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// SPDX-FileCopyrightText: 2021 - 2023 Kamila Borowska <kamila@borowska.pw>
// SPDX-FileCopyrightText: 2021 Bruno Corrêa Zimmermann <brunoczim@gmail.com>
//
// SPDX-License-Identifier: MIT OR Apache-2.0
use crate::type_length;
use proc_macro2::TokenStream;
use quote::{format_ident, quote, ToTokens};
use syn::{DataEnum, Fields, FieldsNamed, FieldsUnnamed, Ident, Variant};
pub fn generate(name: Ident, data_enum: DataEnum) -> TokenStream {
let mut generator = EnumGenerator::empty();
for variant in &data_enum.variants {
generator.handle_variant(variant);
}
generator.finish(&name)
}
#[derive(Debug)]
struct Length {
units: usize,
opaque: TokenStream,
}
impl ToTokens for Length {
fn to_tokens(&self, tokens: &mut TokenStream) {
let Self { units, opaque } = self;
tokens.extend(quote! { (#units + #opaque) });
}
}
/// Total length is the sum of each variant's length. To represent a variant, its number is added to
/// the sum of previous variant lengths.
#[derive(Debug)]
struct EnumGenerator {
length: Length,
from_usize_arms: TokenStream,
into_usize_arms: TokenStream,
}
impl EnumGenerator {
fn empty() -> Self {
Self {
length: Length {
units: 0,
opaque: quote! { 0 },
},
from_usize_arms: quote! {},
into_usize_arms: quote! {},
}
}
fn finish(&self, name: &Ident) -> TokenStream {
let Self {
length,
from_usize_arms,
into_usize_arms,
} = self;
quote! {
#[automatically_derived]
impl ::enum_map::Enum for #name {
const LENGTH: ::enum_map::usize = #length;
#[inline]
fn from_usize(value: ::enum_map::usize) -> Self {
#from_usize_arms {
::enum_map::out_of_bounds()
}
}
#[inline]
fn into_usize(self) -> ::enum_map::usize {
match self {
#into_usize_arms
}
}
}
#[automatically_derived]
impl<V> ::enum_map::EnumArray<V> for #name {
type Array = [V; #length];
}
}
}
fn handle_variant(&mut self, variant: &Variant) {
match &variant.fields {
Fields::Unit => self.handle_unit_variant(&variant.ident),
Fields::Unnamed(fields) => self.handle_unnamed_variant(&variant.ident, fields),
Fields::Named(fields) => self.handle_named_variant(&variant.ident, fields),
}
}
/// Becomes simply `1` in counting, since this is the size of the unit.
fn handle_unit_variant(&mut self, variant: &Ident) {
let Self {
length,
from_usize_arms,
into_usize_arms,
} = self;
*into_usize_arms = quote! { #into_usize_arms Self::#variant => #length, };
*from_usize_arms = quote! {
#from_usize_arms if value == #length {
Self::#variant
} else
};
self.length.units += 1;
}
/// Its size is the product of the sizes of its members. To represent this variant, one can
/// think of this as representing a little-endian number. First member is simply added, but
/// next members are multiplied before being added.
fn handle_unnamed_variant(&mut self, variant: &Ident, fields: &FieldsUnnamed) {
let Self {
length,
from_usize_arms,
into_usize_arms,
} = self;
let mut expr_into = quote! { #length };
let mut fields_length = quote! { 1usize };
let mut params_from = quote! {};
for (i, field) in fields.unnamed.iter().enumerate() {
let ident = format_ident!("p{}", i);
let ty = &field.ty;
let field_length = type_length(ty);
expr_into = quote! {
(#expr_into + #fields_length * ::enum_map::Enum::into_usize(#ident))
};
params_from = quote! {
#params_from <#ty as ::enum_map::Enum>::from_usize(
(value - #length) / #fields_length % #field_length
),
};
fields_length = quote! { (#fields_length * #field_length) };
}
*length = Length {
units: 0,
opaque: quote! { (#length + #fields_length) },
};
let from_arms = &from_usize_arms;
*from_usize_arms = quote! {
#from_arms if value < #length {
Self::#variant(#params_from)
} else
};
let mut params_into = quote! {};
for i in 0..fields.unnamed.len() {
let ident = format_ident!("p{}", i);
params_into = quote! { #params_into #ident, };
}
*into_usize_arms = quote! {
#into_usize_arms Self::#variant(#params_into) => #expr_into,
};
}
/// Its size is the product of the sizes of its members. To represent this variant, one can
/// think of this as representing a little-endian number. First member is simply added, but
/// next members are multiplied before being added.
fn handle_named_variant(&mut self, variant: &Ident, fields: &FieldsNamed) {
let Self {
length,
from_usize_arms,
into_usize_arms,
} = self;
let mut expr_into = quote! { #length };
let mut fields_length = quote! { 1usize };
let mut params_from = quote! {};
for field in fields.named.iter() {
let ident = field.ident.as_ref().unwrap();
let ty = &field.ty;
let field_length = type_length(ty);
expr_into = quote! {
(#expr_into + #fields_length * ::enum_map::Enum::into_usize(#ident))
};
params_from = quote! {
#params_from #ident: <#ty as ::enum_map::Enum>::from_usize(
(value - #length) / #fields_length % #field_length
),
};
fields_length = quote! { (#fields_length * #field_length) };
}
*length = Length {
units: 0,
opaque: quote! { (#length + #fields_length) },
};
*from_usize_arms = quote! {
#from_usize_arms if value < #length {
Self::#variant { #params_from }
} else
};
let mut params_into = quote! {};
for field in fields.named.iter() {
let ident = field.ident.as_ref().unwrap();
params_into = quote! { #params_into #ident, };
}
*into_usize_arms = quote! {
#into_usize_arms Self::#variant { #params_into } => #expr_into,
};
}
}
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