use libloading::Library; use roc_build::link::{link, LinkType}; use roc_builtins::bitcode; use roc_collections::all::MutMap; use roc_load::Threading; use roc_region::all::LineInfo; use tempfile::tempdir; #[allow(unused_imports)] use roc_mono::ir::pretty_print_ir_symbols; #[allow(dead_code)] fn promote_expr_to_module(src: &str) -> String { let mut buffer = String::from("app \"test\" provides [main] to \"./platform\"\n\nmain =\n"); for line in src.lines() { // indent the body! buffer.push_str(" "); buffer.push_str(line); buffer.push('\n'); } buffer } #[allow(dead_code)] pub fn helper( arena: &bumpalo::Bump, src: &str, _leak: bool, lazy_literals: bool, ) -> (String, Vec, Library) { use std::path::{Path, PathBuf}; let dir = tempdir().unwrap(); let filename = PathBuf::from("Test.roc"); let src_dir = Path::new("fake/test/path"); let app_o_file = dir.path().join("app.o"); let module_src; let temp; if src.starts_with("app") { // this is already a module module_src = src; } else { // this is an expression, promote it to a module temp = promote_expr_to_module(src); module_src = &temp; } let loaded = roc_load::load_and_monomorphize_from_str( arena, filename, module_src, src_dir, Default::default(), roc_target::TargetInfo::default_x86_64(), roc_reporting::report::RenderTarget::ColorTerminal, Threading::Single, ); let mut loaded = loaded.expect("failed to load module"); use roc_load::MonomorphizedModule; let MonomorphizedModule { module_id, procedures, mut interns, exposed_to_host, .. } = loaded; // You can comment and uncomment this block out to get more useful information // while you're working on the dev backend! { // println!("=========== Procedures =========="); // if pretty_print_ir_symbols() { // println!(""); // for proc in procedures.values() { // println!("{}", proc.to_pretty(200)); // } // } else { // println!("{:?}", procedures.values()); // } // println!("=================================\n"); // println!("=========== Interns =========="); // println!("{:?}", interns); // println!("=================================\n"); // println!("=========== Exposed =========="); // println!("{:?}", exposed_to_host); // println!("=================================\n"); } debug_assert_eq!(exposed_to_host.values.len(), 1); let main_fn_symbol = loaded.entry_point.symbol; let main_fn_layout = loaded.entry_point.layout; let mut layout_ids = roc_mono::layout::LayoutIds::default(); let main_fn_name = layout_ids .get_toplevel(main_fn_symbol, &main_fn_layout) .to_exposed_symbol_string(main_fn_symbol, &interns); let mut lines = Vec::new(); // errors whose reporting we delay (so we can see that code gen generates runtime errors) let mut delayed_errors = Vec::new(); for (home, (module_path, src)) in loaded.sources { use roc_reporting::report::{can_problem, type_problem, RocDocAllocator, DEFAULT_PALETTE}; let can_problems = loaded.can_problems.remove(&home).unwrap_or_default(); let type_problems = loaded.type_problems.remove(&home).unwrap_or_default(); let error_count = can_problems.len() + type_problems.len(); if error_count == 0 { continue; } let line_info = LineInfo::new(&src); let src_lines: Vec<&str> = src.split('\n').collect(); let palette = DEFAULT_PALETTE; // Report parsing and canonicalization problems let alloc = RocDocAllocator::new(&src_lines, home, &interns); use roc_problem::can::Problem::*; for problem in can_problems.into_iter() { // Ignore "unused" problems match problem { UnusedDef(_, _) | UnusedArgument(_, _, _) | UnusedImport(_, _) => { delayed_errors.push(problem); continue; } _ => { let report = can_problem(&alloc, &line_info, module_path.clone(), problem); let mut buf = String::new(); report.render_color_terminal(&mut buf, &alloc, &palette); lines.push(buf); } } } for problem in type_problems { if let Some(report) = type_problem(&alloc, &line_info, module_path.clone(), problem) { let mut buf = String::new(); report.render_color_terminal(&mut buf, &alloc, &palette); lines.push(buf); } } } if !lines.is_empty() { println!("{}", lines.join("\n")); assert_eq!(0, 1, "Mistakes were made"); } let env = roc_gen_dev::Env { arena, module_id, exposed_to_host: exposed_to_host.values.keys().copied().collect(), lazy_literals, generate_allocators: true, // Needed for testing, since we don't have a platform }; let target = target_lexicon::Triple::host(); let module_object = roc_gen_dev::build_module(&env, &mut interns, &target, procedures); let module_out = module_object .write() .expect("failed to build output object"); std::fs::write(&app_o_file, module_out).expect("failed to write object to file"); // std::fs::copy(&app_o_file, "/tmp/app.o").unwrap(); let (mut child, dylib_path) = link( &target, app_o_file.clone(), // Long term we probably want a smarter way to link in zig builtins. // With the current method all methods are kept and it adds about 100k to all outputs. &[ app_o_file.to_str().unwrap(), bitcode::BUILTINS_HOST_OBJ_PATH, ], LinkType::Dylib, ) .expect("failed to link dynamic library"); child.wait().unwrap(); // Load the dylib let path = dylib_path.as_path().to_str().unwrap(); // std::fs::copy(&path, "/tmp/libapp.so").unwrap(); let lib = unsafe { Library::new(path) }.expect("failed to load shared library"); (main_fn_name, delayed_errors, lib) } #[allow(unused_macros)] macro_rules! assert_evals_to { ($src:expr, $expected:expr, $ty:ty) => {{ assert_evals_to!($src, $expected, $ty, (|val| val)); }}; ($src:expr, $expected:expr, $ty:ty, $transform:expr) => { // Same as above, except with an additional transformation argument. { assert_evals_to!($src, $expected, $ty, $transform, true); } }; ($src:expr, $expected:expr, $ty:ty, $transform:expr, $leak:expr) => { // Run both with and without lazy literal optimization. { assert_evals_to!($src, $expected, $ty, $transform, $leak, false); } { assert_evals_to!($src, $expected, $ty, $transform, $leak, true); } }; ($src:expr, $expected:expr, $ty:ty, $transform:expr, $leak:expr, $lazy_literals:expr) => { use bumpalo::Bump; use roc_gen_dev::run_jit_function_raw; let arena = Bump::new(); let (main_fn_name, errors, lib) = $crate::helpers::dev::helper(&arena, $src, $leak, $lazy_literals); let transform = |success| { let expected = $expected; let given = $transform(success); assert_eq!(&given, &expected); }; run_jit_function_raw!(lib, main_fn_name, $ty, transform, errors) }; } #[allow(unused_macros)] macro_rules! assert_expect_failed { ($src:expr, $expected:expr, $ty:ty, $failures:expr) => {{ use bumpalo::Bump; use roc_gen_dev::run_jit_function_raw; let stdlib = roc_builtins::std::standard_stdlib(); let arena = Bump::new(); let (main_fn_name, errors, lib) = $crate::helpers::dev::helper(&arena, $src, stdlib, true, true); let transform = |success| { let expected = $expected; assert_eq!(&success, &expected); }; run_jit_function_raw!(lib, main_fn_name, $ty, transform, errors); }}; } #[allow(unused_imports)] pub(crate) use assert_evals_to; #[allow(unused_imports)] pub(crate) use assert_expect_failed;