forked from M-Labs/nac3
function call implementation
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parent
fa31e8f336
commit
bc9b453b3e
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@ -1,5 +1,6 @@
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use super::typedef::Type;
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use super::typedef::Type;
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use super::location::Location;
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use super::location::Location;
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use rustpython_parser::ast::Expr;
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pub enum SymbolType {
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pub enum SymbolType {
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TypeName(Type),
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TypeName(Type),
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@ -16,7 +17,8 @@ pub enum SymbolValue<'a> {
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}
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}
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pub trait SymbolResolver {
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pub trait SymbolResolver {
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fn get_symbol_type(&mut self, str: &str) -> Option<SymbolType>;
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fn get_symbol_type(&mut self, str: &str) -> Option<Type>;
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fn parse_type_name(&mut self, expr: &Expr<()>) -> Option<Type>;
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fn get_symbol_value(&mut self, str: &str) -> Option<SymbolValue>;
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fn get_symbol_value(&mut self, str: &str) -> Option<SymbolValue>;
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fn get_symbol_location(&mut self, str: &str) -> Option<Location>;
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fn get_symbol_location(&mut self, str: &str) -> Option<Location>;
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// handle function call etc.
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// handle function call etc.
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@ -5,7 +5,7 @@ use std::iter::once;
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use std::rc::Rc;
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use std::rc::Rc;
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use super::magic_methods::*;
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use super::magic_methods::*;
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use super::symbol_resolver::{SymbolResolver, SymbolType};
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use super::symbol_resolver::SymbolResolver;
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use super::typedef::{Call, FunSignature, FuncArg, Type, TypeEnum, Unifier};
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use super::typedef::{Call, FunSignature, FuncArg, Type, TypeEnum, Unifier};
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use itertools::izip;
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use itertools::izip;
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use rustpython_parser::ast::{
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use rustpython_parser::ast::{
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@ -44,7 +44,7 @@ impl<'a> fold::Fold<()> for Inferencer<'a> {
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func,
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func,
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args,
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args,
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keywords,
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keywords,
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} => unimplemented!(),
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} => self.fold_call(node.location, *func, args, keywords)?,
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ast::ExprKind::Lambda { args, body } => {
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ast::ExprKind::Lambda { args, body } => {
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self.fold_lambda(node.location, *args, *body)?
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self.fold_lambda(node.location, *args, *body)?
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}
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}
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@ -71,14 +71,15 @@ impl<'a> fold::Fold<()> for Inferencer<'a> {
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ops,
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ops,
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comparators,
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comparators,
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} => Some(self.infer_compare(left, ops, comparators)?),
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} => Some(self.infer_compare(left, ops, comparators)?),
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ast::ExprKind::Call { .. } => expr.custom,
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ast::ExprKind::Subscript { value, slice, .. } => {
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ast::ExprKind::Subscript { value, slice, .. } => {
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Some(self.infer_subscript(value.as_ref(), slice.as_ref())?)
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Some(self.infer_subscript(value.as_ref(), slice.as_ref())?)
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}
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}
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ast::ExprKind::IfExp { test, body, orelse } => {
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ast::ExprKind::IfExp { test, body, orelse } => {
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Some(self.infer_if_expr(test, body.as_ref(), orelse.as_ref())?)
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Some(self.infer_if_expr(test, body.as_ref(), orelse.as_ref())?)
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}
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}
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ast::ExprKind::ListComp { .. } | ast::ExprKind::Lambda { .. } => expr.custom, // already computed
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ast::ExprKind::ListComp { .. }
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| ast::ExprKind::Lambda { .. }
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| ast::ExprKind::Call { .. } => expr.custom, // already computed
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ast::ExprKind::Slice { .. } => None, // we don't need it for slice
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ast::ExprKind::Slice { .. } => None, // we don't need it for slice
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_ => return Err("not supported yet".into()),
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_ => return Err("not supported yet".into()),
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};
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};
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@ -243,21 +244,127 @@ impl<'a> Inferencer<'a> {
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})
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})
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}
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}
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fn fold_call(
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&mut self,
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location: Location,
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func: ast::Expr<()>,
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mut args: Vec<ast::Expr<()>>,
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keywords: Vec<Located<ast::KeywordData>>,
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) -> Result<ast::Expr<Option<Type>>, String> {
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let func = if let Located {
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location: func_location,
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custom,
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node: ExprKind::Name { id, ctx },
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} = func
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{
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// handle special functions that cannot be typed in the usual way...
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if id == "virtual" {
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if args.is_empty() || args.len() > 2 || !keywords.is_empty() {
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return Err("`virtual` can only accept 1/2 positional arguments.".to_string());
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}
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let arg0 = self.fold_expr(args.remove(0))?;
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let ty = if let Some(arg) = args.pop() {
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self.resolver
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.parse_type_name(&arg)
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.ok_or_else(|| "error parsing type".to_string())?
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} else {
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self.unifier.get_fresh_var().0
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};
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let custom = Some(self.unifier.add_ty(TypeEnum::TVirtual { ty }));
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return Ok(Located {
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location,
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custom,
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node: ExprKind::Call {
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func: Box::new(Located {
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custom: None,
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location: func.location,
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node: ExprKind::Name { id, ctx },
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}),
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args: vec![arg0],
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keywords: vec![],
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},
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});
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}
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// int64 is special because its argument can be a constant larger than int32
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if id == "int64" && args.len() == 1 {
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if let ExprKind::Constant {
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value: ast::Constant::Int(val),
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..
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} = &args[0].node
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{
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let int64: Result<i64, _> = val.try_into();
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let custom;
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if int64.is_ok() {
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custom = Some(self.primitives.int64);
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} else {
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return Err("Integer out of bound".into());
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}
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return Ok(Located {
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location,
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custom,
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node: ExprKind::Call {
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func: Box::new(Located {
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custom: None,
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location: func.location,
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node: ExprKind::Name { id, ctx },
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}),
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args: vec![self.fold_expr(args.pop().unwrap())?],
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keywords: vec![],
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},
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});
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}
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}
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Located {
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location: func_location,
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custom,
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node: ExprKind::Name { id, ctx },
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}
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} else {
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func
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};
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let func = Box::new(self.fold_expr(func)?);
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let args = args
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.into_iter()
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.map(|v| self.fold_expr(v))
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.collect::<Result<Vec<_>, _>>()?;
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let keywords = keywords
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.into_iter()
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.map(|v| fold::fold_keyword(self, v))
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.collect::<Result<Vec<_>, _>>()?;
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let ret = self.unifier.get_fresh_var().0;
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let call = Rc::new(Call {
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posargs: args.iter().map(|v| v.custom.unwrap()).collect(),
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kwargs: keywords
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.iter()
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.map(|v| (v.node.arg.as_ref().unwrap().clone(), v.custom.unwrap()))
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.collect(),
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fun: RefCell::new(None),
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ret,
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});
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self.calls.push(call.clone());
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let call = self.unifier.add_ty(TypeEnum::TCall { calls: vec![call] });
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self.unifier.unify(func.custom.unwrap(), call)?;
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Ok(Located {
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location,
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custom: Some(ret),
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node: ExprKind::Call {
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func,
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args,
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keywords,
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},
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})
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}
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fn infer_identifier(&mut self, id: &str) -> InferenceResult {
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fn infer_identifier(&mut self, id: &str) -> InferenceResult {
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if let Some(ty) = self.variable_mapping.get(id) {
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if let Some(ty) = self.variable_mapping.get(id) {
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Ok(*ty)
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Ok(*ty)
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} else {
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} else {
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match self.resolver.get_symbol_type(id) {
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Ok(self.resolver.get_symbol_type(id).unwrap_or_else(|| {
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Some(SymbolType::TypeName(_)) => {
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Err("Expected expression instead of type".to_string())
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}
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Some(SymbolType::Identifier(ty)) => Ok(ty),
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None => {
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let ty = self.unifier.get_fresh_var().0;
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let ty = self.unifier.get_fresh_var().0;
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self.variable_mapping.insert(id.to_string(), ty);
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self.variable_mapping.insert(id.to_string(), ty);
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Ok(ty)
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ty
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}
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}))
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}
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}
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}
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}
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}
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@ -268,7 +375,7 @@ impl<'a> Inferencer<'a> {
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let int32: Result<i32, _> = val.try_into();
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let int32: Result<i32, _> = val.try_into();
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// int64 would be handled separately in functions
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// int64 would be handled separately in functions
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if int32.is_ok() {
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if int32.is_ok() {
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Ok(self.primitives.int64)
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Ok(self.primitives.int32)
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} else {
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} else {
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Err("Integer out of bound".into())
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Err("Integer out of bound".into())
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}
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}
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