// Copyright (c) 2020 Google LLC All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. use { crate::errors::Errors, proc_macro2::Span, std::collections::hash_map::{Entry, HashMap}, }; /// Attributes applied to a field of a `#![derive(FromArgs)]` struct. #[derive(Default)] pub struct FieldAttrs { pub default: Option, pub description: Option, pub from_str_fn: Option, pub field_type: Option, pub long: Option, pub short: Option, pub arg_name: Option, pub greedy: Option, pub hidden_help: bool, } /// The purpose of a particular field on a `#![derive(FromArgs)]` struct. #[derive(Copy, Clone, Eq, PartialEq)] pub enum FieldKind { /// Switches are booleans that are set to "true" by passing the flag. Switch, /// Options are `--key value`. They may be optional (using `Option`), /// or repeating (using `Vec`), or required (neither `Option` nor `Vec`) Option, /// Subcommand fields (of which there can be at most one) refer to enums /// containing one of several potential subcommands. They may be optional /// (using `Option`) or required (no `Option`). SubCommand, /// Positional arguments are parsed literally if the input /// does not begin with `-` or `--` and is not a subcommand. /// They are parsed in declaration order, and only the last positional /// argument in a type may be an `Option`, `Vec`, or have a default value. Positional, } /// The type of a field on a `#![derive(FromArgs)]` struct. /// /// This is a simple wrapper around `FieldKind` which includes the `syn::Ident` /// of the attribute containing the field kind. pub struct FieldType { pub kind: FieldKind, pub ident: syn::Ident, } /// A description of a `#![derive(FromArgs)]` struct. /// /// Defaults to the docstring if one is present, or `#[argh(description = "...")]` /// if one is provided. pub struct Description { /// Whether the description was an explicit annotation or whether it was a doc string. pub explicit: bool, pub content: syn::LitStr, } impl FieldAttrs { pub fn parse(errors: &Errors, field: &syn::Field) -> Self { let mut this = Self::default(); for attr in &field.attrs { if is_doc_attr(attr) { parse_attr_doc(errors, attr, &mut this.description); continue; } let ml = if let Some(ml) = argh_attr_to_meta_list(errors, attr) { ml } else { continue; }; for meta in ml { let name = meta.path(); if name.is_ident("arg_name") { if let Some(m) = errors.expect_meta_name_value(&meta) { this.parse_attr_arg_name(errors, m); } } else if name.is_ident("default") { if let Some(m) = errors.expect_meta_name_value(&meta) { this.parse_attr_default(errors, m); } } else if name.is_ident("description") { if let Some(m) = errors.expect_meta_name_value(&meta) { parse_attr_description(errors, m, &mut this.description); } } else if name.is_ident("from_str_fn") { if let Some(m) = errors.expect_meta_list(&meta) { this.parse_attr_from_str_fn(errors, m); } } else if name.is_ident("long") { if let Some(m) = errors.expect_meta_name_value(&meta) { this.parse_attr_long(errors, m); } } else if name.is_ident("option") { parse_attr_field_type(errors, &meta, FieldKind::Option, &mut this.field_type); } else if name.is_ident("short") { if let Some(m) = errors.expect_meta_name_value(&meta) { this.parse_attr_short(errors, m); } } else if name.is_ident("subcommand") { parse_attr_field_type( errors, &meta, FieldKind::SubCommand, &mut this.field_type, ); } else if name.is_ident("switch") { parse_attr_field_type(errors, &meta, FieldKind::Switch, &mut this.field_type); } else if name.is_ident("positional") { parse_attr_field_type( errors, &meta, FieldKind::Positional, &mut this.field_type, ); } else if name.is_ident("greedy") { this.greedy = Some(name.clone()); } else if name.is_ident("hidden_help") { this.hidden_help = true; } else { errors.err( &meta, concat!( "Invalid field-level `argh` attribute\n", "Expected one of: `arg_name`, `default`, `description`, `from_str_fn`, `greedy`, ", "`long`, `option`, `short`, `subcommand`, `switch`, `hidden_help`", ), ); } } } if let (Some(default), Some(field_type)) = (&this.default, &this.field_type) { match field_type.kind { FieldKind::Option | FieldKind::Positional => {} FieldKind::SubCommand | FieldKind::Switch => errors.err( default, "`default` may only be specified on `#[argh(option)]` \ or `#[argh(positional)]` fields", ), } } match (&this.greedy, this.field_type.as_ref().map(|f| f.kind)) { (Some(_), Some(FieldKind::Positional)) => {} (Some(greedy), Some(_)) => errors.err( &greedy, "`greedy` may only be specified on `#[argh(positional)]` \ fields", ), _ => {} } if let Some(d) = &this.description { check_option_description(errors, d.content.value().trim(), d.content.span()); } this } fn parse_attr_from_str_fn(&mut self, errors: &Errors, m: &syn::MetaList) { parse_attr_fn_name(errors, m, "from_str_fn", &mut self.from_str_fn) } fn parse_attr_default(&mut self, errors: &Errors, m: &syn::MetaNameValue) { parse_attr_single_string(errors, m, "default", &mut self.default); } fn parse_attr_arg_name(&mut self, errors: &Errors, m: &syn::MetaNameValue) { parse_attr_single_string(errors, m, "arg_name", &mut self.arg_name); } fn parse_attr_long(&mut self, errors: &Errors, m: &syn::MetaNameValue) { parse_attr_single_string(errors, m, "long", &mut self.long); let long = self.long.as_ref().unwrap(); let value = long.value(); check_long_name(errors, long, &value); } fn parse_attr_short(&mut self, errors: &Errors, m: &syn::MetaNameValue) { if let Some(first) = &self.short { errors.duplicate_attrs("short", first, m); } else if let Some(lit_char) = errors.expect_lit_char(&m.value) { self.short = Some(lit_char.clone()); if !lit_char.value().is_ascii() { errors.err(lit_char, "Short names must be ASCII"); } } } } pub(crate) fn check_long_name(errors: &Errors, spanned: &impl syn::spanned::Spanned, value: &str) { if !value.is_ascii() { errors.err(spanned, "Long names must be ASCII"); } if !value.chars().all(|c| c.is_lowercase() || c == '-' || c.is_ascii_digit()) { errors.err(spanned, "Long names must be lowercase"); } } fn parse_attr_fn_name( errors: &Errors, m: &syn::MetaList, attr_name: &str, slot: &mut Option, ) { if let Some(first) = slot { errors.duplicate_attrs(attr_name, first, m); } *slot = errors.ok(m.parse_args()); } fn parse_attr_field_type( errors: &Errors, meta: &syn::Meta, kind: FieldKind, slot: &mut Option, ) { if let Some(path) = errors.expect_meta_word(meta) { if let Some(first) = slot { errors.duplicate_attrs("field kind", &first.ident, path); } else if let Some(word) = path.get_ident() { *slot = Some(FieldType { kind, ident: word.clone() }); } } } // Whether the attribute is one like `#[ ...]` fn is_matching_attr(name: &str, attr: &syn::Attribute) -> bool { attr.path().segments.len() == 1 && attr.path().segments[0].ident == name } /// Checks for `#[doc ...]`, which is generated by doc comments. fn is_doc_attr(attr: &syn::Attribute) -> bool { is_matching_attr("doc", attr) } /// Checks for `#[argh ...]` fn is_argh_attr(attr: &syn::Attribute) -> bool { is_matching_attr("argh", attr) } /// Filters out non-`#[argh(...)]` attributes and converts to a sequence of `syn::Meta`. fn argh_attr_to_meta_list( errors: &Errors, attr: &syn::Attribute, ) -> Option> { if !is_argh_attr(attr) { return None; } let ml = errors.expect_meta_list(&attr.meta)?; errors.ok(ml.parse_args_with( syn::punctuated::Punctuated::::parse_terminated, )) } /// Represents a `#[derive(FromArgs)]` type's top-level attributes. #[derive(Default)] pub struct TypeAttrs { pub is_subcommand: Option, pub name: Option, pub description: Option, pub examples: Vec, pub notes: Vec, pub error_codes: Vec<(syn::LitInt, syn::LitStr)>, } impl TypeAttrs { /// Parse top-level `#[argh(...)]` attributes pub fn parse(errors: &Errors, derive_input: &syn::DeriveInput) -> Self { let mut this = TypeAttrs::default(); for attr in &derive_input.attrs { if is_doc_attr(attr) { parse_attr_doc(errors, attr, &mut this.description); continue; } let ml = if let Some(ml) = argh_attr_to_meta_list(errors, attr) { ml } else { continue; }; for meta in ml { let name = meta.path(); if name.is_ident("description") { if let Some(m) = errors.expect_meta_name_value(&meta) { parse_attr_description(errors, m, &mut this.description); } } else if name.is_ident("error_code") { if let Some(m) = errors.expect_meta_list(&meta) { this.parse_attr_error_code(errors, m); } } else if name.is_ident("example") { if let Some(m) = errors.expect_meta_name_value(&meta) { this.parse_attr_example(errors, m); } } else if name.is_ident("name") { if let Some(m) = errors.expect_meta_name_value(&meta) { this.parse_attr_name(errors, m); } } else if name.is_ident("note") { if let Some(m) = errors.expect_meta_name_value(&meta) { this.parse_attr_note(errors, m); } } else if name.is_ident("subcommand") { if let Some(ident) = errors.expect_meta_word(&meta).and_then(|p| p.get_ident()) { this.parse_attr_subcommand(errors, ident); } } else { errors.err( &meta, concat!( "Invalid type-level `argh` attribute\n", "Expected one of: `description`, `error_code`, `example`, `name`, ", "`note`, `subcommand`", ), ); } } } this.check_error_codes(errors); this } /// Checks that error codes are within range for `i32` and that they are /// never duplicated. fn check_error_codes(&self, errors: &Errors) { // map from error code to index let mut map: HashMap = HashMap::new(); for (index, (lit_int, _lit_str)) in self.error_codes.iter().enumerate() { let value = match lit_int.base10_parse::() { Ok(v) => v, Err(e) => { errors.push(e); continue; } }; if value > (std::i32::MAX as u64) { errors.err(lit_int, "Error code out of range for `i32`"); } match map.entry(value) { Entry::Occupied(previous) => { let previous_index = *previous.get(); let (previous_lit_int, _previous_lit_str) = &self.error_codes[previous_index]; errors.err(lit_int, &format!("Duplicate error code {}", value)); errors.err( previous_lit_int, &format!("Error code {} previously defined here", value), ); } Entry::Vacant(slot) => { slot.insert(index); } } } } fn parse_attr_error_code(&mut self, errors: &Errors, ml: &syn::MetaList) { errors.ok(ml.parse_args_with(|input: syn::parse::ParseStream| { let err_code = input.parse()?; input.parse::()?; let err_msg = input.parse()?; if let (Some(err_code), Some(err_msg)) = (errors.expect_lit_int(&err_code), errors.expect_lit_str(&err_msg)) { self.error_codes.push((err_code.clone(), err_msg.clone())); } Ok(()) })); } fn parse_attr_example(&mut self, errors: &Errors, m: &syn::MetaNameValue) { parse_attr_multi_string(errors, m, &mut self.examples) } fn parse_attr_name(&mut self, errors: &Errors, m: &syn::MetaNameValue) { parse_attr_single_string(errors, m, "name", &mut self.name); if let Some(name) = &self.name { if name.value() == "help" { errors.err(name, "Custom `help` commands are not supported."); } } } fn parse_attr_note(&mut self, errors: &Errors, m: &syn::MetaNameValue) { parse_attr_multi_string(errors, m, &mut self.notes) } fn parse_attr_subcommand(&mut self, errors: &Errors, ident: &syn::Ident) { if let Some(first) = &self.is_subcommand { errors.duplicate_attrs("subcommand", first, ident); } else { self.is_subcommand = Some(ident.clone()); } } } /// Represents an enum variant's attributes. #[derive(Default)] pub struct VariantAttrs { pub is_dynamic: Option, } impl VariantAttrs { /// Parse enum variant `#[argh(...)]` attributes pub fn parse(errors: &Errors, variant: &syn::Variant) -> Self { let mut this = VariantAttrs::default(); let fields = match &variant.fields { syn::Fields::Named(fields) => Some(&fields.named), syn::Fields::Unnamed(fields) => Some(&fields.unnamed), syn::Fields::Unit => None, }; for field in fields.into_iter().flatten() { for attr in &field.attrs { if is_argh_attr(attr) { err_unused_enum_attr(errors, attr); } } } for attr in &variant.attrs { let ml = if let Some(ml) = argh_attr_to_meta_list(errors, attr) { ml } else { continue; }; for meta in ml { let name = meta.path(); if name.is_ident("dynamic") { if let Some(prev) = this.is_dynamic.as_ref() { errors.duplicate_attrs("dynamic", prev, &meta); } else { this.is_dynamic = errors.expect_meta_word(&meta).cloned(); } } else { errors.err( &meta, "Invalid variant-level `argh` attribute\n\ Variants can only have the #[argh(dynamic)] attribute.", ); } } } this } } fn check_option_description(errors: &Errors, desc: &str, span: Span) { let chars = &mut desc.trim().chars(); match (chars.next(), chars.next()) { (Some(x), _) if x.is_lowercase() => {} // If both the first and second letter are not lowercase, // this is likely an initialism which should be allowed. (Some(x), Some(y)) if !x.is_lowercase() && !y.is_lowercase() => {} _ => { errors.err_span(span, "Descriptions must begin with a lowercase letter"); } } } fn parse_attr_single_string( errors: &Errors, m: &syn::MetaNameValue, name: &str, slot: &mut Option, ) { if let Some(first) = slot { errors.duplicate_attrs(name, first, m); } else if let Some(lit_str) = errors.expect_lit_str(&m.value) { *slot = Some(lit_str.clone()); } } fn parse_attr_multi_string(errors: &Errors, m: &syn::MetaNameValue, list: &mut Vec) { if let Some(lit_str) = errors.expect_lit_str(&m.value) { list.push(lit_str.clone()); } } fn parse_attr_doc(errors: &Errors, attr: &syn::Attribute, slot: &mut Option) { let nv = if let Some(nv) = errors.expect_meta_name_value(&attr.meta) { nv } else { return; }; // Don't replace an existing description. if slot.as_ref().map(|d| d.explicit).unwrap_or(false) { return; } if let Some(lit_str) = errors.expect_lit_str(&nv.value) { let lit_str = if let Some(previous) = slot { let previous = &previous.content; let previous_span = previous.span(); syn::LitStr::new(&(previous.value() + &*lit_str.value()), previous_span) } else { lit_str.clone() }; *slot = Some(Description { explicit: false, content: lit_str }); } } fn parse_attr_description(errors: &Errors, m: &syn::MetaNameValue, slot: &mut Option) { let lit_str = if let Some(lit_str) = errors.expect_lit_str(&m.value) { lit_str } else { return }; // Don't allow multiple explicit (non doc-comment) descriptions if let Some(description) = slot { if description.explicit { errors.duplicate_attrs("description", &description.content, lit_str); } } *slot = Some(Description { explicit: true, content: lit_str.clone() }); } /// Checks that a `#![derive(FromArgs)]` enum has an `#[argh(subcommand)]` /// attribute and that it does not have any other type-level `#[argh(...)]` attributes. pub fn check_enum_type_attrs(errors: &Errors, type_attrs: &TypeAttrs, type_span: &Span) { let TypeAttrs { is_subcommand, name, description, examples, notes, error_codes } = type_attrs; // Ensure that `#[argh(subcommand)]` is present. if is_subcommand.is_none() { errors.err_span( *type_span, concat!( "`#![derive(FromArgs)]` on `enum`s can only be used to enumerate subcommands.\n", "Consider adding `#[argh(subcommand)]` to the `enum` declaration.", ), ); } // Error on all other type-level attributes. if let Some(name) = name { err_unused_enum_attr(errors, name); } if let Some(description) = description { if description.explicit { err_unused_enum_attr(errors, &description.content); } } if let Some(example) = examples.first() { err_unused_enum_attr(errors, example); } if let Some(note) = notes.first() { err_unused_enum_attr(errors, note); } if let Some(err_code) = error_codes.first() { err_unused_enum_attr(errors, &err_code.0); } } fn err_unused_enum_attr(errors: &Errors, location: &impl syn::spanned::Spanned) { errors.err( location, concat!( "Unused `argh` attribute on `#![derive(FromArgs)]` enum. ", "Such `enum`s can only be used to dispatch to subcommands, ", "and should only contain the #[argh(subcommand)] attribute.", ), ); }