: &mut proc_macro2::TokenStream) { + let Method { ref name, ref args } = self; + + let tokens = quote!( .#name(#args) ); + + tokens.to_tokens(ts); + } +} + +#[derive(Clone)] +pub struct Deprecation { + pub span: Span, + pub id: &'static str, + pub version: &'static str, + pub description: String, +} + +impl Deprecation { + fn attribute(version: &'static str, old: AttrKind, new: AttrKind, span: Span) -> Self { + Self { + span, + id: "old_attribute", + version, + description: format!( + "Attribute `#[{}(...)]` has been deprecated in favor of `#[{}(...)]`", + old.as_str(), + new.as_str() + ), + } + } +} + +impl ToTokens for Deprecation { + fn to_tokens(&self, ts: &mut proc_macro2::TokenStream) { + let tokens = if cfg!(feature = "deprecated") { + let Deprecation { + span, + id, + version, + description, + } = self; + let span = *span; + let id = Ident::new(id, span); + + quote_spanned!(span=> { + #[deprecated(since = #version, note = #description)] + fn #id() {} + #id(); + }) + } else { + quote!() + }; + + tokens.to_tokens(ts); + } +} + +fn assert_attr_kind(attr: &ClapAttr, possible_kind: &[AttrKind]) -> Result<(), syn::Error> { + if *attr.kind.get() == AttrKind::Clap || *attr.kind.get() == AttrKind::StructOpt { + // deprecated + } else if !possible_kind.contains(attr.kind.get()) { + let options = possible_kind + .iter() + .map(|k| format!("`#[{}({})]`", k.as_str(), attr.name)) + .collect::<Vec<_>>(); + abort!( + attr.name, + "Unknown `#[{}({})]` attribute ({} exists)", + attr.kind.as_str(), + attr.name, + options.join(", ") + ); + } + Ok(()) +} + +/// replace all `:` with `, ` when not inside the `<>` +/// +/// `"author1:author2:author3" => "author1, author2, author3"` +/// `"author1 <http://website1.com>:author2" => "author1 <http://website1.com>, author2" +fn process_author_str(author: &str) -> String { + let mut res = String::with_capacity(author.len()); + let mut inside_angle_braces = 0usize; + + for ch in author.chars() { + if inside_angle_braces > 0 && ch == '>' { + inside_angle_braces -= 1; + res.push(ch); + } else if ch == '<' { + inside_angle_braces += 1; + res.push(ch); + } else if inside_angle_braces == 0 && ch == ':' { + res.push_str(", "); + } else { + res.push(ch); + } + } + + res +} + +/// Defines the casing for the attributes long representation. +#[derive(Copy, Clone, Debug, PartialEq, Eq)] +pub enum CasingStyle { + /// Indicate word boundaries with uppercase letter, excluding the first word. + Camel, + /// Keep all letters lowercase and indicate word boundaries with hyphens. + Kebab, + /// Indicate word boundaries with uppercase letter, including the first word. + Pascal, + /// Keep all letters uppercase and indicate word boundaries with underscores. + ScreamingSnake, + /// Keep all letters lowercase and indicate word boundaries with underscores. + Snake, + /// Keep all letters lowercase and remove word boundaries. + Lower, + /// Keep all letters uppercase and remove word boundaries. + Upper, + /// Use the original attribute name defined in the code. + Verbatim, +} + +impl CasingStyle { + fn from_lit(name: &LitStr) -> Result<Sp<Self>, syn::Error> { + use self::CasingStyle::*; + + let normalized = name.value().to_upper_camel_case().to_lowercase(); + let cs = |kind| Sp::new(kind, name.span()); + + let s = match normalized.as_ref() { + "camel" | "camelcase" => cs(Camel), + "kebab" | "kebabcase" => cs(Kebab), + "pascal" | "pascalcase" => cs(Pascal), + "screamingsnake" | "screamingsnakecase" => cs(ScreamingSnake), + "snake" | "snakecase" => cs(Snake), + "lower" | "lowercase" => cs(Lower), + "upper" | "uppercase" => cs(Upper), + "verbatim" | "verbatimcase" => cs(Verbatim), + s => abort!(name, "unsupported casing: `{s}`"), + }; + Ok(s) + } +} + +#[derive(Clone)] +pub enum Name { + Derived(Ident), + Assigned(TokenStream), +} + +impl Name { + pub fn raw(self) -> TokenStream { + match self { + Name::Assigned(tokens) => tokens, + Name::Derived(ident) => { + let s = ident.unraw().to_string(); + quote_spanned!(ident.span()=> #s) + } + } + } + + pub fn translate(self, style: CasingStyle) -> TokenStream { + use CasingStyle::*; + + match self { + Name::Assigned(tokens) => tokens, + Name::Derived(ident) => { + let s = ident.unraw().to_string(); + let s = match style { + Pascal => s.to_upper_camel_case(), + Kebab => s.to_kebab_case(), + Camel => s.to_lower_camel_case(), + ScreamingSnake => s.to_shouty_snake_case(), + Snake => s.to_snake_case(), + Lower => s.to_snake_case().replace('_', ""), + Upper => s.to_shouty_snake_case().replace('_', ""), + Verbatim => s, + }; + quote_spanned!(ident.span()=> #s) + } + } + } + + pub fn translate_char(self, style: CasingStyle) -> TokenStream { + use CasingStyle::*; + + match self { + Name::Assigned(tokens) => quote!( (#tokens).chars().next().unwrap() ), + Name::Derived(ident) => { + let s = ident.unraw().to_string(); + let s = match style { + Pascal => s.to_upper_camel_case(), + Kebab => s.to_kebab_case(), + Camel => s.to_lower_camel_case(), + ScreamingSnake => s.to_shouty_snake_case(), + Snake => s.to_snake_case(), + Lower => s.to_snake_case(), + Upper => s.to_shouty_snake_case(), + Verbatim => s, + }; + + let s = s.chars().next().unwrap(); + quote_spanned!(ident.span()=> #s) + } + } + } +} diff --git a/vendor/clap_derive/src/lib.rs b/vendor/clap_derive/src/lib.rs new file mode 100644 index 0000000..d3cae9b --- /dev/null +++ b/vendor/clap_derive/src/lib.rs @@ -0,0 +1,116 @@ +// Copyright 2018 Guillaume Pinot (@TeXitoi) <texitoi@texitoi.eu>, +// Kevin Knapp (@kbknapp) <kbknapp@gmail.com>, and +// Ana Hobden (@hoverbear) <operator@hoverbear.org> +// +// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or +// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license +// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your +// option. This file may not be copied, modified, or distributed +// except according to those terms. +// +// This work was derived from Structopt (https://github.com/TeXitoi/structopt) +// commit#ea76fa1b1b273e65e3b0b1046643715b49bec51f which is licensed under the +// MIT/Apache 2.0 license. + +#![doc(html_logo_url = "https://raw.githubusercontent.com/clap-rs/clap/master/assets/clap.png")] +#![doc = include_str!("../README.md")] +#![forbid(unsafe_code)] + +extern crate proc_macro; + +use proc_macro::TokenStream; +use syn::{parse_macro_input, DeriveInput}; +use syn::{Data, DataStruct, Fields}; + +#[macro_use] +mod macros; + +mod attr; +mod derives; +mod dummies; +mod item; +mod utils; + +/// Generates the `ValueEnum` impl. +#[proc_macro_derive(ValueEnum, attributes(clap, value))] +pub fn value_enum(input: TokenStream) -> TokenStream { + let input: DeriveInput = parse_macro_input!(input); + derives::derive_value_enum(&input) + .unwrap_or_else(|err| { + let dummy = dummies::value_enum(&input.ident); + to_compile_error(err, dummy) + }) + .into() +} + +/// Generates the `Parser` implementation. +/// +/// This is far less verbose than defining the `clap::Command` struct manually, +/// receiving an instance of `clap::ArgMatches` from conducting parsing, and then +/// implementing a conversion code to instantiate an instance of the user +/// context struct. +#[proc_macro_derive(Parser, attributes(clap, structopt, command, arg, group))] +pub fn parser(input: TokenStream) -> TokenStream { + let input: DeriveInput = parse_macro_input!(input); + derives::derive_parser(&input) + .unwrap_or_else(|err| { + let specific_dummy = match input.data { + Data::Struct(DataStruct { + fields: Fields::Named(ref _fields), + .. + }) => Some(dummies::args(&input.ident)), + Data::Struct(DataStruct { + fields: Fields::Unit, + .. + }) => Some(dummies::args(&input.ident)), + Data::Enum(_) => Some(dummies::subcommand(&input.ident)), + _ => None, + }; + let dummy = specific_dummy + .map(|specific_dummy| { + let parser_dummy = dummies::parser(&input.ident); + quote::quote! { + #parser_dummy + #specific_dummy + } + }) + .unwrap_or_else(|| quote::quote!()); + to_compile_error(err, dummy) + }) + .into() +} + +/// Generates the `Subcommand` impl. +#[proc_macro_derive(Subcommand, attributes(clap, command, arg, group))] +pub fn subcommand(input: TokenStream) -> TokenStream { + let input: DeriveInput = parse_macro_input!(input); + derives::derive_subcommand(&input) + .unwrap_or_else(|err| { + let dummy = dummies::subcommand(&input.ident); + to_compile_error(err, dummy) + }) + .into() +} + +/// Generates the `Args` impl. +#[proc_macro_derive(Args, attributes(clap, command, arg, group))] +pub fn args(input: TokenStream) -> TokenStream { + let input: DeriveInput = parse_macro_input!(input); + derives::derive_args(&input) + .unwrap_or_else(|err| { + let dummy = dummies::args(&input.ident); + to_compile_error(err, dummy) + }) + .into() +} + +fn to_compile_error( + error: syn::Error, + dummy: proc_macro2::TokenStream, +) -> proc_macro2::TokenStream { + let compile_errors = error.to_compile_error(); + quote::quote!( + #dummy + #compile_errors + ) +} diff --git a/vendor/clap_derive/src/macros.rs b/vendor/clap_derive/src/macros.rs new file mode 100644 index 0000000..282048b --- /dev/null +++ b/vendor/clap_derive/src/macros.rs @@ -0,0 +1,21 @@ +macro_rules! format_err { + ($obj:expr, $($format:tt)+) => {{ + #[allow(unused_imports)] + use $crate::utils::error::*; + let msg = format!($($format)+); + $obj.EXPECTED_Span_OR_ToTokens(msg) + }}; +} + +macro_rules! abort { + ($obj:expr, $($format:tt)+) => {{ + return Err(format_err!($obj, $($format)+)); + }}; +} + +macro_rules! abort_call_site { + ($($format:tt)+) => {{ + let span = proc_macro2::Span::call_site(); + abort!(span, $($format)+) + }}; +} diff --git a/vendor/clap_derive/src/utils/doc_comments.rs b/vendor/clap_derive/src/utils/doc_comments.rs new file mode 100644 index 0000000..63c6ad1 --- /dev/null +++ b/vendor/clap_derive/src/utils/doc_comments.rs @@ -0,0 +1,126 @@ +//! The preprocessing we apply to doc comments. +//! +//! #[derive(Parser)] works in terms of "paragraphs". Paragraph is a sequence of +//! non-empty adjacent lines, delimited by sequences of blank (whitespace only) lines. + +use std::iter; + +pub fn extract_doc_comment(attrs: &[syn::Attribute]) -> Vec<String> { + // multiline comments (`/** ... */`) may have LFs (`\n`) in them, + // we need to split so we could handle the lines correctly + // + // we also need to remove leading and trailing blank lines + let mut lines: Vec<_> = attrs + .iter() + .filter(|attr| attr.path().is_ident("doc")) + .filter_map(|attr| { + // non #[doc = "..."] attributes are not our concern + // we leave them for rustc to handle + match &attr.meta { + syn::Meta::NameValue(syn::MetaNameValue { + value: + syn::Expr::Lit(syn::ExprLit { + lit: syn::Lit::Str(s), + .. + }), + .. + }) => Some(s.value()), + _ => None, + } + }) + .skip_while(|s| is_blank(s)) + .flat_map(|s| { + let lines = s + .split('\n') + .map(|s| { + // remove one leading space no matter what + let s = s.strip_prefix(' ').unwrap_or(s); + s.to_owned() + }) + .collect::<Vec<_>>(); + lines + }) + .collect(); + + while let Some(true) = lines.last().map(|s| is_blank(s)) { + lines.pop(); + } + + lines +} + +pub fn format_doc_comment( + lines: &[String], + preprocess: bool, + force_long: bool, +) -> (Option<String>, Option<String>) { + if let Some(first_blank) = lines.iter().position(|s| is_blank(s)) { + let (short, long) = if preprocess { + let paragraphs = split_paragraphs(lines); + let short = paragraphs[0].clone(); + let long = paragraphs.join("\n\n"); + (remove_period(short), long) + } else { + let short = lines[..first_blank].join("\n"); + let long = lines.join("\n"); + (short, long) + }; + + (Some(short), Some(long)) + } else { + let (short, long) = if preprocess { + let short = merge_lines(lines); + let long = force_long.then(|| short.clone()); + let short = remove_period(short); + (short, long) + } else { + let short = lines.join("\n"); + let long = force_long.then(|| short.clone()); + (short, long) + }; + + (Some(short), long) + } +} + +fn split_paragraphs(lines: &[String]) -> Vec<String> { + let mut last_line = 0; + iter::from_fn(|| { + let slice = &lines[last_line..]; + let start = slice.iter().position(|s| !is_blank(s)).unwrap_or(0); + + let slice = &slice[start..]; + let len = slice + .iter() + .position(|s| is_blank(s)) + .unwrap_or(slice.len()); + + last_line += start + len; + + if len != 0 { + Some(merge_lines(&slice[..len])) + } else { + None + } + }) + .collect() +} + +fn remove_period(mut s: String) -> String { + if s.ends_with('.') && !s.ends_with("..") { + s.pop(); + } + s +} + +fn is_blank(s: &str) -> bool { + s.trim().is_empty() +} + +fn merge_lines(lines: impl IntoIterator<Item = impl AsRef<str>>) -> String { + lines + .into_iter() + .map(|s| s.as_ref().trim().to_owned()) + .collect::<Vec<_>>() + .join(" ") +} diff --git a/vendor/clap_derive/src/utils/error.rs b/vendor/clap_derive/src/utils/error.rs new file mode 100644 index 0000000..276e349 --- /dev/null +++ b/vendor/clap_derive/src/utils/error.rs @@ -0,0 +1,22 @@ +pub trait SpanError { + #[allow(non_snake_case)] + fn EXPECTED_Span_OR_ToTokens<D: std::fmt::Display>(&self, msg: D) -> syn::Error; +} + +pub trait ToTokensError { + #[allow(non_snake_case)] + fn EXPECTED_Span_OR_ToTokens<D: std::fmt::Display>(&self, msg: D) -> syn::Error; +} + +impl<T: quote::ToTokens> ToTokensError for T { + fn EXPECTED_Span_OR_ToTokens<D: std::fmt::Display>(&self, msg: D) -> syn::Error { + // Curb monomorphization from generating too many identical `new_spanned`. + syn::Error::new_spanned(self.to_token_stream(), msg) + } +} + +impl SpanError for proc_macro2::Span { + fn EXPECTED_Span_OR_ToTokens<D: std::fmt::Display>(&self, msg: D) -> syn::Error { + syn::Error::new(*self, msg) + } +} diff --git a/vendor/clap_derive/src/utils/mod.rs b/vendor/clap_derive/src/utils/mod.rs new file mode 100644 index 0000000..13e6e71 --- /dev/null +++ b/vendor/clap_derive/src/utils/mod.rs @@ -0,0 +1,13 @@ +pub mod error; + +mod doc_comments; +mod spanned; +mod ty; + +pub use doc_comments::extract_doc_comment; +pub use doc_comments::format_doc_comment; + +pub use self::{ + spanned::Sp, + ty::{inner_type, is_simple_ty, sub_type, subty_if_name, Ty}, +}; diff --git a/vendor/clap_derive/src/utils/spanned.rs b/vendor/clap_derive/src/utils/spanned.rs new file mode 100644 index 0000000..339a654 --- /dev/null +++ b/vendor/clap_derive/src/utils/spanned.rs @@ -0,0 +1,89 @@ +use proc_macro2::{Ident, Span, TokenStream}; +use quote::ToTokens; +use syn::LitStr; + +use std::ops::{Deref, DerefMut}; + +/// An entity with a span attached. +#[derive(Debug, Copy, Clone)] +pub struct Sp<T> { + val: T, + span: Span, +} + +impl<T> Sp<T> { + pub fn new(val: T, span: Span) -> Self { + Sp { val, span } + } + + pub fn get(&self) -> &T { + &self.val + } + + pub fn span(&self) -> Span { + self.span + } +} + +impl<T> Deref for Sp<T> { + type Target = T; + + fn deref(&self) -> &T { + &self.val + } +} + +impl<T> DerefMut for Sp<T> { + fn deref_mut(&mut self) -> &mut T { + &mut self.val + } +} + +impl From<Ident> for Sp<String> { + fn from(ident: Ident) -> Self { + Sp { + val: ident.to_string(), + span: ident.span(), + } + } +} + +impl From<LitStr> for Sp<String> { + fn from(lit: LitStr) -> Self { + Sp { + val: lit.value(), + span: lit.span(), + } + } +} + +impl<'a> From<Sp<&'a str>> for Sp<String> { + fn from(sp: Sp<&'a str>) -> Self { + Sp::new(sp.val.into(), sp.span) + } +} + +impl<U, T: PartialEq<U>> PartialEq<U> for Sp<T> { + fn eq(&self, other: &U) -> bool { + self.val == *other + } +} + +impl<T: AsRef<str>> AsRef<str> for Sp<T> { + fn as_ref(&self) -> &str { + self.val.as_ref() + } +} + +impl<T: ToTokens> ToTokens for Sp<T> { + fn to_tokens(&self, stream: &mut TokenStream) { + // this is the simplest way out of correct ones to change span on + // arbitrary token tree I could come up with + let tt = self.val.to_token_stream().into_iter().map(|mut tt| { + tt.set_span(self.span); + tt + }); + + stream.extend(tt); + } +} diff --git a/vendor/clap_derive/src/utils/ty.rs b/vendor/clap_derive/src/utils/ty.rs new file mode 100644 index 0000000..9349bc2 --- /dev/null +++ b/vendor/clap_derive/src/utils/ty.rs @@ -0,0 +1,165 @@ +//! Special types handling + +use super::spanned::Sp; + +use syn::{ + spanned::Spanned, GenericArgument, Path, PathArguments, PathArguments::AngleBracketed, + PathSegment, Type, TypePath, +}; + +#[derive(Copy, Clone, PartialEq, Eq, Debug)] +pub enum Ty { + Unit, + Vec, + VecVec, + Option, + OptionOption, + OptionVec, + OptionVecVec, + Other, +} + +impl Ty { + pub fn from_syn_ty(ty: &syn::Type) -> Sp<Self> { + use self::Ty::*; + let t = |kind| Sp::new(kind, ty.span()); + + if is_unit_ty(ty) { + t(Unit) + } else if let Some(vt) = get_vec_ty(ty, Vec, VecVec) { + t(vt) + } else if let Some(subty) = subty_if_name(ty, "Option") { + if is_generic_ty(subty, "Option") { + t(OptionOption) + } else if let Some(vt) = get_vec_ty(subty, OptionVec, OptionVecVec) { + t(vt) + } else { + t(Option) + } + } else { + t(Other) + } + } + + pub fn as_str(&self) -> &'static str { + match self { + Self::Unit => "()", + Self::Vec => "Vec<T>", + Self::Option => "Option<T>", + Self::OptionOption => "Option<Option<T>>", + Self::OptionVec => "Option<Vec<T>>", + Self::VecVec => "Vec<Vec<T>>", + Self::OptionVecVec => "Option<Vec<Vec<T>>>", + Self::Other => "...other...", + } + } +} + +pub fn inner_type(field_ty: &syn::Type) -> &syn::Type { + let ty = Ty::from_syn_ty(field_ty); + match *ty { + Ty::Vec | Ty::Option => sub_type(field_ty).unwrap_or(field_ty), + Ty::OptionOption | Ty::OptionVec | Ty::VecVec => { + sub_type(field_ty).and_then(sub_type).unwrap_or(field_ty) + } + Ty::OptionVecVec => sub_type(field_ty) + .and_then(sub_type) + .and_then(sub_type) + .unwrap_or(field_ty), + _ => field_ty, + } +} + +pub fn sub_type(ty: &syn::Type) -> Option<&syn::Type> { + subty_if(ty, |_| true) +} + +fn only_last_segment(mut ty: &syn::Type) -> Option<&PathSegment> { + while let syn::Type::Group(syn::TypeGroup { elem, .. }) = ty { + ty = elem; + } + match ty { + Type::Path(TypePath { + qself: None, + path: + Path { + leading_colon: None, + segments, + }, + }) => only_one(segments.iter()), + + _ => None, + } +} + +fn subty_if<F>(ty: &syn::Type, f: F) -> Option<&syn::Type> +where + F: FnOnce(&PathSegment) -> bool, +{ + only_last_segment(ty) + .filter(|segment| f(segment)) + .and_then(|segment| { + if let AngleBracketed(args) = &segment.arguments { + only_one(args.args.iter()).and_then(|genneric| { + if let GenericArgument::Type(ty) = genneric { + Some(ty) + } else { + None + } + }) + } else { + None + } + }) +} + +pub fn subty_if_name<'a>(ty: &'a syn::Type, name: &str) -> Option<&'a syn::Type> { + subty_if(ty, |seg| seg.ident == name) +} + +pub fn is_simple_ty(ty: &syn::Type, name: &str) -> bool { + only_last_segment(ty) + .map(|segment| { + if let PathArguments::None = segment.arguments { + segment.ident == name + } else { + false + } + }) + .unwrap_or(false) +} + +fn is_generic_ty(ty: &syn::Type, name: &str) -> bool { + subty_if_name(ty, name).is_some() +} + +fn is_unit_ty(ty: &syn::Type) -> bool { + if let syn::Type::Tuple(tuple) = ty { + tuple.elems.is_empty() + } else { + false + } +} + +fn only_one<I, T>(mut iter: I) -> Option<T> +where + I: Iterator<Item = T>, +{ + iter.next().filter(|_| iter.next().is_none()) +} + +#[cfg(feature = "unstable-v5")] +fn get_vec_ty(ty: &Type, vec_ty: Ty, vecvec_ty: Ty) -> Option<Ty> { + subty_if_name(ty, "Vec").map(|subty| { + if is_generic_ty(subty, "Vec") { + vecvec_ty + } else { + vec_ty + } + }) +} + +#[cfg(not(feature = "unstable-v5"))] +fn get_vec_ty(ty: &Type, vec_ty: Ty, _vecvec_ty: Ty) -> Option<Ty> { + is_generic_ty(ty, "Vec").then_some(vec_ty) +} |