core: refactor typecheck/magic_methods.rs operators & add op symbol name
This commit is contained in:
parent
cbff356d50
commit
0a732691c9
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@ -27,7 +27,7 @@ use crate::{
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DefinitionId, TopLevelDef,
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},
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typecheck::{
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magic_methods::{binop_assign_name, binop_name, unaryop_name},
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magic_methods::{Binop, BinopVariant, HasOpInfo},
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typedef::{FunSignature, FuncArg, Type, TypeEnum, TypeVarId, Unifier, VarMap},
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},
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};
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@ -1165,10 +1165,9 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
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generator: &mut G,
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ctx: &mut CodeGenContext<'ctx, '_>,
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left: (&Option<Type>, BasicValueEnum<'ctx>),
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op: Operator,
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op: Binop,
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right: (&Option<Type>, BasicValueEnum<'ctx>),
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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 (left_ty, left_val) = left;
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let (right_ty, right_val) = right;
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@ -1180,17 +1179,17 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
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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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if ty1 == ty2 && [ctx.primitives.int32, ctx.primitives.int64].contains(&ty1) {
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Ok(Some(ctx.gen_int_ops(generator, op, left_val, right_val, true).into()))
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Ok(Some(ctx.gen_int_ops(generator, op.base, 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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Ok(Some(ctx.gen_int_ops(generator, op, left_val, right_val, false).into()))
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} else if [Operator::LShift, Operator::RShift].contains(&op) {
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Ok(Some(ctx.gen_int_ops(generator, op.base, left_val, right_val, false).into()))
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} else if [Operator::LShift, Operator::RShift].contains(&op.base) {
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let signed = [ctx.primitives.int32, ctx.primitives.int64].contains(&ty1);
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Ok(Some(ctx.gen_int_ops(generator, op, left_val, right_val, signed).into()))
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Ok(Some(ctx.gen_int_ops(generator, op.base, left_val, right_val, signed).into()))
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} else if ty1 == ty2 && ctx.primitives.float == ty1 {
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Ok(Some(ctx.gen_float_ops(op, left_val, right_val).into()))
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Ok(Some(ctx.gen_float_ops(op.base, left_val, right_val).into()))
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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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assert_eq!(op, Operator::Pow);
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assert_eq!(op.base, Operator::Pow);
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let res = call_float_powi(
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ctx,
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left_val.into_float_value(),
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@ -1379,13 +1378,16 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
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let right_val =
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NDArrayValue::from_ptr_val(right_val.into_pointer_value(), llvm_usize, None);
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let res = if op == Operator::MatMult {
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let res = if op.base == Operator::MatMult {
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// MatMult is the only binop which is not an elementwise op
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numpy::ndarray_matmul_2d(
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generator,
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ctx,
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ndarray_dtype1,
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if is_aug_assign { Some(left_val) } else { None },
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match op.variant {
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BinopVariant::Normal => None,
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BinopVariant::AugAssign => Some(left_val),
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},
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left_val,
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right_val,
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)?
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@ -1394,7 +1396,10 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
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generator,
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ctx,
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ndarray_dtype1,
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if is_aug_assign { Some(left_val) } else { None },
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match op.variant {
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BinopVariant::Normal => None,
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BinopVariant::AugAssign => Some(left_val),
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},
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(left_val.as_base_value().into(), false),
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(right_val.as_base_value().into(), false),
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|generator, ctx, (lhs, rhs)| {
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@ -1405,7 +1410,6 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
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op,
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(&Some(ndarray_dtype2), rhs),
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ctx.current_loc,
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is_aug_assign,
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)?
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.unwrap()
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.to_basic_value_enum(
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@ -1430,7 +1434,10 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
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generator,
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ctx,
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ndarray_dtype,
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if is_aug_assign { Some(ndarray_val) } else { None },
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match op.variant {
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BinopVariant::Normal => None,
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BinopVariant::AugAssign => Some(ndarray_val),
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},
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(left_val, !is_ndarray1),
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(right_val, !is_ndarray2),
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|generator, ctx, (lhs, rhs)| {
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@ -1441,7 +1448,6 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
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op,
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(&Some(ndarray_dtype), rhs),
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ctx.current_loc,
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is_aug_assign,
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)?
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.unwrap()
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.to_basic_value_enum(ctx, generator, ndarray_dtype)
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@ -1456,13 +1462,16 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
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unreachable!("must be tobj")
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};
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let (op_name, id) = {
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let (binop_name, binop_assign_name) =
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(binop_name(op).into(), binop_assign_name(op).into());
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let normal_method_name = Binop::normal(op.base).op_info().method_name;
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let assign_method_name = Binop::aug_assign(op.base).op_info().method_name;
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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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if op.variant == BinopVariant::AugAssign
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&& fields.contains_key(&assign_method_name.into())
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{
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(assign_method_name.into(), *obj_id)
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} else {
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(binop_name, *obj_id)
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(normal_method_name.into(), *obj_id)
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}
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};
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@ -1509,10 +1518,9 @@ pub fn gen_binop_expr<'ctx, G: CodeGenerator>(
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generator: &mut G,
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ctx: &mut CodeGenContext<'ctx, '_>,
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left: &Expr<Option<Type>>,
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op: Operator,
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op: Binop,
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right: &Expr<Option<Type>>,
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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 left_val = if let Some(v) = generator.gen_expr(ctx, left)? {
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v.to_basic_value_enum(ctx, generator, left.custom.unwrap())?
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@ -1532,7 +1540,6 @@ pub fn gen_binop_expr<'ctx, G: CodeGenerator>(
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op,
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(&right.custom, right_val),
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loc,
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is_aug_assign,
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)
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}
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@ -1616,7 +1623,10 @@ pub fn gen_unaryop_expr_with_values<'ctx, G: CodeGenerator>(
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if op == ast::Unaryop::Invert {
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ast::Unaryop::Not
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} else {
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unreachable!("ufunc {} not supported for ndarray[bool, N]", unaryop_name(op))
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unreachable!(
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"ufunc {} not supported for ndarray[bool, N]",
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op.op_info().method_name,
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)
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}
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} else {
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op
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@ -2698,7 +2708,7 @@ pub fn gen_expr<'ctx, G: CodeGenerator>(
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}
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}
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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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return gen_binop_expr(generator, ctx, left, Binop::normal(*op), right, expr.location);
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}
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ExprKind::UnaryOp { op, operand } => return gen_unaryop_expr(generator, ctx, *op, operand),
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ExprKind::Compare { left, ops, comparators } => {
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@ -11,8 +11,7 @@ use crate::{
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call_ndarray_calc_broadcast_index, call_ndarray_calc_nd_indices,
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call_ndarray_calc_size,
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},
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llvm_intrinsics,
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llvm_intrinsics::call_memcpy_generic,
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llvm_intrinsics::{self, call_memcpy_generic},
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stmt::{gen_for_callback_incrementing, gen_for_range_callback, gen_if_else_expr_callback},
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CodeGenContext, CodeGenerator,
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},
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@ -22,7 +21,10 @@ use crate::{
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numpy::{make_ndarray_ty, unpack_ndarray_var_tys},
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DefinitionId,
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},
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typecheck::typedef::{FunSignature, Type, TypeEnum},
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typecheck::{
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magic_methods::Binop,
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typedef::{FunSignature, Type, TypeEnum},
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},
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};
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use inkwell::types::{AnyTypeEnum, BasicTypeEnum, PointerType};
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use inkwell::{
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@ -1679,10 +1681,9 @@ pub fn ndarray_matmul_2d<'ctx, G: CodeGenerator>(
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generator,
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ctx,
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(&Some(elem_ty), a),
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Operator::Mult,
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Binop::normal(Operator::Mult),
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(&Some(elem_ty), b),
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ctx.current_loc,
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false,
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)?
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.unwrap()
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.to_basic_value_enum(ctx, generator, elem_ty)?;
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@ -1692,10 +1693,9 @@ pub fn ndarray_matmul_2d<'ctx, G: CodeGenerator>(
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generator,
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ctx,
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(&Some(elem_ty), result),
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Operator::Add,
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Binop::normal(Operator::Add),
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(&Some(elem_ty), a_mul_b),
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ctx.current_loc,
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false,
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)?
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.unwrap()
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.to_basic_value_enum(ctx, generator, elem_ty)?;
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@ -11,7 +11,10 @@ use crate::{
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gen_in_range_check,
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},
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toplevel::{helper::PrimDef, numpy::unpack_ndarray_var_tys, DefinitionId, TopLevelDef},
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typecheck::typedef::{FunSignature, Type, TypeEnum},
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typecheck::{
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magic_methods::Binop,
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typedef::{FunSignature, Type, TypeEnum},
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},
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};
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use inkwell::{
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attributes::{Attribute, AttributeLoc},
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@ -1593,7 +1596,14 @@ pub fn gen_stmt<G: CodeGenerator>(
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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::AugAssign { target, op, value, .. } => {
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let value = gen_binop_expr(generator, ctx, target, *op, value, stmt.location, true)?;
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let value = gen_binop_expr(
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generator,
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ctx,
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target,
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Binop::aug_assign(*op),
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value,
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stmt.location,
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)?;
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generator.gen_assign(ctx, target, value.unwrap())?;
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}
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StmtKind::Try { .. } => gen_try(generator, ctx, stmt)?,
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@ -5,7 +5,7 @@ use crate::typecheck::{
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type_inferencer::*,
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typedef::{FunSignature, FuncArg, Type, TypeEnum, Unifier, VarMap},
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};
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use itertools::Itertools;
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use itertools::{iproduct, Itertools};
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use nac3parser::ast::StrRef;
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use nac3parser::ast::{Cmpop, Operator, Unaryop};
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use std::cmp::max;
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@ -13,67 +13,138 @@ use std::collections::HashMap;
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use std::rc::Rc;
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use strum::IntoEnumIterator;
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#[must_use]
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pub fn binop_name(op: Operator) -> &'static str {
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match op {
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Operator::Add => "__add__",
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Operator::Sub => "__sub__",
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Operator::Div => "__truediv__",
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Operator::Mod => "__mod__",
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Operator::Mult => "__mul__",
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Operator::Pow => "__pow__",
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Operator::BitOr => "__or__",
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Operator::BitXor => "__xor__",
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Operator::BitAnd => "__and__",
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Operator::LShift => "__lshift__",
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Operator::RShift => "__rshift__",
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Operator::FloorDiv => "__floordiv__",
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Operator::MatMult => "__matmul__",
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/// The variant of a binary operator.
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#[derive(Debug, Clone, Copy, PartialEq, Eq)]
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pub enum BinopVariant {
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/// The normal variant.
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/// For addition, it would be `+`.
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Normal,
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/// The "Augmented Assigning Operator" variant.
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/// For addition, it would be `+=`.
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AugAssign,
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}
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/// A binary operator with its variant.
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#[derive(Debug, Clone, Copy)]
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pub struct Binop {
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/// The base [`Operator`] of this binary operator.
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pub base: Operator,
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/// The variant of this binary operator.
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pub variant: BinopVariant,
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}
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impl Binop {
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/// Make a [`Binop`] of the normal variant from an [`Operator`].
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#[must_use]
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pub fn normal(base: Operator) -> Self {
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Binop { base, variant: BinopVariant::Normal }
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}
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/// Make a [`Binop`] of the aug assign variant from an [`Operator`].
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#[must_use]
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pub fn aug_assign(base: Operator) -> Self {
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Binop { base, variant: BinopVariant::AugAssign }
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}
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}
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#[must_use]
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pub fn binop_assign_name(op: Operator) -> &'static str {
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match op {
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Operator::Add => "__iadd__",
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Operator::Sub => "__isub__",
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Operator::Div => "__itruediv__",
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Operator::Mod => "__imod__",
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Operator::Mult => "__imul__",
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Operator::Pow => "__ipow__",
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Operator::BitOr => "__ior__",
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Operator::BitXor => "__ixor__",
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Operator::BitAnd => "__iand__",
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Operator::LShift => "__ilshift__",
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Operator::RShift => "__irshift__",
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Operator::FloorDiv => "__ifloordiv__",
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Operator::MatMult => "__imatmul__",
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}
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/// Details about an operator (unary, binary, etc...) in Python
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#[derive(Debug, Clone, Copy)]
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pub struct OpInfo {
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/// The method name of the binary operator.
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/// For addition, this would be `__add__`, and `__iadd__` if
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/// it is the augmented assigning variant.
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pub method_name: &'static str,
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/// The symbol of the binary operator.
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/// For addition, this would be `+`, and `+=` if
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/// it is the augmented assigning variant.
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pub symbol: &'static str,
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}
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#[must_use]
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pub fn unaryop_name(op: Unaryop) -> &'static str {
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match op {
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Unaryop::UAdd => "__pos__",
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Unaryop::USub => "__neg__",
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Unaryop::Not => "__not__",
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Unaryop::Invert => "__inv__",
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}
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/// Helper macro to conveniently build an [`OpInfo`].
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///
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/// Example usage: `make_info("add", "+")` generates `OpInfo { name: "__add__", symbol: "+" }`
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macro_rules! make_op_info {
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($name:expr, $symbol:expr) => {
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OpInfo { method_name: concat!("__", $name, "__"), symbol: $symbol }
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};
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}
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#[must_use]
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pub fn comparison_name(op: Cmpop) -> Option<&'static str> {
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pub trait HasOpInfo {
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fn op_info(&self) -> OpInfo;
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}
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fn try_get_cmpop_info(op: Cmpop) -> Option<OpInfo> {
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match op {
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Cmpop::Lt => Some("__lt__"),
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Cmpop::LtE => Some("__le__"),
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Cmpop::Gt => Some("__gt__"),
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Cmpop::GtE => Some("__ge__"),
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Cmpop::Eq => Some("__eq__"),
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Cmpop::NotEq => Some("__ne__"),
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Cmpop::Lt => Some(make_op_info!("lt", "<")),
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Cmpop::LtE => Some(make_op_info!("le", "<=")),
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Cmpop::Gt => Some(make_op_info!("gt", ">")),
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Cmpop::GtE => Some(make_op_info!("ge", ">=")),
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Cmpop::Eq => Some(make_op_info!("eq", "==")),
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Cmpop::NotEq => Some(make_op_info!("ne", "!=")),
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_ => None,
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}
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}
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impl OpInfo {
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#[must_use]
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pub fn supports_cmpop(op: Cmpop) -> bool {
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try_get_cmpop_info(op).is_some()
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}
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}
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impl HasOpInfo for Cmpop {
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fn op_info(&self) -> OpInfo {
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try_get_cmpop_info(*self).expect("{self:?} is not supported")
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}
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}
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impl HasOpInfo for Binop {
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fn op_info(&self) -> OpInfo {
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// Helper macro to generate both the normal variant [`OpInfo`] and the
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// augmented assigning variant [`OpInfo`] for a binary operator conveniently.
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macro_rules! info {
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($name:literal, $symbol:literal) => {
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(
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make_op_info!($name, $symbol),
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make_op_info!(concat!("i", $name), concat!($symbol, "=")),
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)
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};
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}
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let (normal_variant, aug_assign_variant) = match self.base {
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Operator::Add => info!("add", "+"),
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Operator::Sub => info!("sub", "-"),
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Operator::Div => info!("truediv", "/"),
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Operator::Mod => info!("mod", "%"),
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Operator::Mult => info!("mul", "*"),
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Operator::Pow => info!("pow", "**"),
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Operator::BitOr => info!("or", "|"),
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Operator::BitXor => info!("xor", "^"),
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Operator::BitAnd => info!("and", "&"),
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Operator::LShift => info!("lshift", "<<"),
|
||||
Operator::RShift => info!("rshift", ">>"),
|
||||
Operator::FloorDiv => info!("floordiv", "//"),
|
||||
Operator::MatMult => info!("matmul", "@"),
|
||||
};
|
||||
|
||||
match self.variant {
|
||||
BinopVariant::Normal => normal_variant,
|
||||
BinopVariant::AugAssign => aug_assign_variant,
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
impl HasOpInfo for Unaryop {
|
||||
fn op_info(&self) -> OpInfo {
|
||||
match self {
|
||||
Unaryop::UAdd => make_op_info!("pos", "+"),
|
||||
Unaryop::USub => make_op_info!("neg", "-"),
|
||||
Unaryop::Not => make_op_info!("not", "not"), // i.e., `not False`, so the symbol is just `not`.
|
||||
Unaryop::Invert => make_op_info!("inv", "~"),
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
pub(super) fn with_fields<F>(unifier: &mut Unifier, ty: Type, f: F)
|
||||
where
|
||||
F: FnOnce(&mut Unifier, &mut HashMap<StrRef, (Type, bool)>),
|
||||
|
@ -115,23 +186,9 @@ pub fn impl_binop(
|
|||
|
||||
let ret_ty = ret_ty.unwrap_or_else(|| unifier.get_fresh_var(None, None).ty);
|
||||
|
||||
for op in ops {
|
||||
fields.insert(binop_name(*op).into(), {
|
||||
(
|
||||
unifier.add_ty(TypeEnum::TFunc(FunSignature {
|
||||
ret: ret_ty,
|
||||
vars: function_vars.clone(),
|
||||
args: vec![FuncArg {
|
||||
ty: other_ty,
|
||||
default_value: None,
|
||||
name: "other".into(),
|
||||
}],
|
||||
})),
|
||||
false,
|
||||
)
|
||||
});
|
||||
|
||||
fields.insert(binop_assign_name(*op).into(), {
|
||||
for (base_op, variant) in iproduct!(ops, [BinopVariant::Normal, BinopVariant::AugAssign]) {
|
||||
let op = Binop { base: *base_op, variant };
|
||||
fields.insert(op.op_info().method_name.into(), {
|
||||
(
|
||||
unifier.add_ty(TypeEnum::TFunc(FunSignature {
|
||||
ret: ret_ty,
|
||||
|
@ -155,7 +212,7 @@ pub fn impl_unaryop(unifier: &mut Unifier, ty: Type, ret_ty: Option<Type>, ops:
|
|||
|
||||
for op in ops {
|
||||
fields.insert(
|
||||
unaryop_name(*op).into(),
|
||||
op.op_info().method_name.into(),
|
||||
(
|
||||
unifier.add_ty(TypeEnum::TFunc(FunSignature {
|
||||
ret: ret_ty,
|
||||
|
@ -195,7 +252,7 @@ pub fn impl_cmpop(
|
|||
|
||||
for op in ops {
|
||||
fields.insert(
|
||||
comparison_name(*op).unwrap().into(),
|
||||
op.op_info().method_name.into(),
|
||||
(
|
||||
unifier.add_ty(TypeEnum::TFunc(FunSignature {
|
||||
ret: ret_ty,
|
||||
|
|
|
@ -491,7 +491,8 @@ impl<'a> Fold<()> for Inferencer<'a> {
|
|||
(None, None) => {}
|
||||
},
|
||||
ast::StmtKind::AugAssign { target, op, value, .. } => {
|
||||
let res_ty = self.infer_bin_ops(stmt.location, target, *op, value, true)?;
|
||||
let res_ty =
|
||||
self.infer_bin_ops(stmt.location, target, Binop::aug_assign(*op), value)?;
|
||||
self.unify(res_ty, target.custom.unwrap(), &stmt.location)?;
|
||||
}
|
||||
ast::StmtKind::Assert { test, msg, .. } => {
|
||||
|
@ -573,7 +574,7 @@ impl<'a> Fold<()> for Inferencer<'a> {
|
|||
}
|
||||
ExprKind::BoolOp { values, .. } => Some(self.infer_bool_ops(values)?),
|
||||
ExprKind::BinOp { left, op, right } => {
|
||||
Some(self.infer_bin_ops(expr.location, left, *op, right, false)?)
|
||||
Some(self.infer_bin_ops(expr.location, left, Binop::normal(*op), right)?)
|
||||
}
|
||||
ExprKind::UnaryOp { op, operand } => {
|
||||
Some(self.infer_unary_ops(expr.location, *op, operand)?)
|
||||
|
@ -1729,9 +1730,8 @@ impl<'a> Inferencer<'a> {
|
|||
&mut self,
|
||||
location: Location,
|
||||
left: &ast::Expr<Option<Type>>,
|
||||
op: ast::Operator,
|
||||
op: Binop,
|
||||
right: &ast::Expr<Option<Type>>,
|
||||
is_aug_assign: bool,
|
||||
) -> InferenceResult {
|
||||
let left_ty = left.custom.unwrap();
|
||||
let right_ty = right.custom.unwrap();
|
||||
|
@ -1739,27 +1739,33 @@ impl<'a> Inferencer<'a> {
|
|||
let method = if let TypeEnum::TObj { fields, .. } =
|
||||
self.unifier.get_ty_immutable(left_ty).as_ref()
|
||||
{
|
||||
let (binop_name, binop_assign_name) =
|
||||
(binop_name(op).into(), binop_assign_name(op).into());
|
||||
let normal_method_name = Binop::normal(op.base).op_info().method_name;
|
||||
let assign_method_name = Binop::aug_assign(op.base).op_info().method_name;
|
||||
|
||||
// if is aug_assign, try aug_assign operator first
|
||||
if is_aug_assign && fields.contains_key(&binop_assign_name) {
|
||||
binop_assign_name
|
||||
if op.variant == BinopVariant::AugAssign
|
||||
&& fields.contains_key(&assign_method_name.into())
|
||||
{
|
||||
assign_method_name
|
||||
} else {
|
||||
binop_name
|
||||
normal_method_name
|
||||
}
|
||||
} else {
|
||||
binop_name(op).into()
|
||||
op.op_info().method_name
|
||||
};
|
||||
|
||||
let ret = if is_aug_assign {
|
||||
// The type of augmented assignment operator should never change
|
||||
Some(left_ty)
|
||||
} else {
|
||||
typeof_binop(self.unifier, self.primitives, op, left_ty, right_ty)
|
||||
.map_err(|e| HashSet::from([format!("{e} (at {location})")]))?
|
||||
let ret = match op.variant {
|
||||
BinopVariant::Normal => {
|
||||
typeof_binop(self.unifier, self.primitives, op.base, left_ty, right_ty)
|
||||
.map_err(|e| HashSet::from([format!("{e} (at {location})")]))?
|
||||
}
|
||||
BinopVariant::AugAssign => {
|
||||
// The type of augmented assignment operator should never change
|
||||
Some(left_ty)
|
||||
}
|
||||
};
|
||||
|
||||
self.build_method_call(location, method, left_ty, vec![right_ty], ret)
|
||||
self.build_method_call(location, method.into(), left_ty, vec![right_ty], ret)
|
||||
}
|
||||
|
||||
fn infer_unary_ops(
|
||||
|
@ -1768,7 +1774,7 @@ impl<'a> Inferencer<'a> {
|
|||
op: ast::Unaryop,
|
||||
operand: &ast::Expr<Option<Type>>,
|
||||
) -> InferenceResult {
|
||||
let method = unaryop_name(op).into();
|
||||
let method = op.op_info().method_name.into();
|
||||
|
||||
let ret = typeof_unaryop(self.unifier, self.primitives, op, operand.custom.unwrap())
|
||||
.map_err(|e| HashSet::from([format!("{e} (at {location})")]))?;
|
||||
|
@ -1798,9 +1804,11 @@ impl<'a> Inferencer<'a> {
|
|||
|
||||
let mut res = None;
|
||||
for (a, b, c) in izip!(once(left).chain(comparators), comparators, ops) {
|
||||
let method = comparison_name(*c)
|
||||
.ok_or_else(|| HashSet::from(["unsupported comparator".to_string()]))?
|
||||
.into();
|
||||
if !OpInfo::supports_cmpop(*c) {
|
||||
return Err(HashSet::from(["unsupported comparator".to_string()]));
|
||||
}
|
||||
|
||||
let method = c.op_info().method_name.into();
|
||||
|
||||
let ret = typeof_cmpop(
|
||||
self.unifier,
|
||||
|
|
Loading…
Reference in New Issue