core: Extract special method handling in type inferencer
To prepare for more special handling with methods.
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@ -10,7 +10,13 @@ use itertools::izip;
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use nac3parser::ast::{
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self,
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fold::{self, Fold},
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Arguments, Comprehension, ExprContext, ExprKind, Located, Location, StrRef,
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Arguments,
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Comprehension,
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ExprContext,
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ExprKind,
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Located,
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Location,
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StrRef
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};
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#[cfg(test)]
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@ -773,6 +779,120 @@ impl<'a> Inferencer<'a> {
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})
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}
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/// Tries to fold a special call. Returns [`Some`] if the call expression `func` is a special call, otherwise
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/// returns [`None`].
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fn try_fold_special_call(
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&mut self,
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location: Location,
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func: &ast::Expr<()>,
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args: &mut Vec<ast::Expr<()>>,
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keywords: &Vec<Located<ast::KeywordData>>,
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) -> Result<Option<ast::Expr<Option<Type>>>, HashSet<String>> {
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let Located { location: func_location, node: ExprKind::Name { id, ctx }, .. } = func else {
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return Ok(None)
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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".into() {
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if args.is_empty() || args.len() > 2 || !keywords.is_empty() {
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return report_error(
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"`virtual` can only accept 1/2 positional arguments",
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*func_location,
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)
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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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let top_level_defs = self.top_level.definitions.read();
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self.function_data.resolver.parse_type_annotation(
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top_level_defs.as_slice(),
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self.unifier,
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self.primitives,
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&arg,
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)?
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} else {
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self.unifier.get_dummy_var().0
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};
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self.virtual_checks.push((arg0.custom.unwrap(), ty, *func_location));
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let custom = Some(self.unifier.add_ty(TypeEnum::TVirtual { ty }));
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return Ok(Some(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: *id, ctx: ctx.clone() },
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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".into() && args.len() == 1 {
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if let ExprKind::Constant { value: ast::Constant::Int(val), kind } =
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&args[0].node
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{
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let custom = Some(self.primitives.int64);
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let v: Result<i64, _> = (*val).try_into();
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return if v.is_ok() {
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Ok(Some(Located {
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location: args[0].location,
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custom,
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node: ExprKind::Constant {
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value: ast::Constant::Int(*val),
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kind: kind.clone(),
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},
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}))
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} else {
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report_error("Integer out of bound", args[0].location)
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}
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}
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}
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if id == &"uint32".into() && args.len() == 1 {
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if let ExprKind::Constant { value: ast::Constant::Int(val), kind } =
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&args[0].node
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{
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let custom = Some(self.primitives.uint32);
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let v: Result<u32, _> = (*val).try_into();
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return if v.is_ok() {
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Ok(Some(Located {
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location: args[0].location,
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custom,
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node: ExprKind::Constant {
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value: ast::Constant::Int(*val),
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kind: kind.clone(),
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},
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}))
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} else {
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report_error("Integer out of bound", args[0].location)
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}
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}
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}
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if id == &"uint64".into() && args.len() == 1 {
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if let ExprKind::Constant { value: ast::Constant::Int(val), kind } =
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&args[0].node
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{
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let custom = Some(self.primitives.uint64);
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let v: Result<u64, _> = (*val).try_into();
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return if v.is_ok() {
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Ok(Some(Located {
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location: args[0].location,
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custom,
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node: ExprKind::Constant {
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value: ast::Constant::Int(*val),
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kind: kind.clone(),
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},
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}))
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} else {
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report_error("Integer out of bound", args[0].location)
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}
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}
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}
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Ok(None)
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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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@ -780,111 +900,11 @@ impl<'a> Inferencer<'a> {
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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>>, HashSet<String>> {
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let func =
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if let Located { location: func_location, custom, 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".into() {
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if args.is_empty() || args.len() > 2 || !keywords.is_empty() {
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return report_error(
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"`virtual` can only accept 1/2 positional arguments",
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func_location,
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);
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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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let top_level_defs = self.top_level.definitions.read();
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self.function_data.resolver.parse_type_annotation(
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top_level_defs.as_slice(),
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self.unifier,
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self.primitives,
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&arg,
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)?
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} else {
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self.unifier.get_dummy_var().0
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};
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self.virtual_checks.push((arg0.custom.unwrap(), ty, func_location));
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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".into() && args.len() == 1 {
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if let ExprKind::Constant { value: ast::Constant::Int(val), kind } =
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&args[0].node
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{
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let custom = Some(self.primitives.int64);
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let v: Result<i64, _> = (*val).try_into();
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return if v.is_ok() {
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Ok(Located {
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location: args[0].location,
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custom,
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node: ExprKind::Constant {
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value: ast::Constant::Int(*val),
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kind: kind.clone(),
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},
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})
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} else {
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report_error("Integer out of bound", args[0].location)
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}
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}
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}
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if id == "uint32".into() && args.len() == 1 {
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if let ExprKind::Constant { value: ast::Constant::Int(val), kind } =
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&args[0].node
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{
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let custom = Some(self.primitives.uint32);
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let v: Result<u32, _> = (*val).try_into();
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return if v.is_ok() {
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Ok(Located {
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location: args[0].location,
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custom,
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node: ExprKind::Constant {
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value: ast::Constant::Int(*val),
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kind: kind.clone(),
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},
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})
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} else {
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report_error("Integer out of bound", args[0].location)
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}
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}
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}
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if id == "uint64".into() && args.len() == 1 {
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if let ExprKind::Constant { value: ast::Constant::Int(val), kind } =
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&args[0].node
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{
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let custom = Some(self.primitives.uint64);
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let v: Result<u64, _> = (*val).try_into();
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return if v.is_ok() {
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Ok(Located {
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location: args[0].location,
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custom,
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node: ExprKind::Constant {
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value: ast::Constant::Int(*val),
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kind: kind.clone(),
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},
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})
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} else {
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report_error("Integer out of bound", args[0].location)
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}
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}
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}
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Located { location: func_location, custom, node: ExprKind::Name { id, ctx } }
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} else {
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func
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};
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let func = if let Some(spec_call_func) = self.try_fold_special_call(location, &func, &mut args, &keywords)? {
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return Ok(spec_call_func)
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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.into_iter().map(|v| self.fold_expr(v)).collect::<Result<Vec<_>, _>>()?;
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let keywords = keywords
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