expression type check, but list comprehension done in a bad way for now...
This commit is contained in:
parent
144b84a612
commit
7eb0ab41d4
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@ -6,12 +6,12 @@ use rustpython_parser::ast;
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use std::boxed::Box;
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use std::collections::HashMap;
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struct ContextStack<'a> {
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pub struct ContextStack {
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/// stack level, starts from 0
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level: u32,
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pub level: u32,
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/// stack of symbol definitions containing (name, level) where `level` is the smallest level
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/// where the name is assigned a value
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sym_def: Vec<(&'a str, u32)>,
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pub sym_def: Vec<(String, u32)>,
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}
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pub struct InferenceContext<'a> {
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@ -25,9 +25,9 @@ pub struct InferenceContext<'a> {
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/// identifier to (type, readable, location) mapping.
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/// an identifier might be defined earlier but has no value (for some code path), thus not
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/// readable.
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sym_table: HashMap<&'a str, (Type, bool, Location)>,
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pub sym_table: HashMap<String, (Type, bool, Location)>,
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/// stack
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stack: ContextStack<'a>,
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pub stack: ContextStack,
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}
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// non-trivial implementations here
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@ -52,7 +52,7 @@ impl<'a> InferenceContext<'a> {
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/// execute the function with new scope.
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/// variable assignment would be limited within the scope (not readable outside), and type
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/// returns the list of variables assigned within the scope, and the result of the function
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pub fn with_scope<F, R>(&mut self, f: F) -> (Vec<(&'a str, Type, Location)>, R)
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pub fn with_scope<F, R>(&mut self, f: F) -> (Vec<(String, Type, Location)>, R)
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where
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F: FnOnce(&mut Self) -> R,
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{
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@ -64,7 +64,7 @@ impl<'a> InferenceContext<'a> {
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let (_, level) = self.stack.sym_def.last().unwrap();
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if *level > self.stack.level {
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let (name, _) = self.stack.sym_def.pop().unwrap();
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let (t, b, l) = self.sym_table.get_mut(name).unwrap();
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let (t, b, l) = self.sym_table.get_mut(&name).unwrap();
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// set it to be unreadable
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*b = false;
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poped_names.push((name, t.clone(), *l));
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@ -77,8 +77,8 @@ impl<'a> InferenceContext<'a> {
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/// assign a type to an identifier.
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/// may return error if the identifier was defined but with different type
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pub fn assign(&mut self, name: &'a str, ty: Type, loc: ast::Location) -> Result<Type, String> {
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if let Some((t, x, _)) = self.sym_table.get_mut(name) {
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pub fn assign(&mut self, name: String, ty: Type, loc: ast::Location) -> Result<Type, String> {
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if let Some((t, x, _)) = self.sym_table.get_mut(&name) {
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if t == &ty {
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if !*x {
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self.stack.sym_def.push((name, self.stack.level));
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@ -89,7 +89,7 @@ impl<'a> InferenceContext<'a> {
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Err("different types".into())
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}
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} else {
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self.stack.sym_def.push((name, self.stack.level));
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self.stack.sym_def.push((name.clone(), self.stack.level));
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self.sym_table.insert(
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name,
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(ty.clone(), true, Location::CodeRange(self.file, loc)),
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@ -124,6 +124,11 @@ impl<'a> InferenceContext<'a> {
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self.resolver.get_symbol_location(name)
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}
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}
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/// check if an identifier is already defined
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pub fn defined(&self, name: &String) -> bool {
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self.sym_table.get(name).is_some()
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}
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}
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// trivial getters:
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@ -1,4 +1,5 @@
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use std::convert::TryInto;
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use std::fs::create_dir_all;
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use crate::typecheck::context::InferenceContext;
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use crate::typecheck::inference_core;
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@ -6,11 +7,12 @@ use crate::typecheck::magic_methods;
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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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use rustpython_parser::ast::fold::Fold;
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use super::inference_core::resolve_call;
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pub struct ExpressionTypeInferencer<'a> {
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pub ctx: InferenceContext<'a> //FIXME: may need to remove this pub
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pub ctx: InferenceContext<'a>
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}
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impl<'a> ExpressionTypeInferencer<'a> { // NOTE: add location here in the function parameter for better error message?
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@ -211,25 +213,6 @@ impl<'a> ExpressionTypeInferencer<'a> { // NOTE: add location here in the functi
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}
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}
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fn infer_slice(&self, lower: &Option<Box<ast::Expr<Option<Type>>>>, upper: &Option<Box<ast::Expr<Option<Type>>>>, step: &Option<Box<ast::Expr<Option<Type>>>>) -> Result<Option<Type>, String> {
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let int32_type = self.ctx.get_primitive(primitives::INT32_TYPE);
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let l = lower.as_ref().map_or(
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Ok(&int32_type),
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|x| x.custom.as_ref().ok_or("lower bound cannot be typped".to_string()))?;
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let u = upper.as_ref().map_or(
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Ok(&int32_type),
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|x| x.custom.as_ref().ok_or("upper bound cannot be typped".to_string()))?;
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let s = step.as_ref().map_or(
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Ok(&int32_type),
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|x| x.custom.as_ref().ok_or("step cannot be typped".to_string()))?;
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if l == &int32_type && u == &int32_type && s == &int32_type {
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Ok(Some(self.ctx.get_primitive(primitives::SLICE_TYPE)))
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} else {
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Err("slice must be int32 type".into())
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}
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}
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fn infer_subscript(&self, value: &Box<ast::Expr<Option<Type>>>, slice: &Box<ast::Expr<Option<Type>>>) -> Result<Option<Type>, String> {
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// let tt = value.custom.ok_or_else(|| "no value".to_string())?.as_ref();
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@ -239,13 +222,28 @@ impl<'a> ExpressionTypeInferencer<'a> { // NOTE: add location here in the functi
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return Err("subscript is not supported for types other than list".into());
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};
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if slice.custom == Some(self.ctx.get_primitive(primitives::SLICE_TYPE)) {
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Ok(value.custom.clone())
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} else if slice.custom == Some(self.ctx.get_primitive(primitives::INT32_TYPE)) {
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Ok(Some(t))
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} else {
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Err("slice or index must be int32 type".into())
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}
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if let ast::ExprKind::Slice {lower, upper, step} = &slice.node {
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let int32_type = self.ctx.get_primitive(primitives::INT32_TYPE);
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let l = lower.as_ref().map_or(
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Ok(&int32_type),
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|x| x.custom.as_ref().ok_or("lower bound cannot be typped".to_string()))?;
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let u = upper.as_ref().map_or(
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Ok(&int32_type),
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|x| x.custom.as_ref().ok_or("upper bound cannot be typped".to_string()))?;
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let s = step.as_ref().map_or(
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Ok(&int32_type),
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|x| x.custom.as_ref().ok_or("step cannot be typped".to_string()))?;
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if l == &int32_type && u == &int32_type && s == &int32_type {
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Ok(value.custom.clone())
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} else {
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Err("slice must be int32 type".into())
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}
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} else if slice.custom == Some(self.ctx.get_primitive(primitives::INT32_TYPE)) {
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Ok(Some(t))
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} else {
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Err("slice or index must be int32 type".into())
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}
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}
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fn infer_if_expr(&self, test: &Box<ast::Expr<Option<Type>>>, body: &Box<ast::Expr<Option<Type>>>, orelse: &Box<ast::Expr<Option<Type>>>) -> Result<Option<Type>, String> {
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@ -260,21 +258,56 @@ impl<'a> ExpressionTypeInferencer<'a> { // NOTE: add location here in the functi
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}
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}
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fn infer_simple_binding(&mut self, name: &'a ast::Expr<Option<Type>>, ty: Type) -> Result<(), String> {
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fn infer_list_comprehesion(&mut self, elt: &Box<ast::Expr<Option<Type>>>, generators: &Vec<ast::Comprehension<Option<Type>>>) -> Result<Option<Type>, String> {
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if generators[0]
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.ifs
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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(Some(TypeEnum::ParametricType(
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primitives::LIST_TYPE,
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vec![elt.custom.clone().ok_or_else(|| "elements should have value".to_string())?]).into()))
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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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fn fold_comprehension_first(&mut self, node: ast::Comprehension<Option<Type>>) -> Result<ast::Comprehension<Option<Type>>, String> {
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Ok(ast::Comprehension {
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target: node.target,
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iter: Box::new(self.fold_expr(*node.iter)?),
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ifs: node.ifs,
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is_async: node.is_async
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})
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}
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fn fold_comprehension_second(&mut self, node: ast::Comprehension<Option<Type>>) -> Result<ast::Comprehension<Option<Type>>, String> {
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Ok(ast::Comprehension {
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target: Box::new(self.fold_expr(*node.target)?),
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iter: node.iter,
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ifs: node
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.ifs
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.into_iter()
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.map(|x| self.fold_expr(x))
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.collect::<Result<Vec<_>, _>>()?,
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is_async: node.is_async
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})
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}
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fn infer_simple_binding(&mut self, name: &ast::Expr<Option<Type>>, ty: Type) -> Result<(), String> {
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match &name.node {
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ast::ExprKind::Name {id, ctx: _} => {
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if id == "_" {
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Ok(())
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} else if self.ctx.defined(id.as_str()) {
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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.as_str(), ty, name.location)?;
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self.ctx.assign(id.clone(), ty, name.location)?;
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Ok(())
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}
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}
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ast::ExprKind::Tuple {elts, ctx: _} => {
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if let TypeEnum::ParametricType(TUPLE_TYPE, ls) = ty.as_ref() {
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if let TypeEnum::ParametricType(primitives::TUPLE_TYPE, ls) = ty.as_ref() {
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if elts.len() == ls.len() {
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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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Err("not supported".into())
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}
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}
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_ => Err("not supported".into())
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}
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}
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fn infer_list_comprehesion(&mut self, elt: &Box<ast::Expr<Option<Type>>>, generators: &Vec<ast::Comprehension<Option<Type>>>) -> Result<Option<Type>, String> {
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if generators.len() != 1 {
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Err("only 1 generator statement is supported".into())
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} else {
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let gen = &generators[0];
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if gen.is_async {
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Err("async is not supported".into())
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} else {
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let iter_type = gen.iter.custom.as_ref().ok_or("no value".to_string())?.as_ref();
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if let TypeEnum::ParametricType(primitives::LIST_TYPE, ref ls) = iter_type {
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self.ctx.with_scope(|x| {
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// x.infer_simple_binding(&gen.target, ls[0].clone()); // FIXME:
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Ok(None)
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}).1
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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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}
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}
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}
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}
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// REVIEW: field custom: from () to Option<Type> or just Option<Type>?
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impl<'a> ast::fold::Fold<Option<Type>> for ExpressionTypeInferencer<'a> {
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type TargetU = Option<Type>;
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type Error = String;
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@ -326,28 +334,54 @@ impl<'a> ast::fold::Fold<Option<Type>> for ExpressionTypeInferencer<'a> {
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Ok(user)
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}
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// override the default fold_comprehension to avoid errors caused by folding locally bound variable
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fn fold_comprehension(&mut self, node: ast::Comprehension<Option<Type>>) -> Result<ast::Comprehension<Self::TargetU>, Self::Error> {
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Ok(ast::Comprehension {
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target: node.target,
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iter: Box::new(self.fold_expr(*node.iter)?),
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ifs: node.ifs,
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is_async: node.is_async
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})
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}
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fn fold_expr(&mut self, node: ast::Expr<Option<Type>>) -> Result<ast::Expr<Self::TargetU>, Self::Error> {
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assert_eq!(node.custom, None); // NOTE: should pass
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let mut expr = node;
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if let ast::Expr {location: _, custom: _, node: ast::ExprKind::ListComp {elt, generators } } = expr {
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expr = ast::Expr {
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location: expr.location,
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custom: expr.custom,
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node: ast::ExprKind::ListComp {
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elt,
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generators: generators.into_iter().map(|x| self.fold_comprehension(x)).collect::<Result<Vec<_>, _>>()?
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if let ast::Expr {location, custom, node: ast::ExprKind::ListComp {elt, generators } } = expr {
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// is list comprehension, only fold generators which does not include unknown identifiers introduced by list comprehension
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if generators.len() != 1 {
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return Err("only 1 generator statement is supported".into())
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}
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let generators_first_folded = generators
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.into_iter()
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.map(|x| self.fold_comprehension_first(x)).collect::<Result<Vec<_>, _>>()?;
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let gen = &generators_first_folded[0];
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let iter_type = gen.iter.custom.as_ref().ok_or("no value".to_string())?.as_ref();
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if let TypeEnum::ParametricType(primitives::LIST_TYPE, ls) = iter_type {
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self.ctx.stack.level += 1; // FIXME: how to use with_scope??
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self.infer_simple_binding(&gen.target, ls[0].clone())?;
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expr = ast::Expr {
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location,
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custom,
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node: ast::ExprKind::ListComp {
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elt: Box::new(self.fold_expr(*elt)?),
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generators: generators_first_folded
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.into_iter()
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.map(|x| self.fold_comprehension_second(x))
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.collect::<Result<Vec<_>, _>>()?
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}
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};
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self.ctx.stack.level -= 1;
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while !self.ctx.stack.sym_def.is_empty() {
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let (_, level) = self.ctx.stack.sym_def.last().unwrap();
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if *level > self.ctx.stack.level {
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let (name, _) = self.ctx.stack.sym_def.pop().unwrap();
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let (t, b, l) = self.ctx.sym_table.get_mut(&name).unwrap();
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// set it to be unreadable
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*b = false;
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} else {
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break;
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}
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}
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};
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} else {
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return Err("iteration is supported for list only".into());
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}
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} else {
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// if not listcomp which requires special handling, skip current level, make sure child nodes have their type
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expr = ast::fold::fold_expr(self, expr)?;
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@ -429,15 +463,15 @@ impl<'a> ast::fold::Fold<Option<Type>> for ExpressionTypeInferencer<'a> {
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node: expr.node
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}),
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// REVIEW: add a new primitive type for slice and do type check of bounds here?
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/* // REVIEW: add a new primitive type for slice and do type check of bounds here?
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ast::ExprKind::Slice {lower, upper, step } =>
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Ok(ast::Expr {
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location: expr.location,
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custom: self.infer_slice(lower, upper, step)?,
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node: expr.node
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}),
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}), */
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ast::ExprKind::Subscript {value, slice, ctx} =>
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ast::ExprKind::Subscript {value, slice, ctx: _} =>
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Ok(ast::Expr {
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location: expr.location,
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custom: self.infer_subscript(value, slice)?,
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@ -451,15 +485,14 @@ impl<'a> ast::fold::Fold<Option<Type>> for ExpressionTypeInferencer<'a> {
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node: expr.node
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}),
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ast::ExprKind::ListComp {elt, generators} =>
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ast::ExprKind::ListComp {elt, generators} => {
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Ok(ast::Expr {
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location: expr.location,
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custom: self.infer_list_comprehesion(elt, generators)?,
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node: expr.node
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}),
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})
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}
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_ => { // not supported
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Err("not supported yet".into())
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