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//! This module defines the traits defining how parsing works.
//!
//! `attribute-derive` reuses the same traits for nested values and the root
//! attribute, this is why all traits in this module are named `Attribute*`.
#![doc = include_str!("../docs/traits.html")]
use std::ops::Range;
use manyhow::{span_range, SpanRanged};
use proc_macro2::{Ident, Span};
use quote::ToTokens;
use syn::ext::IdentExt;
use syn::parse::discouraged::Speculative;
#[cfg(doc)]
use syn::parse::ParseBuffer;
use syn::parse::{Parse, ParseStream};
use syn::token::Paren;
use syn::{parenthesized, Result, Token};
use crate::from_partial::FromPartial;
use crate::FromAttr;
/// Values that can be parsed named, e.g. `<name>(<value>)`, `<name> = <value>`,
/// `<name>` (as flag).
///
/// This is the default parsing mode used for fields in derived [`FromAttr`]
/// implementations.
pub trait AttributeNamed: AttributeBase {
/// What open delimiter to use when providing error messages.
///
/// For `<name> = <value>`, this is `" = "`, for `<function>(<like>)`, it is
/// `"("`.
///
/// As named attributes can allow both `<name> = <value>` and
/// `name(<value>)`, this might not be the only way this attribute can be
/// used.
const PREFERRED_OPEN_DELIMITER: &'static str = " = ";
/// What close delimiter to use when providing error messages.
///
/// For `<name> = <value>`, this is `""`, for `<function>(<like>)`, it is
/// `")"`.
///
/// As named attributes can allow both `<name> = <value>` and
/// `<name>(<value>)`, this might not be the only way this attribute can be
/// used.
const PREFERRED_CLOSE_DELIMITER: &'static str = "";
/// Parses an attribute containing `Self` called `name`.
///
/// While this function can be implemented freely, the provided
/// implementations support `<name> = <value>`, `<function>(<like>)` and
/// `<flag>`.
///
/// **Note:** This needs to stop parsing at the end of the value, before a
/// possible following `,` and further arguments.
fn parse_named(
name: &'static str,
input: ParseStream,
) -> Result<Option<Named<SpannedValue<Self::Partial>>>>;
}
/// Values that can be parsed positionally, i.e., without a name, e.g.
/// `"literal"`, `a + b`, `true`.
///
/// When deriving [`FromAttr`] this behavior is enabled via putting
/// `#[attr(positional)]` on the field.
///
/// The trait is implemented for each [`AttributeValue`] that implements the
/// marker trait [`PositionalValue`].
pub trait AttributePositional: AttributeBase {
/// Parses `Self`, positionally.
///
/// **Note:** This needs to stop parsing at the end of the value, before a
/// possible following `,` and further arguments.
fn parse_positional(input: ParseStream) -> Result<Option<SpannedValue<Self::Partial>>>;
}
/// Any values that can be parsed in an attribute input.
///
/// This is probably the trait you want to implement when you created a custom
/// type for field inside [`#[derive(FromAttr)]`](FromAttr), as it will provide
/// implementations for [`FromAttr`], [`AttributeNamed`] and, if you implement
/// the marker trait [`PositionalValue`], [`AttributePositional`] as well.
///
/// For named attributes by default it will support both `<name> = <value>` and
/// `<function>(<like>)`, though this can be tweaked in the implementation.
pub trait AttributeValue: AttributeBase {
/// Printed when not encountering a `(` or `=` respectively while trying to
/// parse a [`AttributeNamed`].
const EXPECTED: &'static str = "expected `=` or `(`";
/// What open delimiter to use when providing error messages.
///
/// For `<name> = <value>`, this is `" = "`, for `<function>(<like>)`, it is
/// `"("`.
///
/// As named attributes can allow both `<name> = <value>` and
/// `name(<value>)`, this might not be the only way this attribute can be
/// used.
const PREFERRED_OPEN_DELIMITER: &'static str = " = ";
/// What close delimiter to use when providing error messages.
///
/// For `<name> = <value>`, this is `""`, for `<function>(<like>)`, it is
/// `")"`.
///
/// As named attributes can allow both `<name> = <value>` and
/// `<name>(<value>)`, this might not be the only way this attribute can be
/// used.
const PREFERRED_CLOSE_DELIMITER: &'static str = "";
/// Parses the attribute value when parentheses (`(`) were peeked.
///
/// Note: this is the input with the parentheses, and potentially following
/// arguments.
///
/// ```text
/// attribute(value), ...
/// ^^^^^^^^^^^^
/// ```
///
/// In the default implementation this calls through to
/// [`parse_value`](Self::parse_value) after removing the parentheses.
fn parse_value_meta(input: ParseStream) -> Result<SpannedValue<Self::Partial>> {
let content;
let paren = parenthesized!(content in input);
Self::parse_value(&content)
.map(SpannedValue::value)
.map(SpannedValue::with(paren.span.join()))
}
/// Parses the attribute value when an equals (`=`) was peeked.
///
/// Note: this is the input with the equals, and potentially following
/// arguments.
///
/// ```text
/// attribute = value, ...
/// ^^^^^^^^^^^^
/// ```
///
/// In the default implementation this calls through to
/// [`parse_value`](Self::parse_value) after removing the `=`.
fn parse_value_eq(input: ParseStream) -> Result<SpannedValue<Self::Partial>> {
<Token![=]>::parse(input)?;
Self::parse_value(input)
}
/// Parses the plain attribute value without leading `=` or enclosing
/// parenthesis.
///
/// **Note:** this input includes potentially a trailing `,` and following
/// arguments.
///
/// ```text
/// attribute = value, ...
/// ^^^^^^^^^^
/// ```
///
/// For simple syntax this is the only function needed to implement, as the
/// default implementations for [`parse_value_meta`](Self::parse_value_meta)
/// and [`parse_value_eq`](Self::parse_value_eq).
fn parse_value(input: ParseStream) -> Result<SpannedValue<Self::Partial>>;
}
impl<T: AttributeValue> FromAttr for T {
fn parse_partial(input: ParseStream) -> Result<Self::Partial> {
Self::parse_value(input).map(SpannedValue::value)
}
}
impl<T: AttributeValue> AttributeNamed for T {
const PREFERRED_CLOSE_DELIMITER: &'static str = Self::PREFERRED_CLOSE_DELIMITER;
const PREFERRED_OPEN_DELIMITER: &'static str = Self::PREFERRED_OPEN_DELIMITER;
fn parse_named(
name: &'static str,
input: ParseStream,
) -> Result<Option<Named<SpannedValue<Self::Partial>>>> {
let Some(name) = parse_name(input, name) else {
return Ok(None);
};
let value = if input.peek(Token![=]) {
Self::parse_value_eq(input)?
} else if input.peek(Paren) {
Self::parse_value_meta(input)?
} else {
return Err(input.error(Self::EXPECTED));
};
Ok(Some(Named { name, value }))
}
}
/// Marker trait that enables the blanket implementation of
/// [`AttributePositional`] for [`AttributeValue`].
pub trait PositionalValue {}
impl<T: AttributeValue + PositionalValue> AttributePositional for T {
fn parse_positional(input: ParseStream) -> Result<Option<SpannedValue<Self::Partial>>> {
Self::parse_value(input).map(Some)
}
}
/// Trait implementing parsing for `<function>(<like>)` attributes.
///
/// This is the trait defining the parsing of both top level attributes deriving
/// [`FromAttr`] and sub attributes.
/// ```
/// # quote::quote!(
/// #[attribute(sub_attribute("hello", "world"))]
/// # );
/// ```
pub trait AttributeMeta: AttributeBase {
/// Parses the content of the parenthesis:
///
/// ```text
/// attribute(value)
/// ^^^^^
/// ```
fn parse_inner(input: ParseStream) -> Result<Self::Partial>;
}
impl<T: AttributeMeta> AttributeValue for T {
const EXPECTED: &'static str = "expected `(`";
const PREFERRED_CLOSE_DELIMITER: &'static str = ")";
const PREFERRED_OPEN_DELIMITER: &'static str = "(";
fn parse_value_eq(input: ParseStream) -> Result<SpannedValue<Self::Partial>> {
Err(input.error(Self::EXPECTED))
}
fn parse_value(input: ParseStream) -> Result<SpannedValue<Self::Partial>> {
Self::parse_inner(input).map(SpannedValue::call_site)
}
}
/// Trait implemented for attributes that can be parsed optionally as a
/// positional argument, and the requirement for `Option<T>` to implement
/// [`AttributePositional`].
pub trait AttributePeekable {
/// Used to decide whether to parse optional positional values.
///
/// While most implementations should not mutate `input`, it might be good
/// to call this on a [`fork`](ParseBuffer::fork) of the original
/// [`ParseStream`] to ensure no mutation is persisted.
///
/// # Implementation notes
/// This should not try to parse `input`, if you cannot decide if `input`
/// matches using [`ParseBuffer::peek`] ([peek2](ParseBuffer::peek2),
/// [peek3](ParseBuffer::peek3)), consider not implementing
/// [`AttributePeekable`].
///
/// `attribute-derive` will always [`fork`](ParseBuffer::fork) before
/// calling this function to allow `peek` to modify `input` without
/// effecting further parsing.
fn peek(input: ParseStream) -> bool;
}
#[derive(Debug)]
/// Helper struct to hold a value and the ident of its property.
pub struct Named<T> {
/// The value.
pub value: T,
/// The argument name.
pub name: Ident,
}
impl<T> Named<T> {
#[doc(hidden)]
pub fn error_span(&self) -> Span {
self.name.span()
}
}
impl<T> Named<SpannedValue<T>> {
/// The value.
pub fn value(self) -> T {
self.value.value
}
}
/// Parses the name, if it matches returns `Some(name)` and removes the `name`
/// from input, if `None` it does not modify the input.
pub fn parse_name(input: ParseStream, name: &str) -> Option<Ident> {
let fork = &input.fork();
let ident: Ident = Ident::parse_any(fork).ok()?;
if ident == name {
input.advance_to(fork);
Some(ident)
} else {
None
}
}
/// Utility crate holding `Self::Partial` used in most attribute traits, i.e.,
/// [`FromAttr`], [`AttributeValue`], [`AttributePositional`], ...
pub trait AttributeBase: FromPartial<Self::Partial> {
/// Partial type for this attribute. In most cases this can be `Self`,
/// unless the attribute can be parsed in multiple on-its-own-incomplete
/// parts or needs special handling on the conversion.
type Partial;
}
/// Helper struct to hold a value and the corresponding range.
#[derive(Debug)]
pub struct SpannedValue<T> {
/// The value.
pub value: T,
/// The value's span.
pub span: Range<Span>,
}
impl<T: Default> Default for SpannedValue<T> {
fn default() -> Self {
Self::call_site(Default::default())
}
}
impl<T> SpannedValue<T> {
/// The value.
pub fn value(self) -> T {
self.value
}
/// The value's span.
pub fn span(&self) -> Range<Span> {
self.span.clone()
}
/// Map the value to a new type, keeping the span.
pub fn map_value<I>(self, map: impl FnOnce(T) -> I) -> SpannedValue<I> {
SpannedValue {
span: self.span(),
value: map(self.value()),
}
}
pub(crate) fn with(span: impl SpanRanged) -> impl Fn(T) -> Self {
move |value| Self::new(value, span.span_range())
}
/// Creates a new `SpannedValue` from a `value` implementing [`ToTokens`].
pub fn from_to_tokens(value: T) -> Self
where
T: ToTokens,
{
Self {
span: span_range!(value),
value,
}
}
/// Creates a new `SpannedValue` from a `value` and a [`span`](SpanRanged).
pub fn new(value: T, span: impl SpanRanged) -> SpannedValue<T> {
Self {
value,
span: span.span_range(),
}
}
/// Creates a new `SpannedValue` with the span [`Span::call_site()`].
pub fn call_site(value: T) -> SpannedValue<T> {
Self::new(value, Span::call_site())
}
#[doc(hidden)]
pub fn error_span(&self) -> Span {
self.span()
.span_joined()
.unwrap_or_else(|| self.span().start)
}
}
impl<T> SpanRanged for SpannedValue<T> {
fn span_range(&self) -> Range<Span> {
self.span.clone()
}
}