cairo_lang_plugins/plugins/
config.rsuse std::vec;
use cairo_lang_defs::patcher::PatchBuilder;
use cairo_lang_defs::plugin::{
MacroPlugin, MacroPluginMetadata, PluginDiagnostic, PluginGeneratedFile, PluginResult,
};
use cairo_lang_filesystem::cfg::{Cfg, CfgSet};
use cairo_lang_syntax::attribute::structured::{
Attribute, AttributeArg, AttributeArgVariant, AttributeStructurize,
};
use cairo_lang_syntax::node::db::SyntaxGroup;
use cairo_lang_syntax::node::helpers::{BodyItems, QueryAttrs};
use cairo_lang_syntax::node::{Terminal, TypedSyntaxNode, ast};
use cairo_lang_utils::try_extract_matches;
#[derive(Debug, Default)]
#[non_exhaustive]
pub struct ConfigPlugin;
const CFG_ATTR: &str = "cfg";
impl MacroPlugin for ConfigPlugin {
fn generate_code(
&self,
db: &dyn SyntaxGroup,
item_ast: ast::ModuleItem,
metadata: &MacroPluginMetadata<'_>,
) -> PluginResult {
let mut diagnostics = vec![];
if should_drop(db, metadata.cfg_set, &item_ast, &mut diagnostics) {
PluginResult { code: None, diagnostics, remove_original_item: true }
} else if let Some(builder) =
handle_undropped_item(db, metadata.cfg_set, item_ast, &mut diagnostics)
{
let (content, code_mappings) = builder.build();
PluginResult {
code: Some(PluginGeneratedFile {
name: "config".into(),
content,
code_mappings,
aux_data: None,
diagnostics_note: Default::default(),
}),
diagnostics,
remove_original_item: true,
}
} else {
PluginResult { code: None, diagnostics, remove_original_item: false }
}
}
fn declared_attributes(&self) -> Vec<String> {
vec![CFG_ATTR.to_string()]
}
}
pub struct ItemsInCfg<'a, Item: QueryAttrs> {
db: &'a dyn SyntaxGroup,
cfg_set: &'a CfgSet,
iterator: <Vec<Item> as IntoIterator>::IntoIter,
}
impl<Item: QueryAttrs> Iterator for ItemsInCfg<'_, Item> {
type Item = Item;
fn next(&mut self) -> Option<Self::Item> {
self.iterator.find(|item| !should_drop(self.db, self.cfg_set, item, &mut vec![]))
}
}
pub trait HasItemsInCfgEx<Item: QueryAttrs>: BodyItems<Item = Item> {
fn iter_items_in_cfg<'a>(
&self,
db: &'a dyn SyntaxGroup,
cfg_set: &'a CfgSet,
) -> ItemsInCfg<'a, Item>;
}
impl<Item: QueryAttrs, Body: BodyItems<Item = Item>> HasItemsInCfgEx<Item> for Body {
fn iter_items_in_cfg<'a>(
&self,
db: &'a dyn SyntaxGroup,
cfg_set: &'a CfgSet,
) -> ItemsInCfg<'a, Item> {
ItemsInCfg { db, cfg_set, iterator: self.items_vec(db).into_iter() }
}
}
fn handle_undropped_item<'a>(
db: &'a dyn SyntaxGroup,
cfg_set: &CfgSet,
item_ast: ast::ModuleItem,
diagnostics: &mut Vec<PluginDiagnostic>,
) -> Option<PatchBuilder<'a>> {
match item_ast {
ast::ModuleItem::Trait(trait_item) => {
let body = try_extract_matches!(trait_item.body(db), ast::MaybeTraitBody::Some)?;
let items = get_kept_items_nodes(db, cfg_set, &body.items_vec(db), diagnostics)?;
let mut builder = PatchBuilder::new(db, &trait_item);
builder.add_node(trait_item.attributes(db).as_syntax_node());
builder.add_node(trait_item.trait_kw(db).as_syntax_node());
builder.add_node(trait_item.name(db).as_syntax_node());
builder.add_node(trait_item.generic_params(db).as_syntax_node());
builder.add_node(body.lbrace(db).as_syntax_node());
for item in items {
builder.add_node(item);
}
builder.add_node(body.rbrace(db).as_syntax_node());
Some(builder)
}
ast::ModuleItem::Impl(impl_item) => {
let body = try_extract_matches!(impl_item.body(db), ast::MaybeImplBody::Some)?;
let items = get_kept_items_nodes(db, cfg_set, &body.items_vec(db), diagnostics)?;
let mut builder = PatchBuilder::new(db, &impl_item);
builder.add_node(impl_item.attributes(db).as_syntax_node());
builder.add_node(impl_item.impl_kw(db).as_syntax_node());
builder.add_node(impl_item.name(db).as_syntax_node());
builder.add_node(impl_item.generic_params(db).as_syntax_node());
builder.add_node(impl_item.of_kw(db).as_syntax_node());
builder.add_node(impl_item.trait_path(db).as_syntax_node());
builder.add_node(body.lbrace(db).as_syntax_node());
for item in items {
builder.add_node(item);
}
builder.add_node(body.rbrace(db).as_syntax_node());
Some(builder)
}
_ => None,
}
}
fn get_kept_items_nodes<Item: QueryAttrs + TypedSyntaxNode>(
db: &dyn SyntaxGroup,
cfg_set: &CfgSet,
all_items: &[Item],
diagnostics: &mut Vec<PluginDiagnostic>,
) -> Option<Vec<cairo_lang_syntax::node::SyntaxNode>> {
let mut any_dropped = false;
let mut kept_items_nodes = vec![];
for item in all_items {
if should_drop(db, cfg_set, item, diagnostics) {
any_dropped = true;
} else {
kept_items_nodes.push(item.as_syntax_node());
}
}
if any_dropped { Some(kept_items_nodes) } else { None }
}
fn should_drop<Item: QueryAttrs>(
db: &dyn SyntaxGroup,
cfg_set: &CfgSet,
item: &Item,
diagnostics: &mut Vec<PluginDiagnostic>,
) -> bool {
item.query_attr(db, CFG_ATTR).into_iter().any(|attr| {
matches!(
parse_predicate(db, attr.structurize(db), diagnostics),
Some(pattern) if !cfg_set.is_superset(&pattern)
)
})
}
fn parse_predicate(
db: &dyn SyntaxGroup,
attr: Attribute,
diagnostics: &mut Vec<PluginDiagnostic>,
) -> Option<CfgSet> {
attr
.args
.into_iter()
.map(|arg| parse_predicate_item(db, arg, diagnostics))
.collect::<Vec<_>>()
.into_iter()
.collect::<Option<Vec<Cfg>>>()
.map(CfgSet::from_iter)
}
fn parse_predicate_item(
db: &dyn SyntaxGroup,
arg: AttributeArg,
diagnostics: &mut Vec<PluginDiagnostic>,
) -> Option<Cfg> {
match arg.variant {
AttributeArgVariant::FieldInitShorthand(_) => {
diagnostics.push(PluginDiagnostic::error(
&arg.arg,
"This attribute does not support field initialization shorthands.".into(),
));
None
}
AttributeArgVariant::Named { name, value } => {
let value = match value {
ast::Expr::ShortString(terminal) => terminal.string_value(db).unwrap_or_default(),
ast::Expr::String(terminal) => terminal.string_value(db).unwrap_or_default(),
_ => {
diagnostics.push(PluginDiagnostic::error(
&value,
"Expected a string/short-string literal.".into(),
));
return None;
}
};
Some(Cfg::kv(name.text, value))
}
AttributeArgVariant::Unnamed(value) => {
let ast::Expr::Path(path) = value else {
diagnostics.push(PluginDiagnostic::error(&value, "Expected identifier.".into()));
return None;
};
let [ast::PathSegment::Simple(segment)] = &path.elements(db)[..] else {
diagnostics.push(PluginDiagnostic::error(&path, "Expected simple path.".into()));
return None;
};
let key = segment.ident(db).text(db);
Some(Cfg::name(key))
}
}
}