forked from M-Labs/nac3
core: Add compile-time error and runtime assertion for negative shifts
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1ca4de99b9
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3231eb0d78
@ -298,8 +298,40 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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(Operator::BitOr, _) => self.builder.build_or(lhs, rhs, "or").into(),
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(Operator::BitOr, _) => self.builder.build_or(lhs, rhs, "or").into(),
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(Operator::BitXor, _) => self.builder.build_xor(lhs, rhs, "xor").into(),
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(Operator::BitXor, _) => self.builder.build_xor(lhs, rhs, "xor").into(),
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(Operator::BitAnd, _) => self.builder.build_and(lhs, rhs, "and").into(),
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(Operator::BitAnd, _) => self.builder.build_and(lhs, rhs, "and").into(),
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(Operator::LShift, _) => self.builder.build_left_shift(lhs, rhs, "lshift").into(),
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(Operator::RShift, _) => self.builder.build_right_shift(lhs, rhs, true, "rshift").into(),
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// Sign-ness of bitshift operators are always determined by the left operand
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(Operator::LShift, signed) | (Operator::RShift, signed) => {
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// RHS operand is always 32 bits
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assert_eq!(rhs.get_type().get_bit_width(), 32);
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let common_type = lhs.get_type();
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let rhs = if common_type.get_bit_width() > 32 {
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if signed {
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self.builder.build_int_s_extend(rhs, common_type, "")
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} else {
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self.builder.build_int_z_extend(rhs, common_type, "")
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}
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} else {
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rhs
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};
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let rhs_gez = self.builder.build_int_compare(IntPredicate::SGE, rhs, common_type.const_zero(), "");
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self.make_assert(
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generator,
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rhs_gez,
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"ValueError",
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"negative shift count",
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[None, None, None],
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self.current_loc
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);
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match *op {
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Operator::LShift => self.builder.build_left_shift(lhs, rhs, "lshift").into(),
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Operator::RShift => self.builder.build_right_shift(lhs, rhs, signed, "rshift").into(),
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_ => unreachable!()
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}
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}
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(Operator::FloorDiv, true) => self.builder.build_int_signed_div(lhs, rhs, "floordiv").into(),
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(Operator::FloorDiv, true) => self.builder.build_int_signed_div(lhs, rhs, "floordiv").into(),
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(Operator::FloorDiv, false) => self.builder.build_int_unsigned_div(lhs, rhs, "floordiv").into(),
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(Operator::FloorDiv, false) => self.builder.build_int_unsigned_div(lhs, rhs, "floordiv").into(),
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(Operator::Pow, s) => integer_power(generator, self, lhs, rhs, s).into(),
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(Operator::Pow, s) => integer_power(generator, self, lhs, rhs, s).into(),
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@ -1085,6 +1117,9 @@ pub fn gen_binop_expr<'ctx, 'a, G: CodeGenerator>(
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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, 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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Ok(Some(ctx.gen_int_ops(generator, op, left_val, right_val, false).into()))
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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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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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} else if ty1 == ty2 && ctx.primitives.float == ty1 {
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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, 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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@ -2,7 +2,7 @@ use crate::typecheck::typedef::TypeEnum;
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use super::type_inferencer::Inferencer;
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use super::type_inferencer::Inferencer;
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use super::typedef::Type;
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use super::typedef::Type;
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use nac3parser::ast::{self, Expr, ExprKind, Stmt, StmtKind, StrRef};
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use nac3parser::ast::{self, Constant, Expr, ExprKind, Operator::{LShift, RShift}, Stmt, StmtKind, StrRef};
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use std::{collections::HashSet, iter::once};
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use std::{collections::HashSet, iter::once};
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impl<'a> Inferencer<'a> {
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impl<'a> Inferencer<'a> {
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@ -107,11 +107,28 @@ impl<'a> Inferencer<'a> {
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self.check_expr(value, defined_identifiers)?;
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self.check_expr(value, defined_identifiers)?;
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self.should_have_value(value)?;
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self.should_have_value(value)?;
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}
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}
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ExprKind::BinOp { left, right, .. } => {
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ExprKind::BinOp { left, op, right } => {
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self.check_expr(left, defined_identifiers)?;
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self.check_expr(left, defined_identifiers)?;
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self.check_expr(right, defined_identifiers)?;
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self.check_expr(right, defined_identifiers)?;
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self.should_have_value(left)?;
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self.should_have_value(left)?;
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self.should_have_value(right)?;
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self.should_have_value(right)?;
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// Check whether a bitwise shift has a negative RHS constant value
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if *op == LShift || *op == RShift {
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if let ExprKind::Constant { value, .. } = &right.node {
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let rhs_val = match value {
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Constant::Int(v) => v,
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_ => unreachable!(),
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};
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if *rhs_val < 0 {
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return Err(format!(
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"shift count is negative at {}",
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right.location
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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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ExprKind::UnaryOp { operand, .. } => {
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ExprKind::UnaryOp { operand, .. } => {
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self.check_expr(operand, defined_identifiers)?;
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self.check_expr(operand, defined_identifiers)?;
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