const bun = @import("../global.zig"); const string = bun.string; const Output = bun.Output; const Global = bun.Global; const Environment = bun.Environment; const strings = bun.strings; const MutableString = bun.MutableString; const stringZ = bun.stringZ; const default_allocator = bun.default_allocator; const C = bun.C; const std = @import("std"); const lex = @import("../js_lexer.zig"); const logger = @import("../logger.zig"); const FileSystem = @import("../fs.zig").FileSystem; const PathName = @import("../fs.zig").PathName; const options = @import("../options.zig"); const js_parser = @import("../js_parser.zig"); const json_parser = @import("../json_parser.zig"); const js_printer = @import("../js_printer.zig"); const js_ast = @import("../js_ast.zig"); const linker = @import("../linker.zig"); const panicky = @import("../panic_handler.zig"); const sync = @import("../sync.zig"); const Api = @import("../api/schema.zig").Api; const resolve_path = @import("../resolver/resolve_path.zig"); const configureTransformOptionsForBun = @import("../bun.js/config.zig").configureTransformOptionsForBun; const Command = @import("../cli.zig").Command; const bundler = @import("../bundler.zig"); const NodeModuleBundle = @import("../node_module_bundle.zig").NodeModuleBundle; const DotEnv = @import("../env_loader.zig"); const which = @import("../which.zig").which; const Run = @import("../bun_js.zig").Run; var path_buf: [bun.MAX_PATH_BYTES]u8 = undefined; var path_buf2: [bun.MAX_PATH_BYTES]u8 = undefined; const PathString = bun.PathString; const is_bindgen = std.meta.globalOption("bindgen", bool) orelse false; const HTTPThread = @import("http").HTTPThread; const JSC = @import("javascript_core"); const Jest = JSC.Jest; const TestRunner = JSC.Jest.TestRunner; const Test = TestRunner.Test; const NetworkThread = @import("http").NetworkThread; const uws = @import("uws"); pub const CommandLineReporter = struct { jest: TestRunner, callback: TestRunner.Callback, last_dot: u32 = 0, summary: Summary = Summary{}, prev_file: u64 = 0, failures_to_repeat_buf: std.ArrayListUnmanaged(u8) = .{}, pub const Summary = struct { pass: u32 = 0, expectations: u32 = 0, fail: u32 = 0, }; const DotColorMap = std.EnumMap(TestRunner.Test.Status, string); const dots: DotColorMap = brk: { var map: DotColorMap = DotColorMap.init(.{}); map.put(TestRunner.Test.Status.pending, Output.RESET ++ Output.ED ++ Output.color_map.get("yellow").? ++ "." ++ Output.RESET); map.put(TestRunner.Test.Status.pass, Output.RESET ++ Output.ED ++ Output.color_map.get("green").? ++ "." ++ Output.RESET); map.put(TestRunner.Test.Status.fail, Output.RESET ++ Output.ED ++ Output.color_map.get("red").? ++ "." ++ Output.RESET); break :brk map; }; pub fn handleUpdateCount(cb: *TestRunner.Callback, _: u32, _: u32) void { _ = cb; } pub fn handleTestStart(_: *TestRunner.Callback, _: Test.ID) void { // var this: *CommandLineReporter = @fieldParentPtr(CommandLineReporter, "callback", cb); } fn printTestLine(label: string, parent: ?*Jest.DescribeScope, writer: anytype) void { var scopes_stack = std.BoundedArray(*Jest.DescribeScope, 64).init(0) catch unreachable; var parent_ = parent; while (parent_) |scope| { scopes_stack.append(scope) catch break; parent_ = scope.parent; } var scopes: []*Jest.DescribeScope = scopes_stack.slice(); const display_label = if (label.len > 0) label else "test"; if (Output.enable_ansi_colors_stderr) { for (scopes) |scope| { if (scope.label.len == 0) continue; writer.writeAll(" ") catch unreachable; writer.print(comptime Output.prettyFmt("", true), .{}) catch unreachable; writer.writeAll(scope.label) catch unreachable; writer.print(comptime Output.prettyFmt("", true), .{}) catch unreachable; writer.writeAll(" >") catch unreachable; } } else { for (scopes) |scope| { if (scope.label.len == 0) continue; writer.writeAll(" ") catch unreachable; writer.writeAll(scope.label) catch unreachable; writer.writeAll(" >") catch unreachable; } } if (Output.enable_ansi_colors_stderr) writer.print(comptime Output.prettyFmt(" {any}", true), .{display_label}) catch unreachable else writer.print(comptime Output.prettyFmt(" {any}", false), .{display_label}) catch unreachable; writer.writeAll("\n") catch unreachable; } pub fn handleTestPass(cb: *TestRunner.Callback, id: Test.ID, _: string, label: string, expectations: u32, parent: ?*Jest.DescribeScope) void { var writer_: std.fs.File.Writer = Output.errorWriter(); var buffered_writer = std.io.bufferedWriter(writer_); var writer = buffered_writer.writer(); defer buffered_writer.flush() catch unreachable; var this: *CommandLineReporter = @fieldParentPtr(CommandLineReporter, "callback", cb); if (Output.enable_ansi_colors_stderr) writer.print(comptime Output.prettyFmt("", true), .{}) catch unreachable else writer.print(comptime Output.prettyFmt("", false), .{}) catch unreachable; printTestLine(label, parent, writer); this.jest.tests.items(.status)[id] = TestRunner.Test.Status.pass; this.summary.pass += 1; this.summary.expectations += expectations; } pub fn handleTestFail(cb: *TestRunner.Callback, id: Test.ID, _: string, label: string, expectations: u32, parent: ?*Jest.DescribeScope) void { var writer_: std.fs.File.Writer = Output.errorWriter(); var this: *CommandLineReporter = @fieldParentPtr(CommandLineReporter, "callback", cb); // when the tests fail, we want to repeat the failures at the end // so that you can see them better when there are lots of tests that ran const initial_length = this.failures_to_repeat_buf.items.len; var writer = this.failures_to_repeat_buf.writer(bun.default_allocator); if (Output.enable_ansi_colors_stderr) writer.print(comptime Output.prettyFmt("", true), .{}) catch unreachable else writer.print(comptime Output.prettyFmt("", false), .{}) catch unreachable; printTestLine(label, parent, writer); writer_.writeAll(this.failures_to_repeat_buf.items[initial_length..]) catch unreachable; Output.flush(); // this.updateDots(); this.summary.fail += 1; this.summary.expectations += expectations; this.jest.tests.items(.status)[id] = TestRunner.Test.Status.fail; } }; const Scanner = struct { const Fifo = std.fifo.LinearFifo(ScanEntry, .Dynamic); exclusion_names: []const []const u8 = &.{}, filter_names: []const []const u8 = &.{}, dirs_to_scan: Fifo, results: std.ArrayList(bun.PathString), fs: *FileSystem, open_dir_buf: [bun.MAX_PATH_BYTES]u8 = undefined, scan_dir_buf: [bun.MAX_PATH_BYTES]u8 = undefined, options: *options.BundleOptions, has_iterated: bool = false, const ScanEntry = struct { relative_dir: bun.StoredFileDescriptorType, dir_path: string, name: strings.StringOrTinyString, }; fn readDirWithName(this: *Scanner, name: string, handle: ?std.fs.Dir) !*FileSystem.RealFS.EntriesOption { return try this.fs.fs.readDirectoryWithIterator(name, handle, *Scanner, this); } pub fn scan(this: *Scanner, path_literal: string) void { var parts = &[_]string{ this.fs.top_level_dir, path_literal }; const path = this.fs.absBuf(parts, &this.scan_dir_buf); var root = this.readDirWithName(path, null) catch |err| { if (err == error.NotDir) { if (this.isTestFile(path)) { this.results.append(bun.PathString.init(this.fs.filename_store.append(@TypeOf(path), path) catch unreachable)) catch unreachable; } } return; }; // you typed "." and we already scanned it if (!this.has_iterated) { if (@as(FileSystem.RealFS.EntriesOption.Tag, root.*) == .entries) { var iter = root.entries.data.iterator(); const fd = root.entries.fd; while (iter.next()) |entry| { this.next(entry.value_ptr.*, fd); } } } while (this.dirs_to_scan.readItem()) |entry| { var dir = std.fs.Dir{ .fd = entry.relative_dir }; var parts2 = &[_]string{ entry.dir_path, entry.name.slice() }; var path2 = this.fs.absBuf(parts2, &this.open_dir_buf); this.open_dir_buf[path2.len] = 0; var pathZ = this.open_dir_buf[path2.len - entry.name.slice().len .. path2.len :0]; var child_dir = dir.openIterableDirZ(pathZ, .{}) catch continue; path2 = this.fs.dirname_store.append(string, path2) catch unreachable; FileSystem.setMaxFd(child_dir.fd); _ = this.readDirWithName(path2, child_dir) catch continue; } } const test_name_suffixes = [_]string{ ".test", "_test", ".spec", "_spec", }; pub fn couldBeTestFile(this: *Scanner, name: string) bool { const extname = std.fs.path.extension(name); if (!this.options.loader(extname).isJavaScriptLike()) return false; const name_without_extension = name[0 .. name.len - extname.len]; inline for (test_name_suffixes) |suffix| { if (strings.endsWithComptime(name_without_extension, suffix)) return true; } return false; } pub fn doesAbsolutePathMatchFilter(this: *Scanner, name: string) bool { if (this.filter_names.len == 0) return true; for (this.filter_names) |filter_name| { if (strings.contains(name, filter_name)) return true; } return false; } pub fn isTestFile(this: *Scanner, name: string) bool { return this.couldBeTestFile(name) and this.doesAbsolutePathMatchFilter(name); } pub fn next(this: *Scanner, entry: *FileSystem.Entry, fd: bun.StoredFileDescriptorType) void { const name = entry.base_lowercase(); this.has_iterated = true; switch (entry.kind(&this.fs.fs)) { .dir => { if ((name.len > 0 and name[0] == '.') or strings.eqlComptime(name, "node_modules")) { return; } for (this.exclusion_names) |exclude_name| { if (strings.eql(exclude_name, name)) return; } this.dirs_to_scan.writeItem(.{ .relative_dir = fd, .name = entry.base_, .dir_path = entry.dir, }) catch unreachable; }, .file => { // already seen it! if (!entry.abs_path.isEmpty()) return; if (!this.couldBeTestFile(name)) return; var parts = &[_]string{ entry.dir, entry.base() }; const path = this.fs.absBuf(parts, &this.open_dir_buf); if (!this.doesAbsolutePathMatchFilter(path)) return; entry.abs_path = bun.PathString.init(this.fs.filename_store.append(@TypeOf(path), path) catch unreachable); this.results.append(entry.abs_path) catch unreachable; }, } } }; pub const TestCommand = struct { pub const name = "wiptest"; pub fn exec(ctx: Command.Context) !void { if (comptime is_bindgen) unreachable; var env_loader = brk: { var map = try ctx.allocator.create(DotEnv.Map); map.* = DotEnv.Map.init(ctx.allocator); var loader = try ctx.allocator.create(DotEnv.Loader); loader.* = DotEnv.Loader.init(map, ctx.allocator); break :brk loader; }; JSC.C.JSCInitialize(); NetworkThread.init() catch {}; HTTPThread.init() catch {}; var reporter = try ctx.allocator.create(CommandLineReporter); reporter.* = CommandLineReporter{ .jest = TestRunner{ .allocator = ctx.allocator, .log = ctx.log, .callback = undefined, }, .callback = undefined, }; reporter.callback = TestRunner.Callback{ .onUpdateCount = CommandLineReporter.handleUpdateCount, .onTestStart = CommandLineReporter.handleTestStart, .onTestPass = CommandLineReporter.handleTestPass, .onTestFail = CommandLineReporter.handleTestFail, }; reporter.jest.callback = &reporter.callback; Jest.Jest.runner = &reporter.jest; js_ast.Expr.Data.Store.create(default_allocator); js_ast.Stmt.Data.Store.create(default_allocator); var vm = try JSC.VirtualMachine.init(ctx.allocator, ctx.args, null, ctx.log, env_loader); vm.argv = ctx.passthrough; try vm.bundler.configureDefines(); vm.bundler.options.rewrite_jest_for_tests = true; if (vm.bundler.env.map.get("BUN_OVERRIDE_MODULE_PATH")) |override_path| { if (override_path.len > 0) { vm.load_builtins_from_path = override_path; } } vm.is_main_thread = true; JSC.VirtualMachine.is_main_thread_vm = true; var scanner = Scanner{ .dirs_to_scan = Scanner.Fifo.init(ctx.allocator), .options = &vm.bundler.options, .fs = vm.bundler.fs, .filter_names = ctx.positionals[1..], .results = std.ArrayList(PathString).init(ctx.allocator), }; scanner.scan(scanner.fs.top_level_dir); scanner.dirs_to_scan.deinit(); const test_files = scanner.results.toOwnedSlice(); if (test_files.len > 0) { // vm.bundler.fs.fs.readDirectory(_dir: string, _handle: ?std.fs.Dir) runAllTests(reporter, vm, test_files, ctx.allocator); } if (reporter.summary.pass > 20 and reporter.summary.fail > 0) { Output.prettyError("\n{d} tests failed:\n", .{reporter.summary.fail}); Output.flush(); var error_writer = Output.errorWriter(); error_writer.writeAll(reporter.failures_to_repeat_buf.items) catch unreachable; } Output.flush(); Output.prettyError("\n", .{}); if (reporter.summary.pass > 0) { Output.prettyError("", .{}); } Output.prettyError(" {d:5>} pass\n", .{reporter.summary.pass}); if (reporter.summary.fail > 0) { Output.prettyError("", .{}); } else { Output.prettyError("", .{}); } Output.prettyError(" {d:5>} fail\n", .{reporter.summary.fail}); if (reporter.summary.expectations > 0) Output.prettyError(" {d:5>} expect() calls\n", .{reporter.summary.expectations}); Output.prettyError( \\ Ran {d} tests across {d} files , .{ reporter.summary.fail + reporter.summary.pass, test_files.len, }); Output.printStartEnd(ctx.start_time, std.time.nanoTimestamp()); Output.prettyError("\n", .{}); Output.flush(); if (reporter.summary.fail > 0) { Global.exit(1); } } pub fn runAllTests( reporter_: *CommandLineReporter, vm_: *JSC.VirtualMachine, files_: []const PathString, allocator_: std.mem.Allocator, ) void { const Context = struct { reporter: *CommandLineReporter, vm: *JSC.VirtualMachine, files: []const PathString, allocator: std.mem.Allocator, pub fn begin(this: *@This()) void { var reporter = this.reporter; var vm = this.vm; var files = this.files; var allocator = this.allocator; std.debug.assert(files.len > 0); if (files.len > 1) { for (files[0 .. files.len - 1]) |file_name| { TestCommand.run(reporter, vm, file_name.slice(), allocator) catch {}; Global.mimalloc_cleanup(false); } } TestCommand.run(reporter, vm, files[files.len - 1].slice(), allocator) catch {}; } }; vm_.eventLoop().ensureWaker(); var ctx = Context{ .reporter = reporter_, .vm = vm_, .files = files_, .allocator = allocator_ }; vm_.runWithAPILock(Context, &ctx, Context.begin); } fn timerNoop(_: *uws.Timer) callconv(.C) void {} pub fn run( reporter: *CommandLineReporter, vm: *JSC.VirtualMachine, file_name: string, _: std.mem.Allocator, ) !void { defer { js_ast.Expr.Data.Store.reset(); js_ast.Stmt.Data.Store.reset(); if (vm.log.errors > 0) { if (Output.enable_ansi_colors) { vm.log.printForLogLevelWithEnableAnsiColors(Output.errorWriter(), true) catch {}; } else { vm.log.printForLogLevelWithEnableAnsiColors(Output.errorWriter(), false) catch {}; } vm.log.msgs.clearRetainingCapacity(); vm.log.errors = 0; } Output.flush(); } var file_start = reporter.jest.files.len; var resolution = try vm.bundler.resolveEntryPoint(file_name); vm.clearEntryPoint(); Output.prettyErrorln("\n{any}:\n", .{resolution.path_pair.primary.name.filename}); Output.flush(); var promise = try vm.loadEntryPoint(resolution.path_pair.primary.text); switch (promise.status(vm.global.vm())) { .Rejected => { var result = promise.result(vm.global.vm()); vm.runErrorHandler(result, null); return; }, else => {}, } { vm.global.vm().drainMicrotasks(); var count = vm.unhandled_error_counter; vm.global.handleRejectedPromises(); while (vm.unhandled_error_counter > count) { count = vm.unhandled_error_counter; vm.global.vm().drainMicrotasks(); vm.global.handleRejectedPromises(); } vm.global.vm().doWork(); } var modules: []*Jest.DescribeScope = reporter.jest.files.items(.module_scope)[file_start..]; for (modules) |module| { vm.onUnhandledRejectionCtx = null; vm.onUnhandledRejection = Jest.TestRunnerTask.onUnhandledRejection; module.runTests(JSC.JSValue.zero, vm.global); vm.eventLoop().tick(); const initial_unhandled_counter = vm.unhandled_error_counter; while (vm.active_tasks > 0 and vm.unhandled_error_counter == initial_unhandled_counter) { if (!Jest.Jest.runner.?.has_pending_tests) Jest.Jest.runner.?.drain(); vm.eventLoop().tick(); while (Jest.Jest.runner.?.has_pending_tests) : (vm.eventLoop().tick()) { vm.eventLoop().tick(); if (!Jest.Jest.runner.?.has_pending_tests) break; vm.eventLoop().autoTick(); } } _ = vm.global.vm().runGC(false); } vm.global.vm().clearMicrotaskCallback(); vm.global.handleRejectedPromises(); } };