use proc_macro2::TokenStream;
use pyo3::{Bound, PyAny, PyResult, FromPyObject, prelude::PyAnyMethods};
use quote::quote;
use serde::{Deserialize, Serialize};
use crate::{CodeGen, CodeGenContext, ExprType, PythonOptions, SymbolTableScopes};
#[derive(Clone, Debug, Default, Serialize, Deserialize, PartialEq)]
pub struct NamedExpr {
left: Box<ExprType>,
right: Box<ExprType>,
}
impl<'a> FromPyObject<'a> for NamedExpr {
fn extract_bound(ob: &Bound<'a, PyAny>) -> PyResult<Self> {
let left = ob.getattr("left")?.extract::<ExprType>()?;
let right = ob.getattr("right")?.extract::<ExprType>()?;
Ok(NamedExpr {
left: Box::new(left),
right: Box::new(right),
})
}
}
impl CodeGen for NamedExpr {
type Context = CodeGenContext;
type Options = PythonOptions;
type SymbolTable = SymbolTableScopes;
fn to_rust(
self,
ctx: Self::Context,
options: Self::Options,
symbols: Self::SymbolTable,
) -> Result<TokenStream, Box<dyn std::error::Error>> {
let left = self
.left
.clone()
.to_rust(ctx.clone(), options.clone(), symbols.clone())
.expect(format!("parsing left side of named expression {:?}", self.left).as_str());
let right =
self.right.clone().to_rust(ctx, options, symbols).expect(
format!("parsing right side of named expression {:?}", self.right).as_str(),
);
Ok(quote!(#left = #right))
}
}
#[cfg(test)]
mod test {
use super::*;
use crate::{Constant, ExprType, Name};
use litrs::*;
#[test]
fn test_named_expression() {
let named_expression = NamedExpr {
left: Box::new(ExprType::Name(Name {
id: "a".to_string(),
})),
right: Box::new(ExprType::Constant(Constant(Some(Literal::Integer(
IntegerLit::parse("1".to_string()).unwrap(),
))))),
};
let rust = named_expression
.to_rust(
CodeGenContext::Module("test".to_string()),
PythonOptions::default(),
SymbolTableScopes::new(),
)
.unwrap();
assert_eq!(rust.to_string(), "a = 1");
}
}