use super::{pyi_docstring, python_safe_name};
use crate::backends::pyo3::type_map::python_type;
use crate::core::ir::{EnumDef, TypeRef};
use ahash::AHashSet;
fn factory_param_type(ty: &TypeRef, coercible_dtos: &AHashSet<&str>) -> String {
match ty {
TypeRef::Named(name) if coercible_dtos.contains(name.as_str()) => {
format!("options.{name} | dict[str, Any]")
}
TypeRef::Optional(inner) => format!("{} | None", factory_param_type(inner, coercible_dtos)),
TypeRef::Vec(inner) => format!("list[{}]", factory_param_type(inner, coercible_dtos)),
TypeRef::Map(k, v) => format!(
"dict[{}, {}]",
factory_param_type(k, coercible_dtos),
factory_param_type(v, coercible_dtos)
),
_ => python_type(ty),
}
}
fn to_python_enum_variant(name: &str) -> String {
use heck::ToShoutySnakeCase;
crate::core::keywords::python_str_enum_ident(&name.to_shouty_snake_case())
}
pub(super) fn gen_enum_stub(enum_def: &EnumDef, emit_docstrings: bool, coercible_dtos: &AHashSet<&str>) -> String {
use crate::codegen::generators::enum_has_data_variants;
let mut lines = vec![];
if enum_has_data_variants(enum_def) {
gen_data_enum_typeddicts(&mut lines, enum_def, coercible_dtos);
} else {
lines.push(format!("class {}:", enum_def.name));
if emit_docstrings {
if let Some(docstring) = pyi_docstring(&enum_def.doc, " ") {
lines.push(docstring);
}
}
for variant in &enum_def.variants {
lines.push(format!(
" {}: {} = ...",
to_python_enum_variant(&variant.name),
enum_def.name
));
if emit_docstrings {
if let Some(docstring) = pyi_docstring(&variant.doc, " ") {
lines.push(docstring);
}
}
}
lines.push(" def __init__(self, value: int | str) -> None: ...".to_string());
}
lines.join("\n")
}
fn gen_data_enum_typeddicts(lines: &mut Vec<String>, enum_def: &EnumDef, coercible_dtos: &AHashSet<&str>) {
let tag_field = enum_def.serde_tag.as_deref().unwrap_or("type");
let rename_all = enum_def.serde_rename_all.as_deref();
let mut variant_class_names = vec![];
for variant in &enum_def.variants {
let class_name = format!("{}{}Variant", enum_def.name, variant.name);
variant_class_names.push(class_name.clone());
let tag_value =
crate::codegen::naming::wire_variant_value(&variant.name, variant.serde_rename.as_deref(), rename_all);
lines.push(format!("class {}(TypedDict):", class_name));
lines.push(format!(" {}: Literal[\"{}\"]", tag_field, tag_value));
for field in &variant.fields {
let field_type = python_type(&field.ty);
let field_type = if field.optional && !field_type.contains("| None") {
format!("{} | None", field_type)
} else {
field_type
};
lines.push(format!(" {}: {}", python_safe_name(&field.name), field_type));
}
lines.push("".to_string());
}
lines.push(format!("class {}:", enum_def.name));
lines.push(format!(" {}: str", tag_field));
gen_data_enum_variant_constructor_stubs(lines, enum_def, coercible_dtos);
if !crate::codegen::generators::enum_has_sanitized_fields(enum_def) {
lines.push(
" def __init__(self, value: dict[str, Any] | str | None = None, **kwargs: Any) -> None: ...".to_string(),
);
}
lines.push(" def __str__(self) -> str: ... # noqa: PYI029".to_string());
lines.push(" def __repr__(self) -> str: ... # noqa: PYI029".to_string());
}
fn gen_data_enum_variant_constructor_stubs(
lines: &mut Vec<String>,
enum_def: &EnumDef,
coercible_dtos: &AHashSet<&str>,
) {
use crate::codegen::generators::collect_variant_constructors;
let ctors = collect_variant_constructors(enum_def);
const SHADOWABLE_BUILTINS: &[&str] = &["list", "dict", "set", "tuple", "frozenset", "type"];
let shadowed: Vec<&str> = SHADOWABLE_BUILTINS
.iter()
.copied()
.filter(|b| ctors.iter().any(|c| c.snake_name == *b))
.collect();
for ctor in &ctors {
let params: Vec<String> = ctor
.params
.iter()
.enumerate()
.map(|(idx, p)| {
let optional = p.optional || crate::codegen::shared::is_promoted_optional(&ctor.params, idx);
let mut py_type = factory_param_type(&p.ty, coercible_dtos);
for builtin in &shadowed {
py_type = py_type.replace(&format!("{builtin}["), &format!("builtins.{builtin}["));
}
let py_type = if optional && !py_type.contains("| None") {
format!("{py_type} | None")
} else {
py_type
};
crate::backends::pyo3::template_env::render(
"stub_enum_variant_constructor_param.jinja",
minijinja::context! {
name => python_safe_name(&p.name),
py_type => py_type,
optional => optional,
},
)
})
.collect();
lines.push(crate::backends::pyo3::template_env::render(
"stub_enum_variant_constructor.jinja",
minijinja::context! {
method_name => python_safe_name(&ctor.snake_name),
params => params.join(", "),
return_type => &enum_def.name,
},
));
}
}
#[cfg(test)]
mod tests;