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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
use std::io::Write;
use syn::ext::IdentExt;
use crate::bindgen::config::{Config, Language, LayoutConfig};
use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver;
use crate::bindgen::dependencies::Dependencies;
use crate::bindgen::ir::{
AnnotationSet, Cfg, ConditionWrite, Documentation, Field, GenericArgument, GenericParams, Item,
ItemContainer, Path, Repr, ReprAlign, ReprStyle, ToCondition,
};
use crate::bindgen::library::Library;
use crate::bindgen::mangle;
use crate::bindgen::monomorph::Monomorphs;
use crate::bindgen::rename::{IdentifierType, RenameRule};
use crate::bindgen::utilities::IterHelpers;
use crate::bindgen::writer::{ListType, Source, SourceWriter};
#[derive(Debug, Clone)]
pub struct Union {
pub path: Path,
pub export_name: String,
pub generic_params: GenericParams,
pub fields: Vec<Field>,
pub tuple_union: bool,
pub alignment: Option<ReprAlign>,
pub cfg: Option<Cfg>,
pub annotations: AnnotationSet,
pub documentation: Documentation,
}
impl Union {
pub fn load(
layout_config: &LayoutConfig,
item: &syn::ItemUnion,
mod_cfg: Option<&Cfg>,
) -> Result<Union, String> {
let repr = Repr::load(&item.attrs)?;
if repr.style != ReprStyle::C {
return Err("Union is not marked #[repr(C)].".to_owned());
}
// Ensure we can safely represent the union given the configuration.
if let Some(align) = repr.align {
layout_config.ensure_safe_to_represent(&align)?;
}
let path = Path::new(item.ident.unraw().to_string());
let (fields, tuple_union) = {
let out = item
.fields
.named
.iter()
.try_skip_map(|field| Field::load(field, &path))?;
(out, false)
};
Ok(Union::new(
path,
GenericParams::load(&item.generics)?,
fields,
repr.align,
tuple_union,
Cfg::append(mod_cfg, Cfg::load(&item.attrs)),
AnnotationSet::load(&item.attrs)?,
Documentation::load(&item.attrs),
))
}
#[allow(clippy::too_many_arguments)]
pub fn new(
path: Path,
generic_params: GenericParams,
fields: Vec<Field>,
alignment: Option<ReprAlign>,
tuple_union: bool,
cfg: Option<Cfg>,
annotations: AnnotationSet,
documentation: Documentation,
) -> Self {
let export_name = path.name().to_owned();
Self {
path,
export_name,
generic_params,
fields,
tuple_union,
alignment,
cfg,
annotations,
documentation,
}
}
pub fn simplify_standard_types(&mut self, config: &Config) {
for field in &mut self.fields {
field.ty.simplify_standard_types(config);
}
}
pub fn is_generic(&self) -> bool {
self.generic_params.len() > 0
}
pub fn add_monomorphs(&self, library: &Library, out: &mut Monomorphs) {
// Generic unions can instantiate monomorphs only once they've been
// instantiated. See `instantiate_monomorph` for more details.
if self.is_generic() {
return;
}
for field in &self.fields {
field.ty.add_monomorphs(library, out);
}
}
pub fn mangle_paths(&mut self, monomorphs: &Monomorphs) {
for field in &mut self.fields {
field.ty.mangle_paths(monomorphs);
}
}
}
impl Item for Union {
fn path(&self) -> &Path {
&self.path
}
fn export_name(&self) -> &str {
&self.export_name
}
fn cfg(&self) -> Option<&Cfg> {
self.cfg.as_ref()
}
fn annotations(&self) -> &AnnotationSet {
&self.annotations
}
fn annotations_mut(&mut self) -> &mut AnnotationSet {
&mut self.annotations
}
fn container(&self) -> ItemContainer {
ItemContainer::Union(self.clone())
}
fn collect_declaration_types(&self, resolver: &mut DeclarationTypeResolver) {
resolver.add_union(&self.path);
}
fn resolve_declaration_types(&mut self, resolver: &DeclarationTypeResolver) {
for field in &mut self.fields {
field.ty.resolve_declaration_types(resolver);
}
}
fn rename_for_config(&mut self, config: &Config) {
config.export.rename(&mut self.export_name);
for field in &mut self.fields {
field.ty.rename_for_config(config, &self.generic_params);
}
let rules = self
.annotations
.parse_atom::<RenameRule>("rename-all")
.unwrap_or(config.structure.rename_fields);
if let Some(o) = self.annotations.list("field-names") {
let mut overriden_fields = Vec::new();
for (i, field) in self.fields.iter().enumerate() {
if i >= o.len() {
overriden_fields.push(field.clone());
} else {
overriden_fields.push(Field {
name: o[i].clone(),
ty: field.ty.clone(),
cfg: field.cfg.clone(),
annotations: field.annotations.clone(),
documentation: field.documentation.clone(),
});
}
}
self.fields = overriden_fields;
} else if let Some(r) = rules.not_none() {
self.fields = self
.fields
.iter()
.map(|field| Field {
name: r
.apply(&field.name, IdentifierType::StructMember)
.into_owned(),
ty: field.ty.clone(),
cfg: field.cfg.clone(),
annotations: field.annotations.clone(),
documentation: field.documentation.clone(),
})
.collect();
} else if self.tuple_union {
// If we don't have any rules for a tuple union, prefix them with
// an underscore so it still compiles
for field in &mut self.fields {
field.name.insert(0, '_');
}
}
}
fn add_dependencies(&self, library: &Library, out: &mut Dependencies) {
for field in &self.fields {
field
.ty
.add_dependencies_ignoring_generics(&self.generic_params, library, out);
}
}
fn instantiate_monomorph(
&self,
generic_values: &[GenericArgument],
library: &Library,
out: &mut Monomorphs,
) {
let mappings = self.generic_params.call(self.path.name(), generic_values);
let mangled_path = mangle::mangle_path(
&self.path,
generic_values,
&library.get_config().export.mangle,
);
let monomorph = Union::new(
mangled_path,
GenericParams::default(),
self.fields
.iter()
.map(|field| Field {
name: field.name.clone(),
ty: field.ty.specialize(&mappings),
cfg: field.cfg.clone(),
annotations: field.annotations.clone(),
documentation: field.documentation.clone(),
})
.collect(),
self.alignment,
self.tuple_union,
self.cfg.clone(),
self.annotations.clone(),
self.documentation.clone(),
);
out.insert_union(library, self, monomorph, generic_values.to_owned());
}
}
impl Source for Union {
fn write<F: Write>(&self, config: &Config, out: &mut SourceWriter<F>) {
let condition = self.cfg.to_condition(config);
condition.write_before(config, out);
self.documentation.write(config, out);
self.generic_params.write(config, out);
// The following results in
// C++ or C with Tag as style:
// union Name {
// C with Type only style:
// typedef union {
// C with Both as style:
// typedef union Name {
match config.language {
Language::C if config.style.generate_typedef() => out.write("typedef "),
Language::C | Language::Cxx => {}
Language::Cython => out.write(config.style.cython_def()),
}
out.write("union");
// Cython supports `packed` on structs (see comments there), but not on unions.
if config.language != Language::Cython {
if let Some(align) = self.alignment {
match align {
ReprAlign::Packed => {
if let Some(ref anno) = config.layout.packed {
write!(out, " {}", anno);
}
}
ReprAlign::Align(n) => {
if let Some(ref anno) = config.layout.aligned_n {
write!(out, " {}({})", anno, n);
}
}
}
}
}
if config.language != Language::C || config.style.generate_tag() {
write!(out, " {}", self.export_name);
}
out.open_brace();
// Emit the pre_body section, if relevant
if let Some(body) = config.export.pre_body(&self.path) {
out.write_raw_block(body);
out.new_line();
}
out.write_vertical_source_list(&self.fields, ListType::Cap(";"));
if config.language == Language::Cython && self.fields.is_empty() {
out.write("pass");
}
// Emit the post_body section, if relevant
if let Some(body) = config.export.post_body(&self.path) {
out.new_line();
out.write_raw_block(body);
}
if config.language == Language::C && config.style.generate_typedef() {
out.close_brace(false);
write!(out, " {};", self.export_name);
} else {
out.close_brace(true);
}
condition.write_after(config, out);
}
}