forked from M-Labs/nac3
start statement check, fix some error message
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9603aa644a
commit
eb5c029414
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@ -173,7 +173,8 @@ mod tests {
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use std::rc::Rc;
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fn get_inference_context(ctx: GlobalContext) -> InferenceContext {
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InferenceContext::new(ctx, Box::new(|_| Err("unbounded identifier".into())))
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// InferenceContext::new(ctx, Box::new(|_| Err("unbounded identifier".into())))
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crate::typecheck::type_check::test::new_ctx().ctx
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}
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#[test]
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@ -2,7 +2,7 @@ use rustpython_parser::ast;
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use std::vec::Vec;
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#[derive(Clone, Copy, PartialEq)]
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pub struct FileID(u32);
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pub struct FileID(pub u32);
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#[derive(Clone, Copy, PartialEq)]
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pub enum Location {
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@ -5,4 +5,4 @@ pub mod magic_methods;
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pub mod primitives;
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pub mod symbol_resolver;
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pub mod typedef;
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pub mod expression_inference;
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pub mod type_check;
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@ -7,6 +7,15 @@ use crate::typecheck::typedef::{Type, TypeEnum};
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use crate::typecheck::primitives;
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use rustpython_parser::ast;
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struct NaiveFolder;
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impl ast::fold::Fold<()> for NaiveFolder {
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type TargetU = Option<Type>;
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type Error = String;
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fn map_user(&mut self, _user: ()) -> Result<Self::TargetU, Self::Error> {
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Ok(None)
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}
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}
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pub struct TypeInferencer<'a> {
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pub ctx: InferenceContext<'a>,
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pub error_stack: Vec<(String, ast::Location)>
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@ -44,7 +53,7 @@ impl<'a> ast::fold::Fold<()> for TypeInferencer<'a> {
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ast::ExprKind::Call {func, args, keywords} => self.infer_call(func, args, keywords),
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ast::ExprKind::Subscript {value, slice, ctx: _} => self.infer_subscript(value, slice),
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ast::ExprKind::IfExp {test, body, orelse} => self.infer_if_expr(test, body, orelse),
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ast::ExprKind::ListComp {elt: _, generators: _} => panic!("should not earch here, the list comp should be folded before"), // already folded
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ast::ExprKind::ListComp {elt: _, generators: _} => unreachable!("should not earch here, the list comp should have been folded before"), // already folded
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ast::ExprKind::Slice { .. } => Ok(None), // special handling for slice, which is supported
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_ => Err("not supported yet".into())
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}?,
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@ -54,6 +63,65 @@ impl<'a> ast::fold::Fold<()> for TypeInferencer<'a> {
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self.error_stack.pop();
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ret
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}
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fn fold_stmt(&mut self, node: ast::Stmt<()>) -> Result<ast::Stmt<Self::TargetU>, Self::Error> {
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let stmt = match node.node {
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ast::StmtKind::AnnAssign {target, annotation, value, simple} => {
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let target_folded = Box::new(self.fold_expr( *target)?);
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let value = if let Some(v) = value {
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let value_folded = Box::new(self.fold_expr(*v)?);
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if target_folded.custom == value_folded.custom {
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Some(value_folded)
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} else {
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return Err("Assignment LHF does not have the same type as RHS".into())
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}
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} else {
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None
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};
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// TODO check consistency with type annotation
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ast::Located {
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location: node.location,
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custom: None,
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node: ast::StmtKind::AnnAssign {
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target: target_folded,
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annotation: Box::new(NaiveFolder.fold_expr(*annotation)?),
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value,
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simple
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},
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}
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}
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_ => ast::fold::fold_stmt(self, node)?
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};
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match &stmt.node {
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ast::StmtKind::For { target, iter, .. } => {
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if let Some(TypeEnum::ParametricType(primitives::LIST_TYPE, ls)) = iter.custom.as_deref() {
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unimplemented!()
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// TODO
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} else {
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return Err("can only iterate over list".into())
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}
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}
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ast::StmtKind::If { test, .. } | ast::StmtKind::While { test, .. } => {
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if test.custom != Some(self.ctx.get_primitive(primitives::BOOL_TYPE)) {
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return Err("Test should be bool".into());
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}
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}
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ast::StmtKind::Assign { targets, value, .. } => {
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unimplemented!();
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// TODO
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}
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ast::StmtKind::AnnAssign { .. } | ast::StmtKind::Expr { .. } => {}
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ast::StmtKind::Break | ast::StmtKind::Continue => {}
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ast::StmtKind::Return { value } => {
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unimplemented!()
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// TODO
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}
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_ => return Err("Unsupported statement type".to_string()),
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}
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Ok(stmt)
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}
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}
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impl<'a> TypeInferencer<'a> {
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@ -185,6 +253,7 @@ impl<'a> TypeInferencer<'a> {
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Some(left.custom.clone().ok_or_else(|| "no value".to_string())?),
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magic_methods::binop_name(op),
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&[right.custom.clone().ok_or_else(|| "no value".to_string())?])
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.map_err(|_| "unsupported binary operator between the oprands".to_string())
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}
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fn infer_unary_ops(&self, op: &ast::Unaryop, operand: &ast::Expr<Option<Type>>) -> Result<Option<Type>, String> {
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@ -196,6 +265,7 @@ impl<'a> TypeInferencer<'a> {
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}
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} else {
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inference_core::resolve_call(&self.ctx, operand.custom.clone(), magic_methods::unaryop_name(op), &[])
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.map_err(|_| "unsupported unary operator".to_string())
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}
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}
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@ -208,7 +278,8 @@ impl<'a> TypeInferencer<'a> {
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&self.ctx,
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Some(left.custom.clone().ok_or_else(|| "comparator must be able to be typed".to_string())?),
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magic_methods::comparison_name(&ops[0]).ok_or_else(|| "unsupported comparison".to_string())?,
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&[comparators[0].custom.clone().ok_or_else(|| "comparator must be able to be typed".to_string())?])?;
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&[comparators[0].custom.clone().ok_or_else(|| "comparator must be able to be typed".to_string())?])
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.map_err(|_| "Comparison between the comparators are not supportes".to_string())?;
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if ty_first != bool_type {
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return Err("comparison result must be boolean".into());
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}
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@ -222,7 +293,8 @@ impl<'a> TypeInferencer<'a> {
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&self.ctx,
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Some(a.custom.clone().ok_or_else(|| "comparator must be able to be typed".to_string())?.clone()),
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magic_methods::comparison_name(op).ok_or_else(|| "unsupported comparison".to_string())?,
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&[b.custom.clone().ok_or_else(|| "comparator must be able to be typed".to_string())?.clone()])?;
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&[b.custom.clone().ok_or_else(|| "comparator must be able to be typed".to_string())?.clone()])
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.map_err(|_| "Comparison between the comparators are not supportes".to_string())?;
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if ty != bool_type {
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return Err("comparison result must be boolean".into());
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}
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@ -354,46 +426,51 @@ impl<'a> TypeInferencer<'a> {
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.as_ref()
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.clone() {
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let result: Result<ast::Expr<Option<Type>>, String>;
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self.ctx.start_scope();
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self.infer_simple_binding(&target, ls[0].clone())?;
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let elt_folded = Box::new(self.fold_expr(*elt)?);
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let target_folded = Box::new(self.fold_expr(*target)?);
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let ifs_folded = ifs
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.into_iter()
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.map(|x| self.fold_expr(x))
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.collect::<Result<Vec<ast::Expr<Option<Type>>>, _>>()?;
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{
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self.infer_simple_binding(&target, ls[0].clone())?;
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let elt_folded = Box::new(self.fold_expr(*elt)?);
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let target_folded = Box::new(self.fold_expr(*target)?);
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let ifs_folded = ifs
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.into_iter()
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.map(|x| self.fold_expr(x))
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.collect::<Result<Vec<ast::Expr<Option<Type>>>, _>>()?;
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let result =
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if ifs_folded
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.iter()
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.all(|x| x.custom == Some(self.ctx.get_primitive(primitives::BOOL_TYPE))) {
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Ok(ast::Expr {
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location,
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custom: Some(TypeEnum::ParametricType(
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primitives::LIST_TYPE,
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vec![elt_folded
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.custom
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.clone()
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.ok_or_else(|| "elements cannot be typped".to_string())?]).into()),
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node: ast::ExprKind::ListComp {
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elt: elt_folded,
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generators: vec![ast::Comprehension {
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target: target_folded,
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ifs: ifs_folded,
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iter: iter_folded,
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is_async
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}]
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}
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})
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} else {
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Err("test must be bool".into())
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};
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result =
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if ifs_folded
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.iter()
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.all(|x| x.custom == Some(self.ctx.get_primitive(primitives::BOOL_TYPE))) {
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// only pop the error stack when return Ok(..)
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self.error_stack.pop();
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Ok(ast::Expr {
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location,
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custom: Some(TypeEnum::ParametricType(
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primitives::LIST_TYPE,
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vec![elt_folded
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.custom
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.clone()
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.ok_or_else(|| "elements cannot be typped".to_string())?]).into()),
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node: ast::ExprKind::ListComp {
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elt: elt_folded,
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generators: vec![ast::Comprehension {
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target: target_folded,
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ifs: ifs_folded,
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iter: iter_folded,
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is_async
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}]
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}
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})
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} else {
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Err("test must be bool".into())
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};
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}
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self.ctx.end_scope();
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result
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} else {
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Err("iteration is supported for list only".into())
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};
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self.error_stack.pop();
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ret
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} else {
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panic!("this function is for list comprehensions only!");
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@ -405,11 +482,13 @@ impl<'a> TypeInferencer<'a> {
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let ret = match &name.node {
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ast::ExprKind::Name {id, ctx: _} => {
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if id == "_" {
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self.error_stack.pop();
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Ok(())
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} else if self.ctx.defined(id) {
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Err("duplicated naming".into())
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} else {
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self.ctx.assign(id.clone(), ty, name.location)?;
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self.error_stack.pop();
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Ok(())
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}
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}
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@ -420,6 +499,7 @@ impl<'a> TypeInferencer<'a> {
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for (a, b) in elts.iter().zip(ls.iter()) {
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self.infer_simple_binding(a, b.clone())?;
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}
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self.error_stack.pop();
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Ok(())
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} else {
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Err("different length".into())
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@ -430,7 +510,7 @@ impl<'a> TypeInferencer<'a> {
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}
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_ => Err("not supported".into())
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};
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self.error_stack.pop();
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ret
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}
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@ -662,6 +742,7 @@ pub mod test {
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#[test_case("1 + False")]
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#[test_case("1 < 2 > False")]
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#[test_case("not 2")]
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#[test_case("-True")]
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fn test_err_msg(prog: &'static str) {
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let mut inf = new_ctx();
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let ast = rustpython_parser::parser::parse_expression(prog).unwrap();
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