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use darling::FromDeriveInput;
use syn::parse_quote;
mod foo {
pub mod bar {
pub fn init() -> String {
String::from("hello")
}
}
}
#[derive(FromDeriveInput)]
#[darling(attributes(speak))]
pub struct SpeakerOpts {
#[darling(default = foo::bar::init)]
first_word: String,
}
#[test]
fn path_default() {
let speaker: SpeakerOpts = FromDeriveInput::from_derive_input(&parse_quote! {
struct Foo;
})
.expect("Unit struct with no attrs should parse");
assert_eq!(speaker.first_word, "hello");
}
/// Tests in this module capture the somewhat-confusing behavior observed when defaults
/// are set at both the field and container level.
///
/// The general rule is that more-specific declarations preempt less-specific ones; this is
/// unsurprising and allows for granular control over what happens when parsing an AST.
mod stacked_defaults {
use darling::{FromDeriveInput, FromMeta};
use syn::parse_quote;
fn jane() -> String {
"Jane".into()
}
#[derive(FromMeta)]
#[darling(default)]
struct PersonName {
#[darling(default = "jane")]
first: String,
#[darling(default)]
middle: String,
last: String,
}
impl Default for PersonName {
fn default() -> Self {
Self {
first: "John".into(),
middle: "T".into(),
last: "Doe".into(),
}
}
}
#[derive(FromDeriveInput)]
#[darling(attributes(person))]
struct Person {
#[darling(default)]
name: PersonName,
age: u8,
}
#[test]
fn name_first_only() {
let person = Person::from_derive_input(&parse_quote! {
#[person(name(first = "Bill"), age = 5)]
struct Foo;
})
.unwrap();
assert_eq!(person.name.first, "Bill");
assert_eq!(
person.name.middle, "",
"Explicit field-level default should preempt container-level default"
);
assert_eq!(
person.name.last, "Doe",
"Absence of a field-level default falls back to container-level default"
);
}
/// This is the most surprising case. The presence of `name()` means we invoke
/// `PersonName::from_list(&[])`. When that finishes parsing each of the zero nested
/// items it has received, it will then start filling in missing fields, using the
/// explicit field-level defaults for `first` and `middle`, while for `last` it will
/// use the `last` field from the container-level default.
#[test]
fn name_empty_list() {
let person = Person::from_derive_input(&parse_quote! {
#[person(name(), age = 5)]
struct Foo;
})
.unwrap();
assert_eq!(person.name.first, "Jane");
assert_eq!(person.name.middle, "");
assert_eq!(person.name.last, "Doe");
}
#[test]
fn no_name() {
let person = Person::from_derive_input(&parse_quote! {
#[person(age = 5)]
struct Foo;
})
.unwrap();
assert_eq!(person.age, 5);
assert_eq!(
person.name.first, "John",
"If `name` is not specified, `Person`'s field-level default should be used"
);
assert_eq!(person.name.middle, "T");
assert_eq!(person.name.last, "Doe");
}
}
mod implicit_default {
use darling::{util::Flag, FromDeriveInput};
use syn::parse_quote;
// No use of `darling(default)` here at all!
// This struct will fill in missing fields using FromMeta::from_none.
#[derive(FromDeriveInput)]
#[darling(attributes(person))]
struct Person {
first_name: String,
last_name: Option<String>,
lefty: Flag,
}
#[test]
fn missing_fields_fill() {
let person = Person::from_derive_input(&parse_quote! {
#[person(first_name = "James")]
struct Foo;
})
.unwrap();
assert_eq!(person.first_name, "James");
assert_eq!(person.last_name, None);
assert!(!person.lefty.is_present());
}
}
/// Test that a field-level implicit default using FromMeta::from_none is superseded
/// by the parent declaring `#[darling(default)]`.
mod overridden_implicit_default {
use darling::{util::Flag, FromDeriveInput};
use syn::parse_quote;
#[derive(FromDeriveInput)]
#[darling(default, attributes(person))]
struct Person {
first_name: String,
last_name: Option<String>,
lefty: Flag,
}
impl Default for Person {
fn default() -> Self {
Self {
first_name: "Jane".into(),
last_name: Some("Doe".into()),
lefty: Flag::default(),
}
}
}
#[test]
fn fill_missing() {
let person = Person::from_derive_input(&parse_quote!(
#[person(last_name = "Archer")]
struct Foo;
))
.unwrap();
assert_eq!(person.first_name, "Jane");
assert_eq!(person.last_name, Some("Archer".into()));
assert!(!person.lefty.is_present());
}
}