use std::{collections::BTreeMap, str::FromStr};
use proc_macro2::TokenStream;
use quote::quote;
use syn::{Data, DeriveInput, Generics, Meta};
use super::{
super::TraitHandler,
models::{FieldAttributeBuilder, TypeAttributeBuilder},
};
use crate::{panic, Trait};
pub struct PartialOrdStructHandler;
impl TraitHandler for PartialOrdStructHandler {
fn trait_meta_handler(
ast: &DeriveInput,
tokens: &mut TokenStream,
traits: &[Trait],
meta: &Meta,
) {
let type_attribute = TypeAttributeBuilder {
enable_flag: true,
enable_bound: true,
rank: 0,
enable_rank: false,
}
.from_partial_ord_meta(meta);
let bound = type_attribute
.bound
.into_punctuated_where_predicates_by_generic_parameters(&ast.generics.params);
let mut comparer_tokens = TokenStream::new();
if let Data::Struct(data) = &ast.data {
let mut field_attributes = BTreeMap::new();
let mut field_names = BTreeMap::new();
for (index, field) in data.fields.iter().enumerate() {
let field_attribute = FieldAttributeBuilder {
enable_ignore: true,
enable_impl: true,
rank: isize::MIN + index as isize,
enable_rank: true,
}
.from_attributes(&field.attrs, traits);
if field_attribute.ignore {
continue;
}
let rank = field_attribute.rank;
if field_attributes.contains_key(&rank) {
panic::reuse_a_rank(rank);
}
let field_name = if let Some(ident) = field.ident.as_ref() {
ident.to_string()
} else {
format!("{}", index)
};
field_attributes.insert(rank, field_attribute);
field_names.insert(rank, field_name);
}
for (index, field_attribute) in field_attributes {
let field_name = field_names.get(&index).unwrap();
let compare_trait = field_attribute.compare_trait;
let compare_method = field_attribute.compare_method;
match compare_trait {
Some(compare_trait) => {
let compare_method = compare_method.unwrap();
let statement = format!(
"match {compare_trait}::{compare_method}(&self.{field_name}, \
&other.{field_name}) {{ Some(core::cmp::Ordering::Equal) => (), \
Some(core::cmp::Ordering::Greater) => {{ return \
Some(core::cmp::Ordering::Greater); }}, \
Some(core::cmp::Ordering::Less) => {{ return \
Some(core::cmp::Ordering::Less); }}, None => {{ return None; }} }}",
compare_trait = compare_trait,
compare_method = compare_method,
field_name = field_name
);
comparer_tokens.extend(TokenStream::from_str(&statement).unwrap());
},
None => match compare_method {
Some(compare_method) => {
let statement = format!(
"match {compare_method}(&self.{field_name}, &other.{field_name}) \
{{ Some(core::cmp::Ordering::Equal) => (), \
Some(core::cmp::Ordering::Greater) => {{ return \
Some(core::cmp::Ordering::Greater); }}, \
Some(core::cmp::Ordering::Less) => {{ return \
Some(core::cmp::Ordering::Less); }}, None => {{ return None; }} \
}}",
compare_method = compare_method,
field_name = field_name
);
comparer_tokens.extend(TokenStream::from_str(&statement).unwrap());
},
None => {
let statement = format!(
"match core::cmp::PartialOrd::partial_cmp(&self.{field_name}, \
&other.{field_name}) {{ Some(core::cmp::Ordering::Equal) => (), \
Some(core::cmp::Ordering::Greater) => {{ return \
Some(core::cmp::Ordering::Greater); }}, \
Some(core::cmp::Ordering::Less) => {{ return \
Some(core::cmp::Ordering::Less); }}, None => {{ return None; }} \
}}",
field_name = field_name
);
comparer_tokens.extend(TokenStream::from_str(&statement).unwrap());
},
},
}
}
}
let ident = &ast.ident;
let mut generics_cloned: Generics = ast.generics.clone();
let where_clause = generics_cloned.make_where_clause();
for where_predicate in bound {
where_clause.predicates.push(where_predicate);
}
let (impl_generics, ty_generics, where_clause) = generics_cloned.split_for_impl();
let compare_impl = quote! {
impl #impl_generics core::cmp::PartialOrd for #ident #ty_generics #where_clause {
#[inline]
fn partial_cmp(&self, other: &Self) -> Option<core::cmp::Ordering> {
#comparer_tokens
Some(core::cmp::Ordering::Equal)
}
}
};
tokens.extend(compare_impl);
}
}