nac3core: support custom operators
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parent
879c66cccf
commit
789c943ae5
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@ -10,7 +10,10 @@ use crate::{
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},
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},
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symbol_resolver::{SymbolValue, ValueEnum},
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symbol_resolver::{SymbolValue, ValueEnum},
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toplevel::{DefinitionId, TopLevelDef},
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toplevel::{DefinitionId, TopLevelDef},
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typecheck::typedef::{FunSignature, FuncArg, Type, TypeEnum, Unifier},
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typecheck::{
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typedef::{FunSignature, FuncArg, Type, TypeEnum, Unifier},
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magic_methods::{binop_name, binop_assign_name},
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},
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};
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};
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use inkwell::{
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use inkwell::{
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AddressSpace,
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AddressSpace,
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@ -927,21 +930,29 @@ pub fn gen_binop_expr<'ctx, 'a, G: CodeGenerator>(
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left: &Expr<Option<Type>>,
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left: &Expr<Option<Type>>,
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op: &Operator,
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op: &Operator,
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right: &Expr<Option<Type>>,
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right: &Expr<Option<Type>>,
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) -> Result<ValueEnum<'ctx>, String> {
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loc: Location,
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is_aug_assign: bool,
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) -> Result<Option<ValueEnum<'ctx>>, String> {
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let ty1 = ctx.unifier.get_representative(left.custom.unwrap());
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let ty1 = ctx.unifier.get_representative(left.custom.unwrap());
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let ty2 = ctx.unifier.get_representative(right.custom.unwrap());
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let ty2 = ctx.unifier.get_representative(right.custom.unwrap());
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let left = generator.gen_expr(ctx, left)?.unwrap().to_basic_value_enum(ctx, generator, left.custom.unwrap())?;
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let left_val = generator
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let right = generator.gen_expr(ctx, right)?.unwrap().to_basic_value_enum(ctx, generator, right.custom.unwrap())?;
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.gen_expr(ctx, left)?
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.unwrap()
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.to_basic_value_enum(ctx, generator, left.custom.unwrap())?;
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let right_val = generator
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.gen_expr(ctx, right)?
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.unwrap()
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.to_basic_value_enum(ctx, generator, right.custom.unwrap())?;
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// we can directly compare the types, because we've got their representatives
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// we can directly compare the types, because we've got their representatives
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// which would be unchanged until further unification, which we would never do
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// which would be unchanged until further unification, which we would never do
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// when doing code generation for function instances
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// when doing code generation for function instances
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Ok(if ty1 == ty2 && [ctx.primitives.int32, ctx.primitives.int64].contains(&ty1) {
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if ty1 == ty2 && [ctx.primitives.int32, ctx.primitives.int64].contains(&ty1) {
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ctx.gen_int_ops(generator, op, left, right, true)
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Ok(Some(ctx.gen_int_ops(generator, op, left_val, right_val, true).into()))
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} else if ty1 == ty2 && [ctx.primitives.uint32, ctx.primitives.uint64].contains(&ty1) {
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} else if ty1 == ty2 && [ctx.primitives.uint32, ctx.primitives.uint64].contains(&ty1) {
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ctx.gen_int_ops(generator, op, left, right, false)
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Ok(Some(ctx.gen_int_ops(generator, op, left_val, right_val, false).into()))
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} else if ty1 == ty2 && ctx.primitives.float == ty1 {
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} else if ty1 == ty2 && ctx.primitives.float == ty1 {
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ctx.gen_float_ops(op, left, right)
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Ok(Some(ctx.gen_float_ops(op, left_val, right_val).into()))
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} else if ty1 == ctx.primitives.float && ty2 == ctx.primitives.int32 {
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} else if ty1 == ctx.primitives.float && ty2 == ctx.primitives.int32 {
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// Pow is the only operator that would pass typecheck between float and int
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// Pow is the only operator that would pass typecheck between float and int
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assert!(*op == Operator::Pow);
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assert!(*op == Operator::Pow);
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@ -951,14 +962,68 @@ pub fn gen_binop_expr<'ctx, 'a, G: CodeGenerator>(
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let ty = f64_t.fn_type(&[f64_t.into(), i32_t.into()], false);
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let ty = f64_t.fn_type(&[f64_t.into(), i32_t.into()], false);
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ctx.module.add_function("llvm.powi.f64.i32", ty, None)
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ctx.module.add_function("llvm.powi.f64.i32", ty, None)
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});
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});
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ctx.builder
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let res = ctx.builder
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.build_call(pow_intr, &[left.into(), right.into()], "f_pow_i")
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.build_call(pow_intr, &[left_val.into(), right_val.into()], "f_pow_i")
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.try_as_basic_value()
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.try_as_basic_value()
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.unwrap_left()
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.unwrap_left();
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Ok(Some(res.into()))
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} else {
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} else {
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unimplemented!()
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let (op_name, id) = if let TypeEnum::TObj { fields, obj_id, .. } =
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ctx.unifier.get_ty_immutable(left.custom.unwrap()).as_ref()
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{
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let (binop_name, binop_assign_name) = (
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binop_name(op).into(),
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binop_assign_name(op).into()
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);
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// if is aug_assign, try aug_assign operator first
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if is_aug_assign && fields.contains_key(&binop_assign_name) {
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(binop_assign_name, *obj_id)
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} else {
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(binop_name, *obj_id)
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}
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} else {
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unreachable!("must be tobj")
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};
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let signature = match ctx.calls.get(&loc.into()) {
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Some(call) => ctx.unifier.get_call_signature(*call).unwrap(),
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None => {
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if let TypeEnum::TObj { fields, .. } =
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ctx.unifier.get_ty_immutable(left.custom.unwrap()).as_ref()
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{
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let fn_ty = fields.get(&op_name).unwrap().0;
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if let TypeEnum::TFunc(sig) = ctx.unifier.get_ty_immutable(fn_ty).as_ref() {
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sig.clone()
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} else {
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unreachable!("must be func sig")
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}
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} else {
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unreachable!("must be tobj")
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}
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},
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};
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let fun_id = {
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let defs = ctx.top_level.definitions.read();
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let obj_def = defs.get(id.0).unwrap().read();
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if let TopLevelDef::Class { methods, .. } = &*obj_def {
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let mut fun_id = None;
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for (name, _, id) in methods.iter() {
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if name == &op_name {
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fun_id = Some(*id);
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}
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}
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fun_id.unwrap()
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} else {
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unreachable!()
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}
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};
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generator
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.gen_call(
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ctx,
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Some((left.custom.unwrap(), left_val.into())),
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(&signature, fun_id),
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vec![(None, right_val.into())],
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).map(|f| f.map(|f| f.into()))
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}
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}
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.into())
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}
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}
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pub fn gen_expr<'ctx, 'a, G: CodeGenerator>(
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pub fn gen_expr<'ctx, 'a, G: CodeGenerator>(
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@ -1125,7 +1190,9 @@ pub fn gen_expr<'ctx, 'a, G: CodeGenerator>(
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phi.add_incoming(&[(&a, a_bb), (&b, b_bb)]);
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phi.add_incoming(&[(&a, a_bb), (&b, b_bb)]);
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phi.as_basic_value().into()
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phi.as_basic_value().into()
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}
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}
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ExprKind::BinOp { op, left, right } => gen_binop_expr(generator, ctx, left, op, right)?,
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ExprKind::BinOp { op, left, right } => {
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return gen_binop_expr(generator, ctx, left, op, right, expr.location, false);
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}
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ExprKind::UnaryOp { op, operand } => {
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ExprKind::UnaryOp { op, operand } => {
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let ty = ctx.unifier.get_representative(operand.custom.unwrap());
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let ty = ctx.unifier.get_representative(operand.custom.unwrap());
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let val =
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let val =
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@ -1020,8 +1020,8 @@ pub fn gen_stmt<'ctx, 'a, G: CodeGenerator>(
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StmtKind::For { .. } => generator.gen_for(ctx, stmt)?,
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StmtKind::For { .. } => generator.gen_for(ctx, stmt)?,
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StmtKind::With { .. } => generator.gen_with(ctx, stmt)?,
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StmtKind::With { .. } => generator.gen_with(ctx, stmt)?,
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StmtKind::AugAssign { target, op, value, .. } => {
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StmtKind::AugAssign { target, op, value, .. } => {
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let value = gen_binop_expr(generator, ctx, target, op, value)?;
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let value = gen_binop_expr(generator, ctx, target, op, value, stmt.location, true)?;
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generator.gen_assign(ctx, target, value)?;
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generator.gen_assign(ctx, target, value.unwrap())?;
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}
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}
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StmtKind::Try { .. } => gen_try(generator, ctx, stmt)?,
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StmtKind::Try { .. } => gen_try(generator, ctx, stmt)?,
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StmtKind::Raise { exc, .. } => {
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StmtKind::Raise { exc, .. } => {
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@ -83,7 +83,7 @@ where
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pub fn impl_binop(
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pub fn impl_binop(
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unifier: &mut Unifier,
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unifier: &mut Unifier,
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store: &PrimitiveStore,
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_store: &PrimitiveStore,
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ty: Type,
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ty: Type,
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other_ty: &[Type],
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other_ty: &[Type],
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ret_ty: Type,
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ret_ty: Type,
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@ -120,7 +120,7 @@ pub fn impl_binop(
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fields.insert(binop_assign_name(op).into(), {
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fields.insert(binop_assign_name(op).into(), {
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(
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(
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unifier.add_ty(TypeEnum::TFunc(FunSignature {
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unifier.add_ty(TypeEnum::TFunc(FunSignature {
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ret: store.none,
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ret: ret_ty,
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vars: function_vars.clone(),
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vars: function_vars.clone(),
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args: vec![FuncArg {
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args: vec![FuncArg {
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ty: other_ty,
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ty: other_ty,
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@ -423,7 +423,7 @@ impl<'a> fold::Fold<()> for Inferencer<'a> {
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(None, None) => {}
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(None, None) => {}
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},
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},
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ast::StmtKind::AugAssign { target, op, value, .. } => {
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ast::StmtKind::AugAssign { target, op, value, .. } => {
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let res_ty = self.infer_bin_ops(stmt.location, target, op, value)?;
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let res_ty = self.infer_bin_ops(stmt.location, target, op, value, true)?;
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self.unify(res_ty, target.custom.unwrap(), &stmt.location)?;
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self.unify(res_ty, target.custom.unwrap(), &stmt.location)?;
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}
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}
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ast::StmtKind::Assert { test, msg, .. } => {
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ast::StmtKind::Assert { test, msg, .. } => {
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@ -505,7 +505,7 @@ impl<'a> fold::Fold<()> for Inferencer<'a> {
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}
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}
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ast::ExprKind::BoolOp { values, .. } => Some(self.infer_bool_ops(values)?),
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ast::ExprKind::BoolOp { values, .. } => Some(self.infer_bool_ops(values)?),
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ast::ExprKind::BinOp { left, op, right } => {
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ast::ExprKind::BinOp { left, op, right } => {
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Some(self.infer_bin_ops(expr.location, left, op, right)?)
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Some(self.infer_bin_ops(expr.location, left, op, right, false)?)
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}
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}
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ast::ExprKind::UnaryOp { op, operand } => Some(self.infer_unary_ops(op, operand)?),
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ast::ExprKind::UnaryOp { op, operand } => Some(self.infer_unary_ops(op, operand)?),
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ast::ExprKind::Compare { left, ops, comparators } => {
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ast::ExprKind::Compare { left, ops, comparators } => {
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@ -1028,8 +1028,24 @@ impl<'a> Inferencer<'a> {
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left: &ast::Expr<Option<Type>>,
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left: &ast::Expr<Option<Type>>,
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op: &ast::Operator,
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op: &ast::Operator,
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right: &ast::Expr<Option<Type>>,
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right: &ast::Expr<Option<Type>>,
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is_aug_assign: bool,
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) -> InferenceResult {
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) -> InferenceResult {
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let method = binop_name(op).into();
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let method = if let TypeEnum::TObj { fields, .. } =
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self.unifier.get_ty_immutable(left.custom.unwrap()).as_ref()
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{
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let (binop_name, binop_assign_name) = (
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binop_name(op).into(),
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binop_assign_name(op).into()
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);
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// if is aug_assign, try aug_assign operator first
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if is_aug_assign && fields.contains_key(&binop_assign_name) {
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binop_assign_name
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} else {
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binop_name
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}
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} else {
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binop_name(op).into()
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};
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self.build_method_call(
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self.build_method_call(
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location,
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location,
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method,
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method,
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