forked from M-Labs/nac3
core/codegen: refactor gen_{for,comprehension} to match on iter type
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669c6aca6b
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894083c6a3
@ -995,8 +995,10 @@ pub fn gen_comprehension<'ctx, G: CodeGenerator>(
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ctx.builder.position_at_end(init_bb);
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let Comprehension { target, iter, ifs, .. } = &generators[0];
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let iter_ty = iter.custom.unwrap();
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let iter_val = if let Some(v) = generator.gen_expr(ctx, iter)? {
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v.to_basic_value_enum(ctx, generator, iter.custom.unwrap())?
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v.to_basic_value_enum(ctx, generator, iter_ty)?
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} else {
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for bb in [test_bb, body_bb, cont_bb] {
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ctx.builder.position_at_end(bb);
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@ -1014,10 +1016,12 @@ pub fn gen_comprehension<'ctx, G: CodeGenerator>(
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ctx.builder.build_store(index, zero_size_t).unwrap();
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let elem_ty = ctx.get_llvm_type(generator, elt.custom.unwrap());
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let is_range = ctx.unifier.unioned(iter.custom.unwrap(), ctx.primitives.range);
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let list;
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if is_range {
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match &*ctx.unifier.get_ty(iter_ty) {
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TypeEnum::TObj { obj_id, .. }
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if *obj_id == ctx.primitives.range.obj_id(&ctx.unifier).unwrap() =>
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{
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let iter_val = RangeValue::from_ptr_val(iter_val.into_pointer_value(), Some("range"));
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let (start, stop, step) = destructure_range(ctx, iter_val);
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let diff = ctx.builder.build_int_sub(stop, start, "diff").unwrap();
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@ -1025,7 +1029,8 @@ pub fn gen_comprehension<'ctx, G: CodeGenerator>(
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// the length may be 1 more than the actual length if the division is exact, but the
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// length is a upper bound only anyway so it does not matter.
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let length = ctx.builder.build_int_signed_div(diff, step, "div").unwrap();
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let length = ctx.builder.build_int_add(length, int32.const_int(1, false), "add1").unwrap();
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let length =
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ctx.builder.build_int_add(length, int32.const_int(1, false), "add1").unwrap();
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// in case length is non-positive
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let is_valid =
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ctx.builder.build_int_compare(IntPredicate::SGT, length, zero_32, "check").unwrap();
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@ -1034,7 +1039,9 @@ pub fn gen_comprehension<'ctx, G: CodeGenerator>(
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.builder
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.build_select(
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is_valid,
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ctx.builder.build_int_z_extend_or_bit_cast(length, size_t, "z_ext_len").unwrap(),
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ctx.builder
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.build_int_z_extend_or_bit_cast(length, size_t, "z_ext_len")
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.unwrap(),
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zero_size_t,
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"listcomp.alloc_size",
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)
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@ -1053,7 +1060,11 @@ pub fn gen_comprehension<'ctx, G: CodeGenerator>(
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.unwrap();
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ctx.builder
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.build_conditional_branch(gen_in_range_check(ctx, start, stop, step), test_bb, cont_bb)
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.build_conditional_branch(
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gen_in_range_check(ctx, start, stop, step),
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test_bb,
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cont_bb,
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)
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.unwrap();
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ctx.builder.position_at_end(test_bb);
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@ -1068,11 +1079,18 @@ pub fn gen_comprehension<'ctx, G: CodeGenerator>(
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.unwrap();
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ctx.builder.build_store(i, tmp).unwrap();
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ctx.builder
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.build_conditional_branch(gen_in_range_check(ctx, tmp, stop, step), body_bb, cont_bb)
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.build_conditional_branch(
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gen_in_range_check(ctx, tmp, stop, step),
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body_bb,
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cont_bb,
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)
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.unwrap();
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ctx.builder.position_at_end(body_bb);
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} else {
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}
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TypeEnum::TObj { obj_id, .. }
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if *obj_id == ctx.primitives.list.obj_id(&ctx.unifier).unwrap() =>
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{
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let length = ctx
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.build_gep_and_load(
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iter_val.into_pointer_value(),
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@ -1088,7 +1106,8 @@ pub fn gen_comprehension<'ctx, G: CodeGenerator>(
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ctx.builder.build_unconditional_branch(test_bb).unwrap();
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ctx.builder.position_at_end(test_bb);
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let tmp = ctx.builder.build_load(counter, "i").map(BasicValueEnum::into_int_value).unwrap();
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let tmp =
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ctx.builder.build_load(counter, "i").map(BasicValueEnum::into_int_value).unwrap();
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let tmp = ctx.builder.build_int_add(tmp, size_t.const_int(1, false), "inc").unwrap();
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ctx.builder.build_store(counter, tmp).unwrap();
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let cmp = ctx.builder.build_int_compare(IntPredicate::SLT, tmp, length, "cmp").unwrap();
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@ -1105,6 +1124,13 @@ pub fn gen_comprehension<'ctx, G: CodeGenerator>(
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let val = ctx.build_gep_and_load(arr_ptr, &[tmp], Some("val"));
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generator.gen_assign(ctx, target, val.into())?;
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}
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_ => {
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panic!(
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"unsupported list comprehension iterator type: {}",
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ctx.unifier.stringify(iter_ty)
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);
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}
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}
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// Emits the content of `cont_bb`
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let emit_cont_bb =
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@ -315,9 +315,6 @@ pub fn gen_for<G: CodeGenerator>(
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let orelse_bb =
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if orelse.is_empty() { cont_bb } else { ctx.ctx.append_basic_block(current, "for.orelse") };
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// Whether the iterable is a range() expression
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let is_iterable_range_expr = ctx.unifier.unioned(iter.custom.unwrap(), ctx.primitives.range);
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// The BB containing the increment expression
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let incr_bb = ctx.ctx.append_basic_block(current, "for.incr");
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// The BB containing the loop condition check
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@ -326,17 +323,23 @@ pub fn gen_for<G: CodeGenerator>(
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// store loop bb information and restore it later
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let loop_bb = ctx.loop_target.replace((incr_bb, cont_bb));
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let iter_ty = iter.custom.unwrap();
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let iter_val = if let Some(v) = generator.gen_expr(ctx, iter)? {
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v.to_basic_value_enum(ctx, generator, iter.custom.unwrap())?
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v.to_basic_value_enum(ctx, generator, iter_ty)?
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} else {
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return Ok(());
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};
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if is_iterable_range_expr {
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match &*ctx.unifier.get_ty(iter_ty) {
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TypeEnum::TObj { obj_id, .. }
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if *obj_id == ctx.primitives.range.obj_id(&ctx.unifier).unwrap() =>
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{
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let iter_val = RangeValue::from_ptr_val(iter_val.into_pointer_value(), Some("range"));
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// Internal variable for loop; Cannot be assigned
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let i = generator.gen_var_alloc(ctx, int32.into(), Some("for.i.addr"))?;
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// Variable declared in "target" expression of the loop; Can be reassigned *or* shadowed
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let Some(target_i) = generator.gen_store_target(ctx, target, Some("for.target.addr"))?
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let Some(target_i) =
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generator.gen_store_target(ctx, target, Some("for.target.addr"))?
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else {
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unreachable!()
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};
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@ -345,8 +348,10 @@ pub fn gen_for<G: CodeGenerator>(
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ctx.builder.build_store(i, start).unwrap();
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// Check "If step is zero, ValueError is raised."
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let rangenez =
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ctx.builder.build_int_compare(IntPredicate::NE, step, int32.const_zero(), "").unwrap();
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let rangenez = ctx
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.builder
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.build_int_compare(IntPredicate::NE, step, int32.const_zero(), "")
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.unwrap();
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ctx.make_assert(
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generator,
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rangenez,
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@ -363,7 +368,10 @@ pub fn gen_for<G: CodeGenerator>(
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.build_conditional_branch(
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gen_in_range_check(
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ctx,
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ctx.builder.build_load(i, "").map(BasicValueEnum::into_int_value).unwrap(),
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ctx.builder
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.build_load(i, "")
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.map(BasicValueEnum::into_int_value)
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.unwrap(),
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stop,
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step,
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),
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@ -393,7 +401,10 @@ pub fn gen_for<G: CodeGenerator>(
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)
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.unwrap();
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generator.gen_block(ctx, body.iter())?;
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} else {
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}
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TypeEnum::TObj { obj_id, .. }
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if *obj_id == ctx.primitives.list.obj_id(&ctx.unifier).unwrap() =>
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{
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let index_addr = generator.gen_var_alloc(ctx, size_t.into(), Some("for.index.addr"))?;
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ctx.builder.build_store(index_addr, size_t.const_zero()).unwrap();
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let len = ctx
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@ -431,9 +442,14 @@ pub fn gen_for<G: CodeGenerator>(
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.map(BasicValueEnum::into_int_value)
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.unwrap();
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let val = ctx.build_gep_and_load(arr_ptr, &[index], Some("val"));
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generator.gen_assign(ctx, target, val.into())?;
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generator.gen_block(ctx, body.iter())?;
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}
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_ => {
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panic!("unsupported for loop iterator type: {}", ctx.unifier.stringify(iter_ty));
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}
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}
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for (k, (_, _, counter)) in &var_assignment {
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let (_, static_val, counter2) = ctx.var_assignment.get_mut(k).unwrap();
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@ -100,16 +100,18 @@ pub struct Inferencer<'a> {
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pub in_handler: bool,
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}
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type InferenceError = HashSet<String>;
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struct NaiveFolder();
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impl Fold<()> for NaiveFolder {
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type TargetU = Option<Type>;
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type Error = HashSet<String>;
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type Error = InferenceError;
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fn map_user(&mut self, (): ()) -> Result<Self::TargetU, Self::Error> {
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Ok(None)
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}
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}
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fn report_error<T>(msg: &str, location: Location) -> Result<T, HashSet<String>> {
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fn report_error<T>(msg: &str, location: Location) -> Result<T, InferenceError> {
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Err(HashSet::from([format!("{msg} at {location}")]))
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}
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@ -117,13 +119,13 @@ fn report_type_error<T>(
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kind: TypeErrorKind,
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loc: Option<Location>,
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unifier: &Unifier,
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) -> Result<T, HashSet<String>> {
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) -> Result<T, InferenceError> {
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Err(HashSet::from([TypeError::new(kind, loc).to_display(unifier).to_string()]))
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}
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impl<'a> Fold<()> for Inferencer<'a> {
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type TargetU = Option<Type>;
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type Error = HashSet<String>;
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type Error = InferenceError;
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fn map_user(&mut self, (): ()) -> Result<Self::TargetU, Self::Error> {
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Ok(None)
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@ -612,22 +614,22 @@ impl<'a> Fold<()> for Inferencer<'a> {
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}
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}
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type InferenceResult = Result<Type, HashSet<String>>;
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type InferenceResult = Result<Type, InferenceError>;
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impl<'a> Inferencer<'a> {
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/// Constrain a <: b
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/// Currently implemented as unification
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fn constrain(&mut self, a: Type, b: Type, location: &Location) -> Result<(), HashSet<String>> {
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fn constrain(&mut self, a: Type, b: Type, location: &Location) -> Result<(), InferenceError> {
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self.unify(a, b, location)
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}
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fn unify(&mut self, a: Type, b: Type, location: &Location) -> Result<(), HashSet<String>> {
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fn unify(&mut self, a: Type, b: Type, location: &Location) -> Result<(), InferenceError> {
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self.unifier.unify(a, b).map_err(|e| {
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HashSet::from([e.at(Some(*location)).to_display(self.unifier).to_string()])
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})
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}
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fn infer_pattern(&mut self, pattern: &ast::Expr<()>) -> Result<(), HashSet<String>> {
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fn infer_pattern(&mut self, pattern: &ast::Expr<()>) -> Result<(), InferenceError> {
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match &pattern.node {
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ExprKind::Name { id, .. } => {
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if !self.defined_identifiers.contains(id) {
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@ -716,7 +718,7 @@ impl<'a> Inferencer<'a> {
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location: Location,
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args: Arguments,
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body: ast::Expr<()>,
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) -> Result<ast::Expr<Option<Type>>, HashSet<String>> {
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) -> Result<ast::Expr<Option<Type>>, InferenceError> {
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if !args.posonlyargs.is_empty()
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|| args.vararg.is_some()
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|| !args.kwonlyargs.is_empty()
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@ -787,7 +789,7 @@ impl<'a> Inferencer<'a> {
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location: Location,
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elt: ast::Expr<()>,
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mut generators: Vec<Comprehension>,
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) -> Result<ast::Expr<Option<Type>>, HashSet<String>> {
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) -> Result<ast::Expr<Option<Type>>, InferenceError> {
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if generators.len() != 1 {
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return report_error(
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"Only 1 generator statement for list comprehension is supported",
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@ -893,7 +895,7 @@ impl<'a> Inferencer<'a> {
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id: StrRef,
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arg_index: usize,
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shape_expr: Located<ExprKind>,
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) -> Result<(u64, ast::Expr<Option<Type>>), HashSet<String>> {
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) -> Result<(u64, ast::Expr<Option<Type>>), InferenceError> {
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/*
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### Further explanation
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@ -1030,7 +1032,7 @@ impl<'a> Inferencer<'a> {
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func: &ast::Expr<()>,
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args: &mut Vec<ast::Expr<()>>,
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keywords: &[Located<ast::KeywordData>],
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) -> Result<Option<ast::Expr<Option<Type>>>, HashSet<String>> {
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) -> Result<Option<ast::Expr<Option<Type>>>, InferenceError> {
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let Located { location: func_location, node: ExprKind::Name { id, ctx }, .. } = func else {
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return Ok(None);
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};
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@ -1588,7 +1590,7 @@ impl<'a> Inferencer<'a> {
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func: ast::Expr<()>,
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mut args: Vec<ast::Expr<()>>,
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keywords: Vec<Located<ast::KeywordData>>,
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) -> Result<ast::Expr<Option<Type>>, HashSet<String>> {
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) -> Result<ast::Expr<Option<Type>>, InferenceError> {
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if let Some(spec_call_func) =
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self.try_fold_special_call(location, &func, &mut args, &keywords)?
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{
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