forked from M-Labs/nac3
nac3core: add bound check for list slice
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0fb9998a96
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0a2dfab9a1
@ -238,6 +238,7 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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pub fn gen_int_ops(
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&mut self,
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generator: &mut dyn CodeGenerator,
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op: &Operator,
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lhs: BasicValueEnum<'ctx>,
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rhs: BasicValueEnum<'ctx>,
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@ -273,7 +274,7 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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(Operator::RShift, _) => self.builder.build_right_shift(lhs, rhs, true, "rshift").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::Pow, s) => integer_power(self, lhs, rhs, s).into(),
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(Operator::Pow, s) => integer_power(generator, self, lhs, rhs, s).into(),
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// special implementation?
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(Operator::MatMult, _) => unreachable!(),
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}
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@ -940,9 +941,9 @@ pub fn gen_binop_expr<'ctx, 'a, 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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Ok(if ty1 == ty2 && [ctx.primitives.int32, ctx.primitives.int64].contains(&ty1) {
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ctx.gen_int_ops(op, left, right, true)
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ctx.gen_int_ops(generator, op, left, right, true)
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} else if ty1 == ty2 && [ctx.primitives.uint32, ctx.primitives.uint64].contains(&ty1) {
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ctx.gen_int_ops(op, left, right, false)
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ctx.gen_int_ops(generator, op, left, right, false)
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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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} else if ty1 == ctx.primitives.float && ty2 == ctx.primitives.int32 {
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@ -1369,26 +1370,6 @@ pub fn gen_expr<'ctx, 'a, G: CodeGenerator>(
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unreachable!()
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}
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};
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// // directly generate code for option.unwrap
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// // since it needs location information from ast
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// if attr == &"unwrap".into()
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// && id == ctx.primitives.option.get_obj_id(&ctx.unifier)
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// {
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// if let BasicValueEnum::PointerValue(ptr) = val.to_basic_value_enum(ctx, generator)? {
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// let not_null = ctx.builder.build_is_not_null(ptr, "unwrap_not_null");
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// ctx.make_assert(
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// generator,
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// not_null,
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// "0:UnwrapNoneError",
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// "",
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// [None, None, None],
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// expr.location,
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// );
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// return Ok(Some(ctx.builder.build_load(ptr, "unwrap_some").into()))
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// } else {
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// unreachable!("option must be ptr")
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// }
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// }
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return Ok(generator
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.gen_call(
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ctx,
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@ -1415,6 +1396,7 @@ pub fn gen_expr<'ctx, 'a, G: CodeGenerator>(
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let (start, end, step) =
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handle_slice_indices(lower, upper, step, ctx, generator, v)?;
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let length = calculate_len_for_slice_range(
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generator,
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ctx,
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start,
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ctx.builder
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@ -1436,8 +1418,8 @@ pub fn gen_expr<'ctx, 'a, G: CodeGenerator>(
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let res_ind =
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handle_slice_indices(&None, &None, &None, ctx, generator, res_array_ret)?;
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list_slice_assignment(
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generator,
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ctx,
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generator.get_size_type(ctx.ctx),
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ty,
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res_array_ret,
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res_ind,
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@ -6,7 +6,7 @@ use inkwell::{
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context::Context,
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memory_buffer::MemoryBuffer,
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module::Module,
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types::{BasicTypeEnum, IntType},
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types::BasicTypeEnum,
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values::{IntValue, PointerValue},
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AddressSpace, IntPredicate,
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};
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@ -34,6 +34,7 @@ pub fn load_irrt(ctx: &Context) -> Module {
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// repeated squaring method adapted from GNU Scientific Library:
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// https://git.savannah.gnu.org/cgit/gsl.git/tree/sys/pow_int.c
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pub fn integer_power<'ctx, 'a>(
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generator: &mut dyn CodeGenerator,
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ctx: &mut CodeGenContext<'ctx, 'a>,
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base: IntValue<'ctx>,
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exp: IntValue<'ctx>,
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@ -51,7 +52,21 @@ pub fn integer_power<'ctx, 'a>(
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let fn_type = base_type.fn_type(&[base_type.into(), base_type.into()], false);
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ctx.module.add_function(symbol, fn_type, None)
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});
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// TODO: throw exception when exp < 0
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// throw exception when exp < 0
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let ge_zero = ctx.builder.build_int_compare(
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IntPredicate::SGE,
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exp,
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exp.get_type().const_zero(),
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"assert_int_pow_ge_0",
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);
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ctx.make_assert(
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generator,
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ge_zero,
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"0:ValueError",
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"integer power must be positive or zero",
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[None, None, None],
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ctx.current_loc,
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);
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ctx.builder
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.build_call(pow_fun, &[base.into(), exp.into()], "call_int_pow")
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.try_as_basic_value()
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@ -60,6 +75,7 @@ pub fn integer_power<'ctx, 'a>(
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}
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pub fn calculate_len_for_slice_range<'ctx, 'a>(
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generator: &mut dyn CodeGenerator,
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ctx: &mut CodeGenContext<'ctx, 'a>,
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start: IntValue<'ctx>,
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end: IntValue<'ctx>,
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@ -72,7 +88,21 @@ pub fn calculate_len_for_slice_range<'ctx, 'a>(
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ctx.module.add_function(SYMBOL, fn_t, None)
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});
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// TODO: assert step != 0, throw exception if not
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// assert step != 0, throw exception if not
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let not_zero = ctx.builder.build_int_compare(
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IntPredicate::NE,
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step,
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step.get_type().const_zero(),
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"range_step_ne",
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);
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ctx.make_assert(
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generator,
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not_zero,
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"0:ValueError",
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"step must not be zero",
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[None, None, None],
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ctx.current_loc,
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);
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ctx.builder
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.build_call(len_func, &[start.into(), end.into(), step.into()], "calc_len")
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.try_as_basic_value()
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@ -129,7 +159,6 @@ pub fn handle_slice_indices<'a, 'ctx, G: CodeGenerator>(
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generator: &mut G,
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list: PointerValue<'ctx>,
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) -> Result<(IntValue<'ctx>, IntValue<'ctx>, IntValue<'ctx>), String> {
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// TODO: throw exception when step is 0
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let int32 = ctx.ctx.i32_type();
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let zero = int32.const_zero();
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let one = int32.const_int(1, false);
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@ -156,6 +185,21 @@ pub fn handle_slice_indices<'a, 'ctx, G: CodeGenerator>(
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.unwrap()
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.to_basic_value_enum(ctx, generator)?
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.into_int_value();
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// assert step != 0, throw exception if not
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let not_zero = ctx.builder.build_int_compare(
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IntPredicate::NE,
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step,
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step.get_type().const_zero(),
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"range_step_ne",
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);
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ctx.make_assert(
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generator,
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not_zero,
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"0:ValueError",
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"slice step cannot be zero",
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[None, None, None],
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ctx.current_loc,
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);
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let len_id = ctx.builder.build_int_sub(length, one, "lenmin1");
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let neg = ctx.builder.build_int_compare(IntPredicate::SLT, step, zero, "step_is_neg");
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(
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@ -231,14 +275,15 @@ pub fn handle_slice_index_bound<'a, 'ctx, G: CodeGenerator>(
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/// Order of tuples assign_idx and value_idx is ('start', 'end', 'step').
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/// Negative index should be handled before entering this function
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pub fn list_slice_assignment<'ctx, 'a>(
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generator: &mut dyn CodeGenerator,
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ctx: &mut CodeGenContext<'ctx, 'a>,
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size_ty: IntType<'ctx>,
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ty: BasicTypeEnum<'ctx>,
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dest_arr: PointerValue<'ctx>,
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dest_idx: (IntValue<'ctx>, IntValue<'ctx>, IntValue<'ctx>),
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src_arr: PointerValue<'ctx>,
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src_idx: (IntValue<'ctx>, IntValue<'ctx>, IntValue<'ctx>),
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) {
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let size_ty = generator.get_size_type(ctx.ctx);
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let int8_ptr = ctx.ctx.i8_type().ptr_type(AddressSpace::Generic);
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let int32 = ctx.ctx.i32_type();
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let (fun_symbol, elem_ptr_type) = ("__nac3_list_slice_assign_var_size", int8_ptr);
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@ -282,8 +327,41 @@ pub fn list_slice_assignment<'ctx, 'a>(
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let src_len = ctx.builder.build_int_truncate_or_bit_cast(src_len, int32, "srclen32");
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// index in bound and positive should be done
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// TODO: assert if dest.step == 1 then len(src) <= len(dest) else len(src) == len(dest), and
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// assert if dest.step == 1 then len(src) <= len(dest) else len(src) == len(dest), and
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// throw exception if not satisfied
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let src_slice_len =
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calculate_len_for_slice_range(generator, ctx, src_idx.0, src_idx.1, src_idx.2);
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let dest_slice_len =
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calculate_len_for_slice_range(generator, ctx, dest_idx.0, dest_idx.1, dest_idx.2);
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let src_eq_dest = ctx.builder.build_int_compare(
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IntPredicate::EQ,
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src_slice_len,
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dest_slice_len,
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"slice_src_eq_dest",
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);
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let src_slt_dest = ctx.builder.build_int_compare(
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IntPredicate::SLT,
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src_slice_len,
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dest_slice_len,
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"slice_src_slt_dest",
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);
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let dest_step_eq_one = ctx.builder.build_int_compare(
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IntPredicate::EQ,
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dest_idx.2,
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dest_idx.2.get_type().const_int(1, false),
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"slice_dest_step_eq_one",
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);
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let cond_1 = ctx.builder.build_and(dest_step_eq_one, src_slt_dest, "slice_cond_1");
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let cond = ctx.builder.build_or(src_eq_dest, cond_1, "slice_cond");
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ctx.make_assert(
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generator,
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cond,
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"0:ValueError",
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"attempt to assign sequence of size {0}, to slice of size {1} with step size {2}",
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[Some(src_slice_len), Some(dest_slice_len), Some(dest_idx.2)],
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ctx.current_loc,
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);
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let new_len = {
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let args = vec![
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dest_idx.0.into(), // dest start idx
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@ -134,8 +134,8 @@ pub fn gen_assign<'ctx, 'a, G: CodeGenerator>(
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};
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let src_ind = handle_slice_indices(&None, &None, &None, ctx, generator, value)?;
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list_slice_assignment(
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generator,
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ctx,
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generator.get_size_type(ctx.ctx),
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ty,
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ls,
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(start, end, step),
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@ -683,8 +683,28 @@ pub fn get_builtins(primitives: &mut (PrimitiveStore, Unifier)) -> BuiltinInfo {
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step = Some(arg.1.clone().to_basic_value_enum(ctx, generator)?);
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}
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}
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// TODO: error when step == 0
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let step = step.unwrap_or_else(|| int32.const_int(1, false).into());
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let step = match step {
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Some(step) => {
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let step = step.into_int_value();
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// assert step != 0, throw exception if not
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let not_zero = ctx.builder.build_int_compare(
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IntPredicate::NE,
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step,
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step.get_type().const_zero(),
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"range_step_ne",
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);
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ctx.make_assert(
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generator,
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not_zero,
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"0:ValueError",
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"range() step must not be zero",
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[None, None, None],
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ctx.current_loc,
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);
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step
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}
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None => int32.const_int(1, false),
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};
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let stop = stop.unwrap_or_else(|| {
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let v = start.unwrap();
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start = None;
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@ -986,7 +1006,7 @@ pub fn get_builtins(primitives: &mut (PrimitiveStore, Unifier)) -> BuiltinInfo {
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Ok(if ctx.unifier.unioned(arg_ty, range_ty) {
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let arg = arg.into_pointer_value();
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let (start, end, step) = destructure_range(ctx, arg);
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Some(calculate_len_for_slice_range(ctx, start, end, step).into())
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Some(calculate_len_for_slice_range(generator, ctx, start, end, step).into())
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} else {
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let int32 = ctx.ctx.i32_type();
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let zero = int32.const_zero();
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