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279 lines
7.6 KiB
Rust
279 lines
7.6 KiB
Rust
#[macro_use]
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extern crate pretty_assertions;
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// #[macro_use]
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// extern crate indoc;
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extern crate bumpalo;
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extern crate roc_mono;
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mod helpers;
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// Test monomorphization
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#[cfg(test)]
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mod test_mono {
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use crate::helpers::{can_expr, infer_expr, test_home, CanExprOut};
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use bumpalo::Bump;
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use roc_collections::all::MutMap;
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use roc_module::ident::TagName::*;
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use roc_module::symbol::{Interns, Symbol};
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use roc_mono::expr::Expr::{self, *};
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use roc_mono::expr::Procs;
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use roc_mono::layout::{Builtin, Layout};
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use roc_types::subs::Subs;
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// HELPERS
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fn compiles_to(src: &str, expected: Expr<'_>) {
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compiles_to_with_interns(src, |_| expected)
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}
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fn compiles_to_with_interns<'a, F>(src: &str, get_expected: F)
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where
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F: FnOnce(Interns) -> Expr<'a>,
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{
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let arena = Bump::new();
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let CanExprOut {
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loc_expr,
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var_store,
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var,
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constraint,
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home,
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mut interns,
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..
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} = can_expr(src);
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let subs = Subs::new(var_store.into());
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let mut unify_problems = Vec::new();
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let (_content, mut subs) = infer_expr(subs, &mut unify_problems, &constraint, var);
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// Compile and add all the Procs before adding main
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let mut procs = Procs::default();
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let mut ident_ids = interns.all_ident_ids.remove(&home).unwrap();
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// assume 64-bit pointers
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let pointer_size = std::mem::size_of::<u64>() as u32;
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// Populate Procs and Subs, and get the low-level Expr from the canonical Expr
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let mono_expr = Expr::new(
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&arena,
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&mut subs,
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loc_expr.value,
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&mut procs,
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home,
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&mut ident_ids,
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pointer_size,
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);
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dbg!(&procs);
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// Put this module's ident_ids back in the interns
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interns.all_ident_ids.insert(home, ident_ids);
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assert_eq!(mono_expr, get_expected(interns));
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}
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#[test]
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fn int_literal() {
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compiles_to("5", Int(5));
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}
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#[test]
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fn float_literal() {
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compiles_to("0.5", Float(0.5));
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}
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#[test]
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fn float_addition() {
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compiles_to(
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"3.0 + 4",
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CallByName(
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Symbol::FLOAT_ADD,
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&[
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(Float(3.0), Layout::Builtin(Builtin::Float64)),
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(Float(4.0), Layout::Builtin(Builtin::Float64)),
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],
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),
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);
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}
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#[test]
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fn int_addition() {
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compiles_to(
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"0xDEADBEEF + 4",
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CallByName(
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Symbol::INT_ADD,
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&[
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(Int(3735928559), Layout::Builtin(Builtin::Int64)),
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(Int(4), Layout::Builtin(Builtin::Int64)),
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],
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),
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);
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}
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#[test]
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fn num_addition() {
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// Default to Int for `Num *`
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compiles_to(
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"3 + 5",
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CallByName(
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Symbol::INT_ADD,
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&[
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(Int(3), Layout::Builtin(Builtin::Int64)),
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(Int(5), Layout::Builtin(Builtin::Int64)),
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],
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),
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);
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}
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#[test]
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fn specialize_closure() {
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compiles_to(
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r#"
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f = \x -> x + 5
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{ x: f 0x4, y: f 3.14 }
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"#,
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{
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use self::Builtin::*;
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use Layout::Builtin;
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let home = test_home();
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let gen_symbol_3 = Interns::from_index(home, 3);
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let gen_symbol_4 = Interns::from_index(home, 4);
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Struct {
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fields: &[
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(
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"x".into(),
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CallByName(gen_symbol_3, &[(Int(4), Builtin(Int64))]),
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),
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(
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"y".into(),
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CallByName(gen_symbol_4, &[(Float(3.14), Builtin(Float64))]),
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),
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],
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layout: Layout::Struct(&[
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("x".into(), Builtin(Int64)),
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("y".into(), Builtin(Float64)),
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]),
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}
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},
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)
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}
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#[test]
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fn bool_literal() {
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let arena = Bump::new();
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compiles_to_with_interns(
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r#"
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x : Bool
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x = True
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x
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"#,
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|interns| {
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let home = test_home();
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let var_x = interns.symbol(home, "x".into());
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let stores = [(
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var_x,
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Layout::Builtin(Builtin::Bool(Global("False".into()), Global("True".into()))),
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Bool(true),
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)];
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let load = Load(var_x);
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Store(arena.alloc(stores), arena.alloc(load))
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},
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);
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}
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#[test]
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fn two_element_enum() {
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let arena = Bump::new();
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compiles_to_with_interns(
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r#"
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x : [ Yes, No ]
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x = No
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x
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"#,
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|interns| {
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let home = test_home();
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let var_x = interns.symbol(home, "x".into());
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let stores = [(
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var_x,
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Layout::Builtin(Builtin::Bool(Global("No".into()), Global("Yes".into()))),
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Bool(false),
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)];
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let load = Load(var_x);
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Store(arena.alloc(stores), arena.alloc(load))
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},
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);
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}
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#[test]
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fn three_element_enum() {
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let arena = Bump::new();
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compiles_to_with_interns(
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r#"
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# this test is brought to you by fruits.com!
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x : [ Apple, Orange, Banana ]
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x = Orange
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x
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"#,
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|interns| {
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let home = test_home();
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let var_x = interns.symbol(home, "x".into());
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let mut fruits = MutMap::default();
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fruits.insert(Global("Banana".into()), 0);
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fruits.insert(Global("Orange".into()), 1);
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fruits.insert(Global("Apple".into()), 2);
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let stores = [(var_x, Layout::Builtin(Builtin::Byte(fruits)), Byte(1))];
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let load = Load(var_x);
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Store(arena.alloc(stores), arena.alloc(load))
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},
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);
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}
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#[test]
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fn set_unique_int_list() {
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compiles_to("List.getUnsafe (List.set [ 12, 9, 7, 3 ] 1 42) 1", {
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CallByName(
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Symbol::LIST_GET_UNSAFE,
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&vec![
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(
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CallByName(
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Symbol::LIST_SET,
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&vec![
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(
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Array {
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elem_layout: Layout::Builtin(Builtin::Int64),
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elems: &vec![Int(12), Int(9), Int(7), Int(3)],
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},
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Layout::Builtin(Builtin::List(&Layout::Builtin(
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Builtin::Int64,
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))),
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),
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(Int(1), Layout::Builtin(Builtin::Int64)),
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(Int(42), Layout::Builtin(Builtin::Int64)),
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],
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),
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Layout::Builtin(Builtin::List(&Layout::Builtin(Builtin::Int64))),
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),
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(Int(1), Layout::Builtin(Builtin::Int64)),
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],
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)
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});
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}
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}
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