// Code that generates a test runner to run all the tests in a crate import std::{option, vec, str}; import syntax::{ast, ast_util}; import syntax::ast_util::*; //import syntax::ast_util::dummy_sp; import syntax::fold; import syntax::print::pprust; import syntax::codemap::span; import front::attr; export modify_for_testing; type node_id_gen = fn() -> ast::node_id; type test = {span: span, path: [ast::ident], ignore: bool}; type test_ctxt = @{next_node_id: node_id_gen, mutable path: [ast::ident], mutable testfns: [test]}; // Traverse the crate, collecting all the test functions, eliding any // existing main functions, and synthesizing a main test harness fn modify_for_testing(crate: @ast::crate) -> @ast::crate { // FIXME: This hackasaurus assumes that 200000 is a safe number to start // generating node_ids at (which is totally not the case). pauls is going // to land a patch that puts parse_sess into session, which will give us // access to the real next node_id. let next_node_id = @mutable 200000; let next_node_id_fn = bind fn (next_node_id: @mutable ast::node_id) -> ast::node_id { let this_node_id = *next_node_id; *next_node_id += 1; ret this_node_id; }(next_node_id); let cx: test_ctxt = @{next_node_id: next_node_id_fn, mutable path: [], mutable testfns: []}; let precursor = {fold_crate: bind fold_crate(cx, _, _), fold_item: bind fold_item(cx, _, _), fold_mod: bind fold_mod(cx, _, _) with *fold::default_ast_fold()}; let fold = fold::make_fold(precursor); let res = @fold.fold_crate(*crate); ret res; } fn fold_mod(_cx: test_ctxt, m: ast::_mod, fld: fold::ast_fold) -> ast::_mod { // Remove any defined main function from the AST so it doesn't clash with // the one we're going to add. FIXME: This is sloppy. Instead we should // have some mechanism to indicate to the translation pass which function // we want to be main. fn nomain(&&item: @ast::item) -> option::t<@ast::item> { alt item.node { ast::item_fn(f, _) { if item.ident == "main" { option::none } else { option::some(item) } } _ { option::some(item) } } } let mod_nomain = {view_items: m.view_items, items: vec::filter_map(nomain, m.items)}; ret fold::noop_fold_mod(mod_nomain, fld); } fn fold_crate(cx: test_ctxt, c: ast::crate_, fld: fold::ast_fold) -> ast::crate_ { let folded = fold::noop_fold_crate(c, fld); // Add a special __test module to the crate that will contain code // generated for the test harness ret {module: add_test_module(cx, folded.module) with folded}; } fn fold_item(cx: test_ctxt, &&i: @ast::item, fld: fold::ast_fold) -> @ast::item { cx.path += [i.ident]; log #fmt["current path: %s", ast_util::path_name_i(cx.path)]; if is_test_fn(i) { log "this is a test function"; let test = {span: i.span, path: cx.path, ignore: is_ignored(i)}; cx.testfns += [test]; log #fmt["have %u test functions", vec::len(cx.testfns)]; } let res = fold::noop_fold_item(i, fld); vec::pop(cx.path); ret res; } fn is_test_fn(i: @ast::item) -> bool { let has_test_attr = vec::len(attr::find_attrs_by_name(i.attrs, "test")) > 0u; fn has_test_signature(i: @ast::item) -> bool { alt i.node { ast::item_fn(f, tps) { let input_cnt = vec::len(f.decl.inputs); let no_output = f.decl.output.node == ast::ty_nil; let tparm_cnt = vec::len(tps); input_cnt == 0u && no_output && tparm_cnt == 0u } _ { false } } } ret has_test_attr && has_test_signature(i); } fn is_ignored(i: @ast::item) -> bool { attr::contains_name(attr::attr_metas(i.attrs), "ignore") } fn add_test_module(cx: test_ctxt, m: ast::_mod) -> ast::_mod { let testmod = mk_test_module(cx); ret {items: m.items + [testmod] with m}; } /* We're going to be building a module that looks more or less like: mod __test { fn main(args: [str]) -> int { std::test::test_main(args, tests()) } fn tests() -> [std::test::test_desc] { ... the list of tests in the crate ... } } */ fn mk_test_module(cx: test_ctxt) -> @ast::item { // A function that generates a vector of test descriptors to feed to the // test runner let testsfn = mk_tests(cx); // The synthesized main function which will call the console test runner // with our list of tests let mainfn = mk_main(cx); let testmod: ast::_mod = {view_items: [], items: [mainfn, testsfn]}; let item_ = ast::item_mod(testmod); let item: ast::item = {ident: "__test", attrs: [], id: cx.next_node_id(), node: item_, span: dummy_sp()}; log #fmt["Synthetic test module:\n%s\n", pprust::item_to_str(@item)]; ret @item; } fn nospan<@T>(t: T) -> ast::spanned { ret {node: t, span: dummy_sp()}; } fn mk_tests(cx: test_ctxt) -> @ast::item { let ret_ty = mk_test_desc_vec_ty(cx); let decl: ast::fn_decl = {inputs: [], output: ret_ty, purity: ast::impure_fn, il: ast::il_normal, cf: ast::return_val, constraints: []}; let proto = ast::proto_fn; // The vector of test_descs for this crate let test_descs = mk_test_desc_vec(cx); let body_: ast::blk_ = default_block([], option::some(test_descs), cx.next_node_id()); let body = nospan(body_); let fn_ = {decl: decl, proto: proto, body: body}; let item_ = ast::item_fn(fn_, []); let item: ast::item = {ident: "tests", attrs: [], id: cx.next_node_id(), node: item_, span: dummy_sp()}; ret @item; } fn empty_fn_ty() -> ast::ty { let proto = ast::proto_fn; let input_ty = []; let ret_ty = @nospan(ast::ty_nil); let cf = ast::return_val; let constrs = []; ret nospan(ast::ty_fn(proto, input_ty, ret_ty, cf, constrs)); } // The ast::ty of [std::test::test_desc] fn mk_test_desc_vec_ty(cx: test_ctxt) -> @ast::ty { let test_desc_ty_path: ast::path = nospan({global: false, idents: ["std", "test", "test_desc"], types: []}); let test_desc_ty: ast::ty = nospan(ast::ty_path(test_desc_ty_path, cx.next_node_id())); let vec_mt: ast::mt = {ty: @test_desc_ty, mut: ast::imm}; ret @nospan(ast::ty_vec(vec_mt)); } fn mk_test_desc_vec(cx: test_ctxt) -> @ast::expr { log #fmt["building test vector from %u tests", vec::len(cx.testfns)]; let descs = []; for test: test in cx.testfns { let test_ = test; // Satisfy alias analysis descs += [mk_test_desc_rec(cx, test_)]; } ret @{id: cx.next_node_id(), node: ast::expr_vec(descs, ast::imm), span: dummy_sp()}; } fn mk_test_desc_rec(cx: test_ctxt, test: test) -> @ast::expr { let span = test.span; let path = test.path; log #fmt["encoding %s", ast_util::path_name_i(path)]; let name_lit: ast::lit = nospan(ast::lit_str(ast_util::path_name_i(path))); let name_expr: ast::expr = {id: cx.next_node_id(), node: ast::expr_lit(@name_lit), span: span}; let name_field: ast::field = nospan({mut: ast::imm, ident: "name", expr: @name_expr}); let fn_path: ast::path = nospan({global: false, idents: path, types: []}); let fn_expr: ast::expr = {id: cx.next_node_id(), node: ast::expr_path(fn_path), span: span}; let fn_field: ast::field = nospan({mut: ast::imm, ident: "fn", expr: @fn_expr}); let ignore_lit: ast::lit = nospan(ast::lit_bool(test.ignore)); let ignore_expr: ast::expr = {id: cx.next_node_id(), node: ast::expr_lit(@ignore_lit), span: span}; let ignore_field: ast::field = nospan({mut: ast::imm, ident: "ignore", expr: @ignore_expr}); let desc_rec_: ast::expr_ = ast::expr_rec([name_field, fn_field, ignore_field], option::none); let desc_rec: ast::expr = {id: cx.next_node_id(), node: desc_rec_, span: span}; ret @desc_rec; } fn mk_main(cx: test_ctxt) -> @ast::item { let args_mt: ast::mt = {ty: @nospan(ast::ty_str), mut: ast::imm}; let args_ty: ast::ty = nospan(ast::ty_vec(args_mt)); let args_arg: ast::arg = {mode: ast::by_val, ty: @args_ty, ident: "args", id: cx.next_node_id()}; let ret_ty = nospan(ast::ty_nil); let decl: ast::fn_decl = {inputs: [args_arg], output: @ret_ty, purity: ast::impure_fn, il: ast::il_normal, cf: ast::return_val, constraints: []}; let proto = ast::proto_fn; let test_main_call_expr = mk_test_main_call(cx); let body_: ast::blk_ = default_block([], option::some(test_main_call_expr), cx.next_node_id()); let body = {node: body_, span: dummy_sp()}; let fn_ = {decl: decl, proto: proto, body: body}; let item_ = ast::item_fn(fn_, []); let item: ast::item = {ident: "main", attrs: [], id: cx.next_node_id(), node: item_, span: dummy_sp()}; ret @item; } fn mk_test_main_call(cx: test_ctxt) -> @ast::expr { // Get the args passed to main so we can pass the to test_main let args_path: ast::path = nospan({global: false, idents: ["args"], types: []}); let args_path_expr_: ast::expr_ = ast::expr_path(args_path); let args_path_expr: ast::expr = {id: cx.next_node_id(), node: args_path_expr_, span: dummy_sp()}; // Call __test::test to generate the vector of test_descs let test_path: ast::path = nospan({global: false, idents: ["tests"], types: []}); let test_path_expr_: ast::expr_ = ast::expr_path(test_path); let test_path_expr: ast::expr = {id: cx.next_node_id(), node: test_path_expr_, span: dummy_sp()}; let test_call_expr_: ast::expr_ = ast::expr_call(@test_path_expr, []); let test_call_expr: ast::expr = {id: cx.next_node_id(), node: test_call_expr_, span: dummy_sp()}; // Call std::test::test_main let test_main_path: ast::path = nospan({global: false, idents: ["std", "test", "test_main"], types: []}); let test_main_path_expr_: ast::expr_ = ast::expr_path(test_main_path); let test_main_path_expr: ast::expr = {id: cx.next_node_id(), node: test_main_path_expr_, span: dummy_sp()}; let test_main_call_expr_: ast::expr_ = ast::expr_call(@test_main_path_expr, [@args_path_expr, @test_call_expr]); let test_main_call_expr: ast::expr = {id: cx.next_node_id(), node: test_main_call_expr_, span: dummy_sp()}; ret @test_main_call_expr; } // Local Variables: // mode: rust // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // compile-command: "make -k -C $RBUILD 2>&1 | sed -e 's/\\/x\\//x:\\//g'"; // End: