#[macro_use] extern crate pretty_assertions; // #[macro_use] // extern crate indoc; extern crate bumpalo; extern crate roc_mono; mod helpers; // Test monomorphization #[cfg(test)] mod test_mono { use crate::helpers::{can_expr, infer_expr, CanExprOut}; use bumpalo::Bump; use roc_collections::all::MutMap; use roc_module::symbol::Symbol; use roc_mono::expr::Expr::{self, *}; use roc_mono::layout::{Builtin, Layout}; use roc_types::subs::Subs; // HELPERS fn compiles_to(src: &str, expected: Expr<'_>) { let arena = Bump::new(); let CanExprOut { loc_expr, var_store, var, constraint, home, mut interns, .. } = can_expr(src); let subs = Subs::new(var_store.into()); let mut unify_problems = Vec::new(); let (_content, subs) = infer_expr(subs, &mut unify_problems, &constraint, var); // Compile and add all the Procs before adding main let mut procs = MutMap::default(); let mut ident_ids = interns.all_ident_ids.remove(&home).unwrap(); // Populate Procs and Subs, and get the low-level Expr from the canonical Expr let mono_expr = Expr::new( &arena, &subs, loc_expr.value, &mut procs, home, &mut ident_ids, ); assert_eq!(mono_expr, expected); } #[test] fn int_literal() { compiles_to("5", Int(5)); } #[test] fn float_literal() { compiles_to("0.5", Float(0.5)); } #[test] fn set_unique_int_list() { compiles_to( "List.getUnsafe (List.set [ 12, 9, 7, 3 ] 1 42) 1", CallByName( Symbol::LIST_GET_UNSAFE, &vec![ ( CallByName( Symbol::LIST_SET, &vec![ ( Array { elem_layout: Layout::Builtin(Builtin::Int64), elems: &vec![Int(12), Int(9), Int(7), Int(3)], }, Layout::Builtin(Builtin::List(&Layout::Builtin( Builtin::Int64, ))), ), (Int(1), Layout::Builtin(Builtin::Int64)), (Int(42), Layout::Builtin(Builtin::Int64)), ], ), Layout::Builtin(Builtin::List(&Layout::Builtin(Builtin::Int64))), ), (Int(1), Layout::Builtin(Builtin::Int64)), ], ), ); } }