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bun.sh/src/resolver/resolver.zig

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usingnamespace @import("../global.zig");
const ast = @import("../import_record.zig");
const logger = @import("../logger.zig");
const options = @import("../options.zig");
const Fs = @import("../fs.zig");
const std = @import("std");
const cache = @import("../cache.zig");
const sync = @import("../sync.zig");
const TSConfigJSON = @import("./tsconfig_json.zig").TSConfigJSON;
const PackageJSON = @import("./package_json.zig").PackageJSON;
const MacroRemap = @import("./package_json.zig").MacroMap;
const ESModule = @import("./package_json.zig").ESModule;
const BrowserMap = @import("./package_json.zig").BrowserMap;
const CacheSet = cache.Set;
usingnamespace @import("./data_url.zig");
pub const DirInfo = @import("./dir_info.zig");
const HTTPWatcher = if (isTest) void else @import("../http.zig").Watcher;
const Wyhash = std.hash.Wyhash;
const ResolvePath = @import("./resolve_path.zig");
const NodeFallbackModules = @import("../node_fallbacks.zig");
const Mutex = @import("../lock.zig").Lock;
const StringBoolMap = std.StringHashMap(bool);
const allocators = @import("../allocators.zig");
const Path = Fs.Path;
const NodeModuleBundle = @import("../node_module_bundle.zig").NodeModuleBundle;
pub fn isPackagePath(path: string) bool {
// this could probably be flattened into something more optimized
return path[0] != '/' and !strings.startsWith(path, "./") and !strings.startsWith(path, "../") and !strings.eql(path, ".") and !strings.eql(path, "..");
}
pub const SideEffectsData = struct {
source: *logger.Source,
range: logger.Range,
// If true, "sideEffects" was an array. If false, "sideEffects" was false.
is_side_effects_array_in_json: bool = false,
};
pub const TemporaryBuffer = struct {
pub threadlocal var ExtensionPathBuf: [512]u8 = undefined;
pub threadlocal var TSConfigMatchStarBuf: [512]u8 = undefined;
pub threadlocal var TSConfigMatchPathBuf: [512]u8 = undefined;
pub threadlocal var TSConfigMatchFullBuf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
pub threadlocal var TSConfigMatchFullBuf2: [std.fs.MAX_PATH_BYTES]u8 = undefined;
};
pub const PathPair = struct {
primary: Path,
secondary: ?Path = null,
pub const Iter = struct {
index: u2,
ctx: *PathPair,
pub fn next(i: *Iter) ?*Path {
const ind = i.index;
i.index += 1;
switch (ind) {
0 => return &i.ctx.primary,
1 => return if (i.ctx.secondary) |*sec| sec else null,
else => return null,
}
}
};
pub fn iter(p: *PathPair) Iter {
return Iter{ .ctx = p, .index = 0 };
}
};
pub const Result = struct {
path_pair: PathPair,
jsx: options.JSX.Pragma = options.JSX.Pragma{},
package_json: ?*PackageJSON = null,
is_external: bool = false,
// This is true when the package was loaded from within the node_modules directory.
is_from_node_modules: bool = false,
diff_case: ?Fs.FileSystem.Entry.Lookup.DifferentCase = null,
// If present, any ES6 imports to this file can be considered to have no side
// effects. This means they should be removed if unused.
primary_side_effects_data: ?SideEffectsData = null,
// If true, the class field transform should use Object.defineProperty().
use_define_for_class_fields_ts: ?bool = null,
// If true, unused imports are retained in TypeScript code. This matches the
// behavior of the "importsNotUsedAsValues" field in "tsconfig.json" when the
// value is not "remove".
preserve_unused_imports_ts: bool = false,
// This is the "type" field from "package.json"
module_type: options.ModuleType = options.ModuleType.unknown,
debug_meta: ?DebugMeta = null,
dirname_fd: StoredFileDescriptorType = 0,
file_fd: StoredFileDescriptorType = 0,
import_kind: ast.ImportKind = undefined,
pub fn getMacroRemappings(this: *const Result) MacroRemap {
const pkg = this.package_json orelse return MacroRemap{};
return pkg.macros;
}
pub fn path(this: *Result) ?*Path {
if (!this.path_pair.primary.is_disabled)
return &this.path_pair.primary;
if (this.path_pair.secondary) |*second| {
if (!second.is_disabled) return second;
}
return null;
}
pub fn pathConst(this: *const Result) ?*const Path {
if (!this.path_pair.primary.is_disabled)
return &this.path_pair.primary;
if (this.path_pair.secondary) |*second| {
if (!second.is_disabled) return second;
}
return null;
}
// remember: non-node_modules can have package.json
// checking package.json may not be relevant
pub fn isLikelyNodeModule(this: *const Result) bool {
const path_ = this.pathConst() orelse return false;
return this.is_from_node_modules or strings.indexOf(path_.text, "/node_modules/") != null;
}
// Most NPM modules are CommonJS
// If unspecified, assume CommonJS.
// If internal app code, assume ESM.
pub fn shouldAssumeCommonJS(r: *const Result, import_record: *const ast.ImportRecord) bool {
if (import_record.kind == .require or import_record.kind == .require_resolve or r.module_type == .cjs) {
return true;
}
if (r.module_type == .esm) {
return false;
}
// If we rely just on isPackagePath, we mess up tsconfig.json baseUrl paths.
return r.isLikelyNodeModule();
}
pub const DebugMeta = struct {
notes: std.ArrayList(logger.Data),
suggestion_text: string = "",
suggestion_message: string = "",
pub fn init(allocator: *std.mem.Allocator) DebugMeta {
return DebugMeta{ .notes = std.ArrayList(logger.Data).init(allocator) };
}
pub fn logErrorMsg(m: *DebugMeta, log: *logger.Log, _source: ?*const logger.Source, r: logger.Range, comptime fmt: string, args: anytype) !void {
if (_source != null and m.suggestion_message.len > 0) {
const data = logger.rangeData(_source.?, r, m.suggestion_message);
data.location.?.suggestion = m.suggestion_text;
try m.notes.append(data);
}
try log.addMsg(Msg{
.kind = .err,
.data = logger.rangeData(_source, r, std.fmt.allocPrint(m.notes.allocator, fmt, args)),
.notes = m.toOwnedSlice(),
});
}
};
pub fn hash(this: *const Result, root_dir: string, loader: options.Loader) u32 {
const module = this.path_pair.primary.text;
const node_module_root = std.fs.path.sep_str ++ "node_modules" ++ std.fs.path.sep_str;
if (strings.lastIndexOf(module, node_module_root)) |end_| {
var end: usize = end_ + node_module_root.len;
return @truncate(u32, std.hash.Wyhash.hash(0, module[end..]));
}
return @truncate(u32, std.hash.Wyhash.hash(0, this.path_pair.primary.text));
}
};
pub const DirEntryResolveQueueItem = struct {
result: allocators.Result,
unsafe_path: string,
safe_path: string = "",
fd: StoredFileDescriptorType = 0,
};
threadlocal var _dir_entry_paths_to_resolve: [256]DirEntryResolveQueueItem = undefined;
threadlocal var _open_dirs: [256]std.fs.Dir = undefined;
threadlocal var resolve_without_remapping_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var index_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var dir_info_uncached_filename_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var node_bin_path: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var dir_info_uncached_path_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var tsconfig_base_url_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var relative_abs_path_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var load_as_file_or_directory_via_tsconfig_base_path: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var node_modules_check_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var field_abs_path_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var tsconfig_path_abs_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var check_browser_map_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var remap_path_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var load_as_file_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var remap_path_trailing_slash: [std.fs.MAX_PATH_BYTES]u8 = undefined;
pub const DebugLogs = struct {
what: string = "",
indent: MutableString,
notes: std.ArrayList(logger.Data),
pub const FlushMode = enum { fail, success };
pub fn init(allocator: *std.mem.Allocator) !DebugLogs {
var mutable = try MutableString.init(allocator, 0);
return DebugLogs{
.indent = mutable,
.notes = std.ArrayList(logger.Data).init(allocator),
};
}
pub fn deinit(d: DebugLogs) void {
var allocator = d.notes.allocator;
d.notes.deinit();
// d.indent.deinit();
}
pub fn increaseIndent(d: *DebugLogs) !void {
@setCold(true);
try d.indent.append(" ");
}
pub fn decreaseIndent(d: *DebugLogs) !void {
@setCold(true);
d.indent.list.shrinkRetainingCapacity(d.indent.list.items.len - 1);
}
pub fn addNote(d: *DebugLogs, _text: string) !void {
@setCold(true);
var text = _text;
const len = d.indent.len();
if (len > 0) {
var __text = try d.notes.allocator.alloc(u8, text.len + len);
std.mem.copy(u8, __text, d.indent.list.items);
std.mem.copy(u8, __text[len..__text.len], _text);
d.notes.allocator.free(_text);
}
try d.notes.append(logger.rangeData(null, logger.Range.None, text));
}
pub fn addNoteFmt(d: *DebugLogs, comptime fmt: string, args: anytype) !void {
@setCold(true);
return try d.addNote(try std.fmt.allocPrint(d.notes.allocator, fmt, args));
}
};
pub const TSConfigExtender = struct {
visited: *StringBoolMap,
file_dir: string,
r: *ThisResolver,
pub fn extends(ctx: *TSConfigExtender, ext: String, range: logger.Range) ?*TSConfigJSON {
unreachable;
// if (isPackagePath(extends)) {
// // // If this is a package path, try to resolve it to a "node_modules"
// // // folder. This doesn't use the normal node module resolution algorithm
// // // both because it's different (e.g. we don't want to match a directory)
// // // and because it would deadlock since we're currently in the middle of
// // // populating the directory info cache.
// // var current = ctx.file_dir;
// // while (true) {
// // // Skip "node_modules" folders
// // if (!strings.eql(std.fs.path.basename(current), "node_modules")) {
// // var paths1 = [_]string{ current, "node_modules", extends };
// // var join1 = r.fs.absAlloc(ctx.r.allocator, &paths1) catch unreachable;
// // const res = ctx.r.parseTSConfig(join1, ctx.1) catch |err| {
// // if (err == error.ENOENT) {
// // continue;
// // } else if (err == error.ParseErrorImportCycle) {} else if (err != error.ParseErrorAlreadyLogged) {}
// // return null;
// // };
// // return res;
// // }
// // }
// }
}
};
pub const MatchResult = struct {
path_pair: PathPair,
dirname_fd: StoredFileDescriptorType = 0,
file_fd: StoredFileDescriptorType = 0,
is_node_module: bool = false,
package_json: ?*PackageJSON = null,
diff_case: ?Fs.FileSystem.Entry.Lookup.DifferentCase = null,
dir_info: ?*DirInfo = null,
};
pub const LoadResult = struct {
path: string,
diff_case: ?Fs.FileSystem.Entry.Lookup.DifferentCase,
dirname_fd: StoredFileDescriptorType = 0,
file_fd: StoredFileDescriptorType = 0,
dir_info: ?*DirInfo = null,
};
// This is a global so even if multiple resolvers are created, the mutex will still work
var resolver_Mutex: Mutex = undefined;
var resolver_Mutex_loaded: bool = false;
const BinFolderArray = std.BoundedArray(string, 128);
var bin_folders: BinFolderArray = undefined;
var bin_folders_lock: Mutex = Mutex.init();
var bin_folders_loaded: bool = false;
// TODO:
// - Fix "browser" field mapping
// - Consider removing the string list abstraction?
pub const Resolver = struct {
const ThisResolver = @This();
opts: options.BundleOptions,
fs: *Fs.FileSystem,
log: *logger.Log,
allocator: *std.mem.Allocator,
node_module_bundle: ?*NodeModuleBundle,
extension_order: []const string = undefined,
care_about_bin_folder: bool = false,
care_about_scripts: bool = false,
debug_logs: ?DebugLogs = null,
elapsed: i128 = 0, // tracing
onStartWatchingDirectory: ?fn (*HTTPWatcher, dir_path: string, dir_fd: StoredFileDescriptorType) void = null,
onStartWatchingDirectoryCtx: ?*HTTPWatcher = null,
caches: CacheSet,
// These are sets that represent various conditions for the "exports" field
// in package.json.
// esm_conditions_default: std.StringHashMap(bool),
// esm_conditions_import: std.StringHashMap(bool),
// esm_conditions_require: std.StringHashMap(bool),
// A special filtered import order for CSS "@import" imports.
//
// The "resolve extensions" setting determines the order of implicit
// extensions to try when resolving imports with the extension omitted.
// Sometimes people create a JavaScript/TypeScript file and a CSS file with
// the same name when they create a component. At a high level, users expect
// implicit extensions to resolve to the JS file when being imported from JS
// and to resolve to the CSS file when being imported from CSS.
//
// Different bundlers handle this in different ways. Parcel handles this by
// having the resolver prefer the same extension as the importing file in
// front of the configured "resolve extensions" order. Webpack's "css-loader"
// plugin just explicitly configures a special "resolve extensions" order
// consisting of only ".css" for CSS files.
//
// It's unclear what behavior is best here. What we currently do is to create
// a special filtered version of the configured "resolve extensions" order
// for CSS files that filters out any extension that has been explicitly
// configured with a non-CSS loader. This still gives users control over the
// order but avoids the scenario where we match an import in a CSS file to a
// JavaScript-related file. It's probably not perfect with plugins in the
// picture but it's better than some alternatives and probably pretty good.
// atImportExtensionOrder []string
// This mutex serves two purposes. First of all, it guards access to "dirCache"
// which is potentially mutated during path resolution. But this mutex is also
// necessary for performance. The "React admin" benchmark mysteriously runs
// twice as fast when this mutex is locked around the whole resolve operation
// instead of around individual accesses to "dirCache". For some reason,
// reducing parallelism in the resolver helps the rest of the bundler go
// faster. I'm not sure why this is but please don't change this unless you
// do a lot of testing with various benchmarks and there aren't any regressions.
mutex: *Mutex,
// This cache maps a directory path to information about that directory and
// all parent directories
dir_cache: *DirInfo.HashMap,
pub fn init1(
allocator: *std.mem.Allocator,
log: *logger.Log,
_fs: *Fs.FileSystem,
opts: options.BundleOptions,
) ThisResolver {
if (!resolver_Mutex_loaded) {
resolver_Mutex = Mutex.init();
resolver_Mutex_loaded = true;
}
return ThisResolver{
.allocator = allocator,
.dir_cache = DirInfo.HashMap.init(allocator),
.mutex = &resolver_Mutex,
.caches = CacheSet.init(allocator),
.opts = opts,
.fs = _fs,
.node_module_bundle = opts.node_modules_bundle,
.log = log,
.extension_order = opts.extension_order,
};
}
pub fn isExternalPattern(r: *ThisResolver, import_path: string) bool {
for (r.opts.external.patterns) |pattern| {
if (import_path.len >= pattern.prefix.len + pattern.suffix.len and (strings.startsWith(
import_path,
pattern.prefix,
) and strings.endsWith(
import_path,
pattern.suffix,
))) {
return true;
}
}
return false;
}
pub fn flushDebugLogs(r: *ThisResolver, flush_mode: DebugLogs.FlushMode) !void {
if (r.debug_logs) |*debug| {
if (flush_mode == DebugLogs.FlushMode.fail) {
try r.log.addRangeDebugWithNotes(null, logger.Range{ .loc = logger.Loc{} }, debug.what, debug.notes.toOwnedSlice());
} else if (@enumToInt(r.log.level) <= @enumToInt(logger.Log.Level.verbose)) {
try r.log.addVerboseWithNotes(null, logger.Loc.Empty, debug.what, debug.notes.toOwnedSlice());
}
}
}
var tracing_start: i128 = if (FeatureFlags.tracing) 0 else undefined;
pub const bunFrameworkPackagePrefix = "bun-framework-";
pub fn resolveFramework(
r: *ThisResolver,
package: string,
pair: *PackageJSON.FrameworkRouterPair,
comptime preference: PackageJSON.LoadFramework,
comptime load_defines: bool,
) !void {
// We want to enable developers to integrate frameworks without waiting on official support.
// But, we still want the command to do the actual framework integration to be succint
// This lets users type "--use next" instead of "--use bun-framework-next"
// If they're using a local file path, we skip this.
if (isPackagePath(package)) {
var prefixed_package_buf: [512]u8 = undefined;
// Prevent the extra lookup if the package is already prefixed, i.e. avoid "bun-framework-next-bun-framework-next"
if (strings.startsWith(package, bunFrameworkPackagePrefix) or package.len + bunFrameworkPackagePrefix.len >= prefixed_package_buf.len) {
return r._resolveFramework(package, pair, preference, load_defines) catch |err| {
switch (err) {
error.ModuleNotFound => {
Output.prettyErrorln("<r><red>ResolveError<r> can't find framework: <b>\"{s}\"<r>.\n\nMaybe it's not installed? Try running this:\n\n <b>npm install -D {s}<r>\n <b>bun bun --use {s}<r>", .{ package, package, package });
Output.flush();
std.os.exit(1);
},
else => {
return err;
},
}
};
}
prefixed_package_buf[0..bunFrameworkPackagePrefix.len].* = bunFrameworkPackagePrefix.*;
std.mem.copy(u8, prefixed_package_buf[bunFrameworkPackagePrefix.len..], package);
const prefixed_name = prefixed_package_buf[0 .. bunFrameworkPackagePrefix.len + package.len];
return r._resolveFramework(prefixed_name, pair, preference, load_defines) catch |err| {
switch (err) {
error.ModuleNotFound => {
return r._resolveFramework(package, pair, preference, load_defines) catch |err2| {
switch (err2) {
error.ModuleNotFound => {
Output.prettyErrorln("<r><red>ResolveError<r> can't find framework: <b>\"{s}\"<r>.\n\nMaybe it's not installed? Try running this:\n\n <b>npm install -D {s}\n <b>bun bun --use {s}<r>", .{ package, prefixed_name, package });
Output.flush();
std.os.exit(1);
},
else => {
return err;
},
}
};
},
else => {
return err;
},
}
};
}
return r._resolveFramework(package, pair, preference, load_defines) catch |err| {
switch (err) {
error.ModuleNotFound => {
Output.prettyError("<r><red>ResolveError<r> can't find local framework: <b>\"{s}\"<r>.", .{package});
Output.flush();
std.os.exit(1);
},
else => {
return err;
},
}
};
}
fn _resolveFramework(
r: *ThisResolver,
package: string,
pair: *PackageJSON.FrameworkRouterPair,
comptime preference: PackageJSON.LoadFramework,
comptime load_defines: bool,
) !void {
// TODO: make this only parse package.json once
var result = try r.resolve(r.fs.top_level_dir, package, .internal);
// support passing a package.json or path to a package
const pkg: *const PackageJSON = result.package_json orelse r.packageJSONForResolvedNodeModuleWithIgnoreMissingName(&result, true) orelse return error.MissingPackageJSON;
const json = (try r.caches.json.parseJSON(r.log, pkg.source, r.allocator)) orelse return error.JSONParseError;
pkg.loadFrameworkWithPreference(pair, json, r.allocator, load_defines, preference);
const dir = pkg.source.path.sourceDir();
var buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
pair.framework.resolved_dir = pkg.source.path.sourceDir();
if (pair.framework.client.isEnabled()) {
var parts = [_]string{ dir, pair.framework.client.path };
const abs = r.fs.abs(&parts);
pair.framework.client.path = try r.allocator.dupe(u8, abs);
pair.framework.resolved = true;
}
if (pair.framework.server.isEnabled()) {
var parts = [_]string{ dir, pair.framework.server.path };
const abs = r.fs.abs(&parts);
pair.framework.server.path = try r.allocator.dupe(u8, abs);
pair.framework.resolved = true;
}
if (pair.framework.fallback.isEnabled()) {
var parts = [_]string{ dir, pair.framework.fallback.path };
const abs = r.fs.abs(&parts);
pair.framework.fallback.path = try r.allocator.dupe(u8, abs);
pair.framework.resolved = true;
}
if (pair.loaded_routes) {
const chosen_dir: string = brk: {
if (pair.router.possible_dirs.len > 0) {
for (pair.router.possible_dirs) |route_dir| {
var parts = [_]string{ r.fs.top_level_dir, std.fs.path.sep_str, route_dir };
const abs = r.fs.join(&parts);
// must end in trailing slash
break :brk (std.os.realpath(abs, &buf) catch continue);
}
return error.MissingRouteDir;
} else {
var parts = [_]string{ r.fs.top_level_dir, std.fs.path.sep_str, pair.router.dir };
const abs = r.fs.join(&parts);
// must end in trailing slash
break :brk std.os.realpath(abs, &buf) catch return error.MissingRouteDir;
}
};
var out = try r.allocator.alloc(u8, chosen_dir.len + 1);
std.mem.copy(u8, out, chosen_dir);
out[out.len - 1] = '/';
pair.router.dir = out;
pair.router.routes_enabled = true;
}
}
pub fn resolve(r: *ThisResolver, source_dir: string, import_path: string, kind: ast.ImportKind) !Result {
r.extension_order = if (kind.isFromCSS()) std.mem.span(&options.BundleOptions.Defaults.CSSExtensionOrder) else r.opts.extension_order;
if (FeatureFlags.tracing) {
tracing_start = std.time.nanoTimestamp();
}
defer {
if (FeatureFlags.tracing) {
r.elapsed += std.time.nanoTimestamp() - tracing_start;
}
}
if (r.log.level == .verbose) {
if (r.debug_logs != null) {
r.debug_logs.?.deinit();
}
r.debug_logs = try DebugLogs.init(r.allocator);
}
if (import_path.len == 0) return error.ModuleNotFound;
// Certain types of URLs default to being external for convenience
if (r.isExternalPattern(import_path) or
// "fill: url(#filter);"
(kind.isFromCSS() and strings.startsWith(import_path, "#")) or
// "background: url(http://example.com/images/image.png);"
strings.startsWith(import_path, "http://") or
// "background: url(https://example.com/images/image.png);"
strings.startsWith(import_path, "https://") or
// "background: url(//example.com/images/image.png);"
strings.startsWith(import_path, "//"))
{
if (r.debug_logs) |*debug| {
try debug.addNote("Marking this path as implicitly external");
r.flushDebugLogs(.success) catch {};
}
return Result{
.import_kind = kind,
.path_pair = PathPair{
.primary = Path.init(import_path),
},
.is_external = true,
.module_type = .esm,
};
}
if (DataURL.parse(import_path)) |_data_url| {
const data_url: DataURL = _data_url;
// "import 'data:text/javascript,console.log(123)';"
// "@import 'data:text/css,body{background:white}';"
if (data_url.decode_mime_type() != .Unsupported) {
if (r.debug_logs) |*debug| {
debug.addNote("Putting this path in the \"dataurl\" namespace") catch {};
r.flushDebugLogs(.success) catch {};
}
return Result{ .path_pair = PathPair{ .primary = Path.initWithNamespace(import_path, "dataurl") } };
}
// "background: url(data:image/png;base64,iVBORw0KGgo=);"
if (r.debug_logs) |*debug| {
debug.addNote("Marking this \"dataurl\" as external") catch {};
r.flushDebugLogs(.success) catch {};
}
return Result{
.path_pair = PathPair{ .primary = Path.initWithNamespace(import_path, "dataurl") },
.is_external = true,
};
}
// Fail now if there is no directory to resolve in. This can happen for
// virtual modules (e.g. stdin) if a resolve directory is not specified.
if (source_dir.len == 0) {
if (r.debug_logs) |*debug| {
debug.addNote("Cannot resolve this path without a directory") catch {};
r.flushDebugLogs(.fail) catch {};
}
return error.MissingResolveDir;
}
// r.mutex.lock();
// defer r.mutex.unlock();
errdefer (r.flushDebugLogs(.fail) catch {});
var result = (try r.resolveWithoutSymlinks(source_dir, import_path, kind)) orelse {
r.flushDebugLogs(.fail) catch {};
return error.ModuleNotFound;
};
if (!strings.eqlComptime(result.path_pair.primary.namespace, "node"))
try r.finalizeResult(&result);
r.flushDebugLogs(.success) catch {};
result.import_kind = kind;
return result;
}
pub fn finalizeResult(r: *ThisResolver, result: *Result) !void {
if (result.is_external) return;
var iter = result.path_pair.iter();
while (iter.next()) |path| {
var dir: *DirInfo = (r.readDirInfo(path.name.dir) catch continue) orelse continue;
result.package_json = result.package_json orelse dir.enclosing_package_json;
if (dir.enclosing_tsconfig_json) |tsconfig| {
result.jsx = tsconfig.mergeJSX(result.jsx);
}
if (dir.getEntries()) |entries| {
if (entries.get(path.name.filename)) |query| {
const symlink_path = query.entry.symlink(&r.fs.fs);
if (symlink_path.len > 0) {
path.setRealpath(symlink_path);
if (result.file_fd == 0) result.file_fd = query.entry.cache.fd;
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Resolved symlink \"{s}\" to \"{s}\"", .{ path.text, symlink_path }) catch {};
}
} else if (dir.abs_real_path.len > 0) {
var parts = [_]string{ dir.abs_real_path, query.entry.base() };
var buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
var out = r.fs.absBuf(&parts, &buf);
if (query.entry.cache.fd == 0) {
buf[out.len] = 0;
const span = buf[0..out.len :0];
var file = try std.fs.openFileAbsoluteZ(span, .{ .read = true });
if (comptime !FeatureFlags.store_file_descriptors) {
out = try std.os.getFdPath(query.entry.cache.fd, &buf);
file.close();
} else {
query.entry.cache.fd = file.handle;
Fs.FileSystem.setMaxFd(file.handle);
}
}
defer {
if (r.fs.fs.needToCloseFiles()) {
if (query.entry.cache.fd != 0) {
var file = std.fs.File{ .handle = query.entry.cache.fd };
file.close();
query.entry.cache.fd = 0;
}
}
}
if (comptime FeatureFlags.store_file_descriptors) {
out = try std.os.getFdPath(query.entry.cache.fd, &buf);
}
const symlink = try Fs.FileSystem.FilenameStore.instance.append(@TypeOf(out), out);
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Resolved symlink \"{s}\" to \"{s}\"", .{ symlink, path.text }) catch {};
}
query.entry.cache.symlink = PathString.init(symlink);
if (result.file_fd == 0) result.file_fd = query.entry.cache.fd;
path.setRealpath(symlink);
}
}
}
}
if (result.package_json) |package_json| {
result.module_type = switch (package_json.module_type) {
.esm, .cjs => package_json.module_type,
.unknown => result.module_type,
};
}
}
pub fn resolveWithoutSymlinks(r: *ThisResolver, source_dir: string, import_path: string, kind: ast.ImportKind) !?Result {
// This implements the module resolution algorithm from node.js, which is
// described here: https://nodejs.org/api/modules.html#modules_all_together
var result: Result = Result{
.path_pair = PathPair{
.primary = Path.empty,
},
.jsx = r.opts.jsx,
};
// Return early if this is already an absolute path. In addition to asking
// the file system whether this is an absolute path, we also explicitly check
// whether it starts with a "/" and consider that an absolute path too. This
// is because relative paths can technically start with a "/" on Windows
// because it's not an absolute path on Windows. Then people might write code
// with imports that start with a "/" that works fine on Windows only to
// experience unexpected build failures later on other operating systems.
// Treating these paths as absolute paths on all platforms means Windows
// users will not be able to accidentally make use of these paths.
if (strings.startsWith(import_path, "/") or std.fs.path.isAbsolutePosix(import_path)) {
if (r.debug_logs) |*debug| {
debug.addNoteFmt("The import \"{s}\" is being treated as an absolute path", .{import_path}) catch {};
}
// First, check path overrides from the nearest enclosing TypeScript "tsconfig.json" file
if ((r.dirInfoCached(source_dir) catch null)) |_dir_info| {
const dir_info: *DirInfo = _dir_info;
if (dir_info.enclosing_tsconfig_json) |tsconfig| {
if (tsconfig.paths.count() > 0) {
if (r.matchTSConfigPaths(tsconfig, import_path, kind)) |res| {
// We don't set the directory fd here because it might remap an entirely different directory
return Result{
.path_pair = res.path_pair,
.diff_case = res.diff_case,
.package_json = res.package_json,
.dirname_fd = res.dirname_fd,
.file_fd = res.file_fd,
.jsx = tsconfig.mergeJSX(result.jsx),
};
}
}
}
}
if (r.opts.external.abs_paths.count() > 0 and r.opts.external.abs_paths.contains(import_path)) {
// If the string literal in the source text is an absolute path and has
// been marked as an external module, mark it as *not* an absolute path.
// That way we preserve the literal text in the output and don't generate
// a relative path from the output directory to that path.
if (r.debug_logs) |*debug| {
debug.addNoteFmt("The path \"{s}\" is marked as external by the user", .{import_path}) catch {};
}
return Result{
.path_pair = .{ .primary = Path.init(import_path) },
.is_external = true,
};
}
// Run node's resolution rules (e.g. adding ".js")
if (r.loadAsFileOrDirectory(import_path, kind)) |entry| {
return Result{
.dirname_fd = entry.dirname_fd,
.path_pair = entry.path_pair,
.diff_case = entry.diff_case,
.package_json = entry.package_json,
.file_fd = entry.file_fd,
};
}
return null;
}
// Check both relative and package paths for CSS URL tokens, with relative
// paths taking precedence over package paths to match Webpack behavior.
const is_package_path = isPackagePath(import_path);
var check_relative = !is_package_path or kind == .url;
var check_package = is_package_path;
if (check_relative) {
const parts = [_]string{ source_dir, import_path };
const abs_path = r.fs.absBuf(&parts, &relative_abs_path_buf);
if (r.opts.external.abs_paths.count() > 0 and r.opts.external.abs_paths.contains(abs_path)) {
// If the string literal in the source text is an absolute path and has
// been marked as an external module, mark it as *not* an absolute path.
// That way we preserve the literal text in the output and don't generate
// a relative path from the output directory to that path.
if (r.debug_logs) |*debug| {
debug.addNoteFmt("The path \"{s}\" is marked as external by the user", .{abs_path}) catch {};
}
return Result{
.path_pair = .{ .primary = Path.init(r.fs.dirname_store.append(@TypeOf(abs_path), abs_path) catch unreachable) },
.is_external = true,
};
}
// Check the "browser" map
if (r.dirInfoCached(std.fs.path.dirname(abs_path) orelse unreachable) catch null) |_import_dir_info| {
if (_import_dir_info.getEnclosingBrowserScope()) |import_dir_info| {
const pkg = import_dir_info.package_json.?;
if (r.checkBrowserMap(
import_dir_info,
abs_path,
.AbsolutePath,
)) |remap| {
// Is the path disabled?
if (remap.len == 0) {
var _path = Path.init(r.fs.dirname_store.append(string, abs_path) catch unreachable);
_path.is_disabled = true;
return Result{
.path_pair = PathPair{
.primary = _path,
},
};
}
if (r.resolveWithoutRemapping(import_dir_info, remap, kind)) |_result| {
result = Result{
.path_pair = _result.path_pair,
.diff_case = _result.diff_case,
.module_type = pkg.module_type,
.dirname_fd = _result.dirname_fd,
.package_json = pkg,
};
check_relative = false;
check_package = false;
}
}
}
}
if (check_relative) {
if (r.loadAsFileOrDirectory(abs_path, kind)) |res| {
check_package = false;
result = Result{
.path_pair = res.path_pair,
.diff_case = res.diff_case,
.dirname_fd = res.dirname_fd,
.package_json = res.package_json,
};
} else if (!check_package) {
return null;
}
}
}
if (check_package) {
if (r.opts.polyfill_node_globals) {
var import_path_without_node_prefix = import_path;
const had_node_prefix = import_path_without_node_prefix.len > "node:".len and
strings.eqlComptime(import_path_without_node_prefix[0.."node:".len], "node:");
import_path_without_node_prefix = if (had_node_prefix)
import_path_without_node_prefix["node:".len..]
else
import_path_without_node_prefix;
if (NodeFallbackModules.Map.get(import_path_without_node_prefix)) |*fallback_module| {
result.path_pair.primary = fallback_module.path;
result.module_type = .cjs;
result.package_json = @intToPtr(*PackageJSON, @ptrToInt(fallback_module.package_json));
result.is_from_node_modules = true;
return result;
// "node:*
// "fs"
// "fs/*"
// These are disabled!
} else if (had_node_prefix or
(import_path_without_node_prefix.len >= 2 and strings.eqlComptimeIgnoreLen(import_path_without_node_prefix[0..2], "fs") and
(import_path_without_node_prefix.len == 2 or
import_path_without_node_prefix[3] == '/')))
{
result.path_pair.primary.namespace = "node";
result.path_pair.primary.text = import_path_without_node_prefix;
result.path_pair.primary.name = Fs.PathName.init(import_path_without_node_prefix);
result.module_type = .cjs;
result.path_pair.primary.is_disabled = true;
result.is_from_node_modules = true;
return result;
}
}
// Check for external packages first
if (r.opts.external.node_modules.count() > 0) {
var query = import_path;
while (true) {
if (r.opts.external.node_modules.contains(query)) {
if (r.debug_logs) |*debug| {
debug.addNoteFmt("The path \"{s}\" was marked as external by the user", .{query}) catch {};
}
return Result{
.path_pair = .{ .primary = Path.init(query) },
.is_external = true,
};
}
// If the module "foo" has been marked as external, we also want to treat
// paths into that module such as "foo/bar" as external too.
var slash = strings.lastIndexOfChar(query, '/') orelse break;
query = query[0..slash];
}
}
const source_dir_info = (r.dirInfoCached(source_dir) catch null) orelse return null;
// Support remapping one package path to another via the "browser" field
if (source_dir_info.getEnclosingBrowserScope()) |browser_scope| {
if (browser_scope.package_json) |package_json| {
if (r.checkBrowserMap(
browser_scope,
import_path,
.PackagePath,
)) |remapped| {
if (remapped.len == 0) {
// "browser": {"module": false}
if (r.loadNodeModules(import_path, kind, source_dir_info)) |node_module| {
var pair = node_module.path_pair;
pair.primary.is_disabled = true;
if (pair.secondary != null) {
pair.secondary.?.is_disabled = true;
}
return Result{
.path_pair = pair,
.dirname_fd = node_module.dirname_fd,
.diff_case = node_module.diff_case,
.package_json = package_json,
};
}
} else {
var primary = Path.init(import_path);
primary.is_disabled = true;
return Result{
.path_pair = PathPair{ .primary = primary },
// this might not be null? i think it is
.diff_case = null,
};
}
}
}
}
if (r.resolveWithoutRemapping(source_dir_info, import_path, kind)) |res| {
result.path_pair = res.path_pair;
result.dirname_fd = res.dirname_fd;
result.file_fd = res.file_fd;
result.package_json = res.package_json;
result.diff_case = res.diff_case;
result.is_from_node_modules = result.is_from_node_modules or res.is_node_module;
if (res.path_pair.primary.is_disabled and res.path_pair.secondary == null) {
return result;
}
if (res.package_json) |pkg| {
var base_dir_info = res.dir_info orelse (r.readDirInfo(res.path_pair.primary.name.dir) catch null) orelse return result;
if (base_dir_info.getEnclosingBrowserScope()) |browser_scope| {
if (r.checkBrowserMap(
browser_scope,
res.path_pair.primary.text,
.AbsolutePath,
)) |remap| {
if (remap.len == 0) {
result.path_pair.primary.is_disabled = true;
result.path_pair.primary = Fs.Path.initWithNamespace(remap, "file");
} else {
if (r.resolveWithoutRemapping(browser_scope, remap, kind)) |remapped| {
result.path_pair = remapped.path_pair;
result.dirname_fd = remapped.dirname_fd;
result.file_fd = remapped.file_fd;
result.package_json = remapped.package_json;
result.diff_case = remapped.diff_case;
result.is_from_node_modules = result.is_from_node_modules or remapped.is_node_module;
return result;
}
}
}
}
}
return result;
} else {
// Note: node's "self references" are not currently supported
return null;
}
}
return result;
}
pub fn packageJSONForResolvedNodeModule(
r: *ThisResolver,
result: *const Result,
) ?*const PackageJSON {
return @call(.{ .modifier = .always_inline }, packageJSONForResolvedNodeModuleWithIgnoreMissingName, .{ r, result, true });
}
// This is a fallback, hopefully not called often. It should be relatively quick because everything should be in the cache.
fn packageJSONForResolvedNodeModuleWithIgnoreMissingName(
r: *ThisResolver,
result: *const Result,
comptime ignore_missing_name: bool,
) ?*const PackageJSON {
var dir_info = (r.dirInfoCached(result.path_pair.primary.name.dir) catch null) orelse return null;
while (true) {
if (dir_info.package_json) |pkg| {
// if it doesn't have a name, assume it's something just for adjusting the main fields (react-bootstrap does this)
// In that case, we really would like the top-level package that you download from NPM
// so we ignore any unnamed packages
if (comptime !ignore_missing_name) {
if (pkg.name.len > 0) {
return pkg;
}
} else {
return pkg;
}
}
dir_info = dir_info.getParent() orelse return null;
}
unreachable;
}
const node_module_root_string = std.fs.path.sep_str ++ "node_modules" ++ std.fs.path.sep_str;
pub fn rootNodeModulePackageJSON(
r: *ThisResolver,
result: *const Result,
) ?RootPathPair {
const path = (result.pathConst() orelse return null);
var absolute = path.text;
// /foo/node_modules/@babel/standalone/index.js
// ^------------^
var end = strings.lastIndexOf(absolute, node_module_root_string) orelse brk: {
// try non-symlinked version
if (path.pretty.len != absolute.len) {
absolute = path.pretty;
break :brk strings.lastIndexOf(absolute, node_module_root_string);
}
break :brk null;
} orelse return null;
end += node_module_root_string.len;
const is_scoped_package = absolute[end] == '@';
end += strings.indexOfChar(absolute[end..], std.fs.path.sep) orelse return null;
// /foo/node_modules/@babel/standalone/index.js
// ^
if (is_scoped_package) {
end += 1;
end += strings.indexOfChar(absolute[end..], std.fs.path.sep) orelse return null;
}
end += 1;
// /foo/node_modules/@babel/standalone/index.js
// ^
const slice = absolute[0..end];
// Try to avoid the hash table lookup whenever possible
// That can cause filesystem lookups in parent directories and it requires a lock
if (result.package_json) |pkg| {
if (strings.eql(slice, pkg.source.path.name.dirWithTrailingSlash())) {
return RootPathPair{
.package_json = pkg,
.base_path = slice,
};
}
}
{
var dir_info = (r.dirInfoCached(slice) catch null) orelse return null;
return RootPathPair{
.base_path = slice,
.package_json = dir_info.package_json orelse return null,
};
}
}
threadlocal var esm_subpath_buf: [512]u8 = undefined;
threadlocal var esm_absolute_package_path: [std.fs.MAX_PATH_BYTES]u8 = undefined;
threadlocal var esm_absolute_package_path_joined: [std.fs.MAX_PATH_BYTES]u8 = undefined;
pub fn loadNodeModules(r: *ThisResolver, import_path: string, kind: ast.ImportKind, _dir_info: *DirInfo) ?MatchResult {
var dir_info = _dir_info;
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Searching for {s} in \"node_modules\" directories starting from \"{s}\"", .{ import_path, dir_info.abs_path }) catch {};
debug.increaseIndent() catch {};
}
defer {
if (r.debug_logs) |*debug| {
debug.decreaseIndent() catch {};
}
}
// First, check path overrides from the nearest enclosing TypeScript "tsconfig.json" file
if (dir_info.enclosing_tsconfig_json) |tsconfig| {
// Try path substitutions first
if (tsconfig.paths.count() > 0) {
if (r.matchTSConfigPaths(tsconfig, import_path, kind)) |res| {
return res;
}
}
// Try looking up the path relative to the base URL
if (tsconfig.hasBaseURL()) {
const base = tsconfig.base_url;
const paths = [_]string{ base, import_path };
const abs = r.fs.absBuf(&paths, &load_as_file_or_directory_via_tsconfig_base_path);
if (r.loadAsFileOrDirectory(abs, kind)) |res| {
return res;
}
// r.allocator.free(abs);
}
}
const esm_ = ESModule.Package.parse(import_path, &esm_subpath_buf);
// Then check for the package in any enclosing "node_modules" directories
while (true) {
// Skip directories that are themselves called "node_modules", since we
// don't ever want to search for "node_modules/node_modules"
if (dir_info.has_node_modules) {
var _paths = [_]string{ dir_info.abs_path, "node_modules", import_path };
const abs_path = r.fs.absBuf(&_paths, &node_modules_check_buf);
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Checking for a package in the directory \"{s}\"", .{abs_path}) catch {};
}
if (esm_) |esm| {
const abs_package_path = brk: {
var parts = [_]string{ dir_info.abs_path, "node_modules", esm.name };
break :brk r.fs.absBuf(&parts, &esm_absolute_package_path);
};
if (r.dirInfoCached(abs_package_path) catch null) |pkg_dir_info| {
if (pkg_dir_info.package_json) |package_json| {
if (package_json.exports) |exports_map| {
// The condition set is determined by the kind of import
const esmodule = ESModule{
.conditions = switch (kind) {
ast.ImportKind.stmt, ast.ImportKind.dynamic => r.opts.conditions.import,
ast.ImportKind.require, ast.ImportKind.require_resolve => r.opts.conditions.require,
else => r.opts.conditions.default,
},
.allocator = r.allocator,
.debug_logs = if (r.debug_logs) |*debug| debug else null,
};
// Resolve against the path "/", then join it with the absolute
// directory path. This is done because ESM package resolution uses
// URLs while our path resolution uses file system paths. We don't
// want problems due to Windows paths, which are very unlike URL
// paths. We also want to avoid any "%" characters in the absolute
// directory path accidentally being interpreted as URL escapes.
var esm_resolution = esmodule.resolve("/", esm.subpath, exports_map.root);
if ((esm_resolution.status == .Inexact or esm_resolution.status == .Exact) and
strings.startsWith(esm_resolution.path, "/"))
{
const abs_esm_path: string = brk: {
var parts = [_]string{
abs_package_path,
esm_resolution.path[1..],
};
break :brk r.fs.absBuf(&parts, &esm_absolute_package_path_joined);
};
switch (esm_resolution.status) {
.Exact => {
const resolved_dir_info = (r.dirInfoCached(std.fs.path.dirname(abs_esm_path).?) catch null) orelse {
esm_resolution.status = .ModuleNotFound;
return null;
};
const entries = resolved_dir_info.getEntries() orelse {
esm_resolution.status = .ModuleNotFound;
return null;
};
const entry_query = entries.get(std.fs.path.basename(abs_esm_path)) orelse {
esm_resolution.status = .ModuleNotFound;
return null;
};
if (entry_query.entry.kind(&r.fs.fs) == .dir) {
esm_resolution.status = .UnsupportedDirectoryImport;
return null;
}
const absolute_out_path = brk: {
if (entry_query.entry.abs_path.isEmpty()) {
entry_query.entry.abs_path =
PathString.init(r.fs.dirname_store.append(@TypeOf(abs_esm_path), abs_esm_path) catch unreachable);
}
break :brk entry_query.entry.abs_path.slice();
};
return MatchResult{
.path_pair = PathPair{
.primary = Path.initWithNamespace(absolute_out_path, "file"),
},
.dirname_fd = entries.fd,
.file_fd = entry_query.entry.cache.fd,
.dir_info = resolved_dir_info,
.diff_case = entry_query.diff_case,
.is_node_module = true,
.package_json = resolved_dir_info.package_json orelse package_json,
};
},
.Inexact => {
// If this was resolved against an expansion key ending in a "/"
// instead of a "*", we need to try CommonJS-style implicit
// extension and/or directory detection.
if (r.loadAsFileOrDirectory(abs_esm_path, kind)) |*res| {
res.is_node_module = true;
res.package_json = res.package_json orelse package_json;
return res.*;
}
esm_resolution.status = .ModuleNotFound;
return null;
},
else => unreachable,
}
}
}
}
}
}
if (r.loadAsFileOrDirectory(abs_path, kind)) |res| {
return res;
}
// r.allocator.free(abs_path);
}
dir_info = dir_info.getParent() orelse break;
}
// Mostly to cut scope, we don't resolve `NODE_PATH` environment variable.
// But also: https://github.com/nodejs/node/issues/38128#issuecomment-814969356
return null;
}
pub fn resolveWithoutRemapping(r: *ThisResolver, source_dir_info: *DirInfo, import_path: string, kind: ast.ImportKind) ?MatchResult {
if (isPackagePath(import_path)) {
return r.loadNodeModules(import_path, kind, source_dir_info);
} else {
const paths = [_]string{ source_dir_info.abs_path, import_path };
var resolved = r.fs.absBuf(&paths, &resolve_without_remapping_buf);
return r.loadAsFileOrDirectory(resolved, kind);
}
}
pub fn parseTSConfig(
r: *ThisResolver,
file: string,
dirname_fd: StoredFileDescriptorType,
) !?*TSConfigJSON {
const entry = try r.caches.fs.readFile(
r.fs,
file,
dirname_fd,
false,
null,
);
const key_path = Path.init(file);
const source = logger.Source.initPathString(key_path.text, entry.contents);
const file_dir = source.path.sourceDir();
var result = (try TSConfigJSON.parse(r.allocator, r.log, source, &r.caches.json, r.opts.jsx.development)) orelse return null;
if (result.hasBaseURL()) {
// this might leak
if (!std.fs.path.isAbsolute(result.base_url)) {
const paths = [_]string{ file_dir, result.base_url };
result.base_url = r.fs.dirname_store.append(string, r.fs.absBuf(&paths, &tsconfig_base_url_buf)) catch unreachable;
}
}
if (result.paths.count() > 0 and (result.base_url_for_paths.len == 0 or !std.fs.path.isAbsolute(result.base_url_for_paths))) {
// this might leak
const paths = [_]string{ file_dir, result.base_url };
result.base_url_for_paths = r.fs.dirname_store.append(string, r.fs.absBuf(&paths, &tsconfig_base_url_buf)) catch unreachable;
}
return result;
}
// TODO:
pub fn prettyPath(r: *ThisResolver, path: Path) string {
return path.text;
}
pub fn binDirs(r: *const ThisResolver) []const string {
if (!bin_folders_loaded) return &[_]string{};
return bin_folders.constSlice();
}
pub fn parsePackageJSON(r: *ThisResolver, file: string, dirname_fd: StoredFileDescriptorType) !?*PackageJSON {
var pkg: PackageJSON = undefined;
if (!r.care_about_scripts) {
pkg = PackageJSON.parse(ThisResolver, r, file, dirname_fd, true, false) orelse return null;
} else {
pkg = PackageJSON.parse(ThisResolver, r, file, dirname_fd, true, true) orelse return null;
}
var _pkg = try r.allocator.create(PackageJSON);
_pkg.* = pkg;
return _pkg;
}
fn dirInfoCached(
r: *ThisResolver,
path: string,
) !?*DirInfo {
return try r.dirInfoCachedMaybeLog(path, true, true);
}
pub fn readDirInfo(
r: *ThisResolver,
path: string,
) !?*DirInfo {
return try r.dirInfoCachedMaybeLog(path, false, true);
}
pub fn readDirInfoIgnoreError(
r: *ThisResolver,
path: string,
) ?*const DirInfo {
return r.dirInfoCachedMaybeLog(path, false, true) catch null;
}
pub inline fn readDirInfoCacheOnly(
r: *ThisResolver,
path: string,
) ?*DirInfo {
return r.dir_cache.get(path);
}
inline fn dirInfoCachedMaybeLog(r: *ThisResolver, __path: string, comptime enable_logging: bool, comptime follow_symlinks: bool) !?*DirInfo {
r.mutex.lock();
defer r.mutex.unlock();
var _path = __path;
if (strings.eqlComptime(_path, "./") or strings.eqlComptime(_path, "."))
_path = r.fs.top_level_dir;
const top_result = try r.dir_cache.getOrPut(_path);
if (top_result.status != .unknown) {
return r.dir_cache.atIndex(top_result.index);
}
var i: i32 = 1;
std.mem.copy(u8, &dir_info_uncached_path_buf, _path);
var path = dir_info_uncached_path_buf[0.._path.len];
_dir_entry_paths_to_resolve[0] = (DirEntryResolveQueueItem{ .result = top_result, .unsafe_path = path, .safe_path = "" });
var top = Dirname.dirname(path);
var top_parent: allocators.Result = allocators.Result{
.index = allocators.NotFound,
.hash = 0,
.status = .not_found,
};
const root_path = if (comptime isWindows)
std.fs.path.diskDesignator(path)
else
// we cannot just use "/"
// we will write to the buffer past the ptr len so it must be a non-const buffer
path[0..1];
var rfs: *Fs.FileSystem.RealFS = &r.fs.fs;
rfs.entries_mutex.lock();
defer rfs.entries_mutex.unlock();
while (!strings.eql(top, root_path)) : (top = Dirname.dirname(top)) {
var result = try r.dir_cache.getOrPut(top);
if (result.status != .unknown) {
top_parent = result;
break;
}
_dir_entry_paths_to_resolve[@intCast(usize, i)] = DirEntryResolveQueueItem{
.unsafe_path = top,
.result = result,
.fd = 0,
};
if (rfs.entries.get(top)) |top_entry| {
_dir_entry_paths_to_resolve[@intCast(usize, i)].safe_path = top_entry.entries.dir;
_dir_entry_paths_to_resolve[@intCast(usize, i)].fd = top_entry.entries.fd;
}
i += 1;
}
if (strings.eql(top, root_path)) {
var result = try r.dir_cache.getOrPut(root_path);
if (result.status != .unknown) {
top_parent = result;
} else {
_dir_entry_paths_to_resolve[@intCast(usize, i)] = DirEntryResolveQueueItem{
.unsafe_path = root_path,
.result = result,
.fd = 0,
};
if (rfs.entries.get(top)) |top_entry| {
_dir_entry_paths_to_resolve[@intCast(usize, i)].safe_path = top_entry.entries.dir;
_dir_entry_paths_to_resolve[@intCast(usize, i)].fd = top_entry.entries.fd;
}
i += 1;
}
}
var queue_slice: []DirEntryResolveQueueItem = _dir_entry_paths_to_resolve[0..@intCast(usize, i)];
std.debug.assert(queue_slice.len > 0);
var open_dir_count: usize = 0;
// When this function halts, any item not processed means it's not found.
defer {
// Anything
if (open_dir_count > 0 and r.fs.fs.needToCloseFiles()) {
var open_dirs: []std.fs.Dir = _open_dirs[0..open_dir_count];
for (open_dirs) |*open_dir| {
open_dir.close();
}
}
}
// We want to walk in a straight line from the topmost directory to the desired directory
// For each directory we visit, we get the entries, but not traverse into child directories
// (unless those child directores are in the queue)
// We go top-down instead of bottom-up to increase odds of reusing previously open file handles
// "/home/jarred/Code/node_modules/react/cjs/react.development.js"
// ^
// If we start there, we will traverse all of /home/jarred, including e.g. /home/jarred/Downloads
// which is completely irrelevant.
// After much experimentation...
// - fts_open is not the fastest way to read directories. fts actually just uses readdir!!
// - remember
var _safe_path: ?string = null;
// Start at the top.
while (queue_slice.len > 0) {
var queue_top = queue_slice[queue_slice.len - 1];
defer top_parent = queue_top.result;
queue_slice.len -= 1;
var _open_dir: anyerror!std.fs.Dir = undefined;
if (queue_top.fd == 0) {
// This saves us N copies of .toPosixPath
// which was likely the perf gain from resolving directories relative to the parent directory, anyway.
const prev_char = path.ptr[queue_top.unsafe_path.len];
path.ptr[queue_top.unsafe_path.len] = 0;
defer path.ptr[queue_top.unsafe_path.len] = prev_char;
var sentinel = path.ptr[0..queue_top.unsafe_path.len :0];
_open_dir = std.fs.openDirAbsoluteZ(
sentinel,
.{
.iterate = true,
.no_follow = !follow_symlinks,
},
);
// }
}
const open_dir = if (queue_top.fd != 0) std.fs.Dir{ .fd = queue_top.fd } else (_open_dir catch |err| {
switch (err) {
error.EACCESS => {},
// Ignore "ENOTDIR" here so that calling "ReadDirectory" on a file behaves
// as if there is nothing there at all instead of causing an error due to
// the directory actually being a file. This is a workaround for situations
// where people try to import from a path containing a file as a parent
// directory. The "pnpm" package manager generates a faulty "NODE_PATH"
// list which contains such paths and treating them as missing means we just
// ignore them during path resolution.
error.ENOENT,
error.ENOTDIR,
error.IsDir,
error.NotDir,
error.FileNotFound,
=> {
return null;
},
else => {
var cached_dir_entry_result = rfs.entries.getOrPut(queue_top.unsafe_path) catch unreachable;
r.dir_cache.markNotFound(queue_top.result);
rfs.entries.markNotFound(cached_dir_entry_result);
if (comptime enable_logging) {
const pretty = r.prettyPath(Path.init(queue_top.unsafe_path));
r.log.addErrorFmt(
null,
logger.Loc{},
r.allocator,
"Cannot read directory \"{s}\": {s}",
.{
pretty,
@errorName(err),
},
) catch {};
}
},
}
return null;
});
if (queue_top.fd == 0) {
Fs.FileSystem.setMaxFd(open_dir.fd);
// these objects mostly just wrap the file descriptor, so it's fine to keep it.
_open_dirs[open_dir_count] = open_dir;
open_dir_count += 1;
}
const dir_path = if (queue_top.safe_path.len > 0) queue_top.safe_path else brk: {
// ensure trailing slash
if (_safe_path == null) {
// Now that we've opened the topmost directory successfully, it's reasonable to store the slice.
if (path[path.len - 1] != std.fs.path.sep) {
var parts = [_]string{ path, std.fs.path.sep_str };
_safe_path = try r.fs.dirname_store.append(@TypeOf(parts), parts);
} else {
_safe_path = try r.fs.dirname_store.append(string, path);
}
}
const safe_path = _safe_path.?;
var dir_path_i = std.mem.indexOf(u8, safe_path, queue_top.unsafe_path) orelse unreachable;
var end = dir_path_i +
queue_top.unsafe_path.len;
// Directories must always end in a trailing slash or else various bugs can occur.
// This covers "what happens when the trailing"
end += @intCast(usize, @boolToInt(safe_path.len > end and end > 0 and safe_path[end - 1] != std.fs.path.sep and safe_path[end] == std.fs.path.sep));
break :brk safe_path[dir_path_i..end];
};
var cached_dir_entry_result = rfs.entries.getOrPut(dir_path) catch unreachable;
var dir_entries_option: *Fs.FileSystem.RealFS.EntriesOption = undefined;
var needs_iter: bool = true;
if (rfs.entries.atIndex(cached_dir_entry_result.index)) |cached_entry| {
if (cached_entry.* == .entries) {
dir_entries_option = cached_entry;
needs_iter = false;
}
}
if (needs_iter) {
dir_entries_option = try rfs.entries.put(&cached_dir_entry_result, .{
.entries = Fs.FileSystem.DirEntry.init(dir_path, r.fs.allocator),
});
if (FeatureFlags.store_file_descriptors) {
Fs.FileSystem.setMaxFd(open_dir.fd);
dir_entries_option.entries.fd = open_dir.fd;
}
var dir_iterator = open_dir.iterate();
while (try dir_iterator.next()) |_value| {
dir_entries_option.entries.addEntry(_value) catch unreachable;
}
}
// We must initialize it as empty so that the result index is correct.
// This is important so that browser_scope has a valid index.
var dir_info_ptr = try r.dir_cache.put(&queue_top.result, DirInfo{});
try r.dirInfoUncached(
dir_info_ptr,
dir_path,
dir_entries_option,
queue_top.result,
cached_dir_entry_result.index,
r.dir_cache.atIndex(top_parent.index),
top_parent.index,
open_dir.fd,
);
if (queue_slice.len == 0) {
return dir_info_ptr;
// Is the directory we're searching for actually a file?
} else if (queue_slice.len == 1) {
// const next_in_queue = queue_slice[0];
// const next_basename = std.fs.path.basename(next_in_queue.unsafe_path);
// if (dir_info_ptr.getEntries()) |entries| {
// if (entries.get(next_basename) != null) {
// return null;
// }
// }
}
}
unreachable;
}
// This closely follows the behavior of "tryLoadModuleUsingPaths()" in the
// official TypeScript compiler
pub fn matchTSConfigPaths(r: *ThisResolver, tsconfig: *const TSConfigJSON, path: string, kind: ast.ImportKind) ?MatchResult {
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Matching \"{s}\" against \"paths\" in \"{s}\"", .{ path, tsconfig.abs_path }) catch unreachable;
}
var abs_base_url = tsconfig.base_url_for_paths;
// The explicit base URL should take precedence over the implicit base URL
// if present. This matters when a tsconfig.json file overrides "baseUrl"
// from another extended tsconfig.json file but doesn't override "paths".
if (tsconfig.hasBaseURL()) {
abs_base_url = tsconfig.base_url;
}
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Using \"{s}\" as \"baseURL\"", .{abs_base_url}) catch unreachable;
}
// Check for exact matches first
{
var iter = tsconfig.paths.iterator();
while (iter.next()) |entry| {
const key = entry.key_ptr.*;
if (strings.eql(key, path)) {
for (entry.value_ptr.*) |original_path| {
var absolute_original_path = original_path;
var was_alloc = false;
if (!std.fs.path.isAbsolute(absolute_original_path)) {
const parts = [_]string{ abs_base_url, original_path };
absolute_original_path = r.fs.absBuf(&parts, &tsconfig_path_abs_buf);
}
if (r.loadAsFileOrDirectory(absolute_original_path, kind)) |res| {
return res;
}
}
}
}
}
const TSConfigMatch = struct {
prefix: string,
suffix: string,
original_paths: []string,
};
var longest_match: TSConfigMatch = undefined;
var longest_match_prefix_length: i32 = -1;
var longest_match_suffix_length: i32 = -1;
var iter = tsconfig.paths.iterator();
while (iter.next()) |entry| {
const key = entry.key_ptr.*;
const original_paths = entry.value_ptr.*;
if (strings.indexOfChar(key, '*')) |star| {
const prefix = key[0 .. star - 1];
const suffix = key[star + 1 ..];
// Find the match with the longest prefix. If two matches have the same
// prefix length, pick the one with the longest suffix. This second edge
// case isn't handled by the TypeScript compiler, but we handle it
// because we want the output to always be deterministic
if (strings.startsWith(path, prefix) and
strings.endsWith(path, suffix) and
(prefix.len >= longest_match_prefix_length and
suffix.len > longest_match_suffix_length))
{
longest_match_prefix_length = @intCast(i32, prefix.len);
longest_match_suffix_length = @intCast(i32, suffix.len);
longest_match = TSConfigMatch{ .prefix = prefix, .suffix = suffix, .original_paths = original_paths };
}
}
}
// If there is at least one match, only consider the one with the longest
// prefix. This matches the behavior of the TypeScript compiler.
if (longest_match_prefix_length > -1) {
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Found a fuzzy match for \"{s}*{s}\" in \"paths\"", .{ longest_match.prefix, longest_match.suffix }) catch unreachable;
}
for (longest_match.original_paths) |original_path| {
// Swap out the "*" in the original path for whatever the "*" matched
const matched_text = path[longest_match.prefix.len .. path.len - longest_match.suffix.len];
const total_length = std.mem.indexOfScalar(u8, original_path, '*') orelse unreachable;
var prefix_parts = [_]string{ abs_base_url, original_path[0..total_length] };
// 1. Normalize the base path
// so that "/Users/foo/project/", "../components/*" => "/Users/foo/components/""
var prefix = r.fs.absBuf(&prefix_parts, &TemporaryBuffer.TSConfigMatchFullBuf2);
// 2. Join the new base path with the matched result
// so that "/Users/foo/components/", "/foo/bar" => /Users/foo/components/foo/bar
var parts = [_]string{ prefix, std.mem.trimLeft(u8, matched_text, "/"), std.mem.trimLeft(u8, longest_match.suffix, "/") };
var absolute_original_path = r.fs.absBuf(
&parts,
&TemporaryBuffer.TSConfigMatchFullBuf,
);
if (r.loadAsFileOrDirectory(absolute_original_path, kind)) |res| {
return res;
}
}
}
return null;
}
const BrowserMapPath = struct {
remapped: string = "",
cleaned: string = "",
input_path: string = "",
extension_order: []const string,
map: BrowserMap,
pub threadlocal var abs_to_rel_buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
pub const Kind = enum { PackagePath, AbsolutePath };
pub fn checkPath(
this: *BrowserMapPath,
path_to_check: string,
) bool {
const map = this.map;
const cleaned = this.cleaned;
// Check for equality
if (this.map.get(path_to_check)) |result| {
this.remapped = result;
this.input_path = path_to_check;
return true;
}
std.mem.copy(u8, &TemporaryBuffer.ExtensionPathBuf, cleaned);
// If that failed, try adding implicit extensions
for (this.extension_order) |ext| {
std.mem.copy(u8, TemporaryBuffer.ExtensionPathBuf[cleaned.len .. cleaned.len + ext.len], ext);
const new_path = TemporaryBuffer.ExtensionPathBuf[0 .. cleaned.len + ext.len];
// if (r.debug_logs) |*debug| {
// debug.addNoteFmt("Checking for \"{s}\" ", .{new_path}) catch {};
// }
if (map.get(new_path)) |_remapped| {
this.remapped = _remapped;
this.cleaned = new_path;
this.input_path = new_path;
return true;
}
}
// If that failed, try assuming this is a directory and looking for an "index" file
var index_path: string = "";
{
var parts = [_]string{ std.mem.trimRight(u8, path_to_check, std.fs.path.sep_str), std.fs.path.sep_str ++ "index" };
index_path = ResolvePath.joinStringBuf(&tsconfig_base_url_buf, &parts, .auto);
}
if (map.get(index_path)) |_remapped| {
this.remapped = _remapped;
this.input_path = index_path;
return true;
}
std.mem.copy(u8, &TemporaryBuffer.ExtensionPathBuf, index_path);
for (this.extension_order) |ext| {
std.mem.copy(u8, TemporaryBuffer.ExtensionPathBuf[index_path.len .. index_path.len + ext.len], ext);
const new_path = TemporaryBuffer.ExtensionPathBuf[0 .. index_path.len + ext.len];
// if (r.debug_logs) |*debug| {
// debug.addNoteFmt("Checking for \"{s}\" ", .{new_path}) catch {};
// }
if (map.get(new_path)) |_remapped| {
this.remapped = _remapped;
this.cleaned = new_path;
this.input_path = new_path;
return true;
}
}
return false;
}
};
pub fn checkBrowserMap(
r: *ThisResolver,
dir_info: *const DirInfo,
input_path_: string,
comptime kind: BrowserMapPath.Kind,
) ?string {
const package_json = dir_info.package_json orelse return null;
const browser_map = package_json.browser_map;
if (browser_map.count() == 0) return null;
var input_path = input_path_;
if (comptime kind == .AbsolutePath) {
const abs_path = dir_info.abs_path;
// Turn absolute paths into paths relative to the "browser" map location
if (!strings.startsWith(input_path, abs_path)) {
return null;
}
input_path = input_path[abs_path.len..];
}
if (input_path.len == 0 or (input_path.len == 1 and (input_path[0] == '.' or input_path[0] == std.fs.path.sep))) {
// No bundler supports remapping ".", so we don't either
return null;
}
// Normalize the path so we can compare against it without getting confused by "./"
var cleaned = r.fs.normalizeBuf(&check_browser_map_buf, input_path);
if (cleaned.len == 1 and cleaned[0] == '.') {
// No bundler supports remapping ".", so we don't either
return null;
}
var checker = BrowserMapPath{
.remapped = "",
.cleaned = cleaned,
.input_path = input_path,
.extension_order = r.extension_order,
.map = package_json.browser_map,
};
if (checker.checkPath(input_path)) {
return checker.remapped;
}
// First try the import path as a package path
if (isPackagePath(checker.input_path)) {
switch (comptime kind) {
.AbsolutePath => {
BrowserMapPath.abs_to_rel_buf[0..2].* = "./".*;
std.mem.copy(u8, BrowserMapPath.abs_to_rel_buf[2..], checker.input_path);
if (checker.checkPath(BrowserMapPath.abs_to_rel_buf[0 .. checker.input_path.len + 2])) {
return checker.remapped;
}
},
.PackagePath => {
// Browserify allows a browser map entry of "./pkg" to override a package
// path of "require('pkg')". This is weird, and arguably a bug. But we
// replicate this bug for compatibility. However, Browserify only allows
// this within the same package. It does not allow such an entry in a
// parent package to override this in a child package. So this behavior
// is disallowed if there is a "node_modules" folder in between the child
// package and the parent package.
const isInSamePackage = brk: {
const parent = dir_info.getParent() orelse break :brk true;
break :brk !parent.is_node_modules;
};
if (isInSamePackage) {
BrowserMapPath.abs_to_rel_buf[0..2].* = "./".*;
std.mem.copy(u8, BrowserMapPath.abs_to_rel_buf[2..], checker.input_path);
if (checker.checkPath(BrowserMapPath.abs_to_rel_buf[0 .. checker.input_path.len + 2])) {
return checker.remapped;
}
}
},
}
}
return null;
}
pub fn loadFromMainField(r: *ThisResolver, path: string, dir_info: *DirInfo, _field_rel_path: string, field: string, extension_order: []const string) ?MatchResult {
var field_rel_path = _field_rel_path;
// Is this a directory?
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Found main field \"{s}\" with path \"{s}\"", .{ field, field_rel_path }) catch {};
debug.increaseIndent() catch {};
}
defer {
if (r.debug_logs) |*debug| {
debug.decreaseIndent() catch {};
}
}
// Potentially remap using the "browser" field
if (dir_info.getEnclosingBrowserScope()) |browser_scope| {
if (browser_scope.package_json) |browser_json| {
if (r.checkBrowserMap(
browser_scope,
field_rel_path,
.AbsolutePath,
)) |remap| {
// Is the path disabled?
if (remap.len == 0) {
const paths = [_]string{ path, field_rel_path };
const new_path = r.fs.absAlloc(r.allocator, &paths) catch unreachable;
var _path = Path.init(new_path);
_path.is_disabled = true;
return MatchResult{
.path_pair = PathPair{
.primary = _path,
},
.package_json = browser_json,
};
}
field_rel_path = remap;
}
}
}
const _paths = [_]string{ path, field_rel_path };
const field_abs_path = r.fs.absBuf(&_paths, &field_abs_path_buf);
// Is this a file?
if (r.loadAsFile(field_abs_path, extension_order)) |result| {
if (dir_info.package_json) |package_json| {
return MatchResult{
.path_pair = PathPair{ .primary = Fs.Path.init(result.path) },
.package_json = package_json,
.dirname_fd = result.dirname_fd,
};
}
return MatchResult{
.path_pair = PathPair{ .primary = Fs.Path.init(result.path) },
.dirname_fd = result.dirname_fd,
.diff_case = result.diff_case,
};
}
// Is it a directory with an index?
const field_dir_info = (r.dirInfoCached(field_abs_path) catch null) orelse {
return null;
};
return r.loadAsIndexWithBrowserRemapping(field_dir_info, field_abs_path, extension_order) orelse {
return null;
};
}
pub fn loadAsIndex(r: *ThisResolver, dir_info: *DirInfo, path: string, extension_order: []const string) ?MatchResult {
var rfs = &r.fs.fs;
// Try the "index" file with extensions
for (extension_order) |ext| {
var base = TemporaryBuffer.ExtensionPathBuf[0 .. "index".len + ext.len];
base[0.."index".len].* = "index".*;
std.mem.copy(u8, base["index".len..base.len], ext);
if (dir_info.getEntries()) |entries| {
if (entries.get(base)) |lookup| {
if (lookup.entry.kind(rfs) == .file) {
const out_buf = brk: {
if (lookup.entry.abs_path.isEmpty()) {
const parts = [_]string{ path, base };
const out_buf_ = r.fs.absBuf(&parts, &index_buf);
lookup.entry.abs_path =
PathString.init(r.fs.dirname_store.append(@TypeOf(out_buf_), out_buf_) catch unreachable);
}
break :brk lookup.entry.abs_path.slice();
};
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Found file: \"{s}\"", .{out_buf}) catch unreachable;
}
if (dir_info.package_json) |package_json| {
return MatchResult{
.path_pair = .{ .primary = Path.init(out_buf) },
.diff_case = lookup.diff_case,
.package_json = package_json,
.dirname_fd = dir_info.getFileDescriptor(),
};
}
return MatchResult{
.path_pair = .{ .primary = Path.init(out_buf) },
.diff_case = lookup.diff_case,
.dirname_fd = dir_info.getFileDescriptor(),
};
}
}
}
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Failed to find file: \"{s}/{s}\"", .{ path, base }) catch unreachable;
}
}
return null;
}
pub fn loadAsIndexWithBrowserRemapping(r: *ThisResolver, dir_info: *DirInfo, path_: string, extension_order: []const string) ?MatchResult {
// In order for our path handling logic to be correct, it must end with a trailing slash.
var path = path_;
if (!strings.endsWithChar(path_, std.fs.path.sep)) {
std.mem.copy(u8, &remap_path_trailing_slash, path);
remap_path_trailing_slash[path.len] = std.fs.path.sep;
remap_path_trailing_slash[path.len + 1] = 0;
path = remap_path_trailing_slash[0 .. path.len + 1];
}
if (dir_info.getEnclosingBrowserScope()) |browser_scope| {
const field_rel_path = comptime "index";
if (browser_scope.package_json) |browser_json| {
if (r.checkBrowserMap(
browser_scope,
field_rel_path,
.AbsolutePath,
)) |remap| {
// Is the path disabled?
if (remap.len == 0) {
const paths = [_]string{ path, field_rel_path };
const new_path = r.fs.absBuf(&paths, &remap_path_buf);
var _path = Path.init(new_path);
_path.is_disabled = true;
return MatchResult{
.path_pair = PathPair{
.primary = _path,
},
.package_json = browser_json,
};
}
const new_paths = [_]string{ path, remap };
const remapped_abs = r.fs.absBuf(&new_paths, &remap_path_buf);
// Is this a file
if (r.loadAsFile(remapped_abs, extension_order)) |file_result| {
return MatchResult{ .dirname_fd = file_result.dirname_fd, .path_pair = .{ .primary = Path.init(file_result.path) }, .diff_case = file_result.diff_case };
}
// Is it a directory with an index?
if (r.dirInfoCached(remapped_abs) catch null) |new_dir| {
if (r.loadAsIndex(new_dir, remapped_abs, extension_order)) |absolute| {
return absolute;
}
}
return null;
}
}
}
return r.loadAsIndex(dir_info, path_, extension_order);
}
pub fn loadAsFileOrDirectory(r: *ThisResolver, path: string, kind: ast.ImportKind) ?MatchResult {
const extension_order = r.extension_order;
// Is this a file?
if (r.loadAsFile(path, extension_order)) |file| {
// Determine the package folder by looking at the last node_modules/ folder in the path
if (strings.lastIndexOf(file.path, "node_modules" ++ std.fs.path.sep_str)) |last_node_modules_folder| {
const node_modules_folder_offset = last_node_modules_folder + ("node_modules" ++ std.fs.path.sep_str).len;
// Determine the package name by looking at the next separator
if (strings.indexOfChar(file.path[node_modules_folder_offset..], std.fs.path.sep)) |package_name_length| {
if ((r.dirInfoCached(file.path[0 .. node_modules_folder_offset + package_name_length]) catch null)) |package_dir_info| {
if (package_dir_info.package_json) |package_json| {
return MatchResult{
.path_pair = .{ .primary = Path.init(file.path) },
.diff_case = file.diff_case,
.dirname_fd = file.dirname_fd,
.package_json = package_json,
.file_fd = file.file_fd,
};
}
}
}
}
return MatchResult{
.path_pair = .{ .primary = Path.init(file.path) },
.diff_case = file.diff_case,
.dirname_fd = file.dirname_fd,
.file_fd = file.file_fd,
};
}
// Is this a directory?
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Attempting to load \"{s}\" as a directory", .{path}) catch {};
debug.increaseIndent() catch {};
}
defer {
if (r.debug_logs) |*debug| {
debug.decreaseIndent() catch {};
}
}
const dir_info = (r.dirInfoCached(path) catch |err| {
if (comptime isDebug) Output.prettyErrorln("err: {s} reading {s}", .{ @errorName(err), path });
return null;
}) orelse return null;
var package_json: ?*PackageJSON = null;
// Try using the main field(s) from "package.json"
if (dir_info.package_json) |pkg_json| {
package_json = pkg_json;
if (pkg_json.main_fields.count() > 0) {
const main_field_values = pkg_json.main_fields;
const main_field_keys = r.opts.main_fields;
// TODO: check this works right. Not sure this will really work.
const auto_main = r.opts.main_fields.ptr == options.Platform.DefaultMainFields.get(r.opts.platform).ptr;
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Searching for main fields in \"{s}\"", .{pkg_json.source.path.text}) catch {};
}
for (main_field_keys) |key| {
const field_rel_path = (main_field_values.get(key)) orelse {
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Did not find main field \"{s}\"", .{key}) catch {};
}
continue;
};
var _result = r.loadFromMainField(path, dir_info, field_rel_path, key, extension_order) orelse continue;
// If the user did not manually configure a "main" field order, then
// use a special per-module automatic algorithm to decide whether to
// use "module" or "main" based on whether the package is imported
// using "import" or "require".
if (auto_main and strings.eqlComptime(key, "module")) {
var absolute_result: ?MatchResult = null;
if (main_field_values.get("main")) |main_rel_path| {
if (main_rel_path.len > 0) {
absolute_result = r.loadFromMainField(path, dir_info, main_rel_path, "main", extension_order);
}
} else {
// Some packages have a "module" field without a "main" field but
// still have an implicit "index.js" file. In that case, treat that
// as the value for "main".
absolute_result = r.loadAsIndexWithBrowserRemapping(dir_info, path, extension_order);
}
if (absolute_result) |auto_main_result| {
// If both the "main" and "module" fields exist, use "main" if the
// path is for "require" and "module" if the path is for "import".
// If we're using "module", return enough information to be able to
// fall back to "main" later if something ended up using "require()"
// with this same path. The goal of this code is to avoid having
// both the "module" file and the "main" file in the bundle at the
// same time.
if (kind != ast.ImportKind.require) {
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Resolved to \"{s}\" using the \"module\" field in \"{s}\"", .{ auto_main_result.path_pair.primary.text, pkg_json.source.key_path.text }) catch {};
debug.addNoteFmt("The fallback path in case of \"require\" is {s}", .{auto_main_result.path_pair.primary.text}) catch {};
}
return MatchResult{
.path_pair = .{
.primary = _result.path_pair.primary,
.secondary = auto_main_result.path_pair.primary,
},
.diff_case = _result.diff_case,
.dirname_fd = _result.dirname_fd,
.package_json = package_json,
.file_fd = auto_main_result.file_fd,
};
} else {
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Resolved to \"{s}\" using the \"{s}\" field in \"{s}\"", .{
auto_main_result.path_pair.primary.text,
key,
pkg_json.source.key_path.text,
}) catch {};
}
var _auto_main_result = auto_main_result;
_auto_main_result.package_json = package_json;
return _auto_main_result;
}
}
}
_result.package_json = _result.package_json orelse package_json;
return _result;
}
}
}
// Look for an "index" file with known extensions
if (r.loadAsIndexWithBrowserRemapping(dir_info, path, extension_order)) |*res| {
res.package_json = res.package_json orelse package_json;
return res.*;
}
return null;
}
pub fn loadAsFile(r: *ThisResolver, path: string, extension_order: []const string) ?LoadResult {
var rfs: *Fs.FileSystem.RealFS = &r.fs.fs;
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Attempting to load \"{s}\" as a file", .{path}) catch {};
debug.increaseIndent() catch {};
}
defer {
if (r.debug_logs) |*debug| {
debug.decreaseIndent() catch {};
}
}
const dir_path = Dirname.dirname(path);
const dir_entry: *Fs.FileSystem.RealFS.EntriesOption = rfs.readDirectory(
dir_path,
null,
) catch {
return null;
};
if (@as(Fs.FileSystem.RealFS.EntriesOption.Tag, dir_entry.*) == .err) {
if (dir_entry.err.original_err != error.ENOENT) {
r.log.addErrorFmt(
null,
logger.Loc.Empty,
r.allocator,
"Cannot read directory \"{s}\": {s}",
.{
r.prettyPath(Path.init(dir_path)),
@errorName(dir_entry.err.original_err),
},
) catch {};
}
return null;
}
const entries = dir_entry.entries;
const base = std.fs.path.basename(path);
// Try the plain path without any extensions
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Checking for file \"{s}\" ", .{base}) catch {};
}
if (entries.get(base)) |query| {
if (query.entry.kind(rfs) == .file) {
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Found file \"{s}\" ", .{base}) catch {};
}
const abs_path = brk: {
if (query.entry.abs_path.isEmpty()) {
const abs_path_parts = [_]string{ query.entry.dir, query.entry.base() };
query.entry.abs_path = PathString.init(r.fs.dirname_store.append(string, r.fs.absBuf(&abs_path_parts, &load_as_file_buf)) catch unreachable);
}
break :brk query.entry.abs_path.slice();
};
return LoadResult{
.path = abs_path,
.diff_case = query.diff_case,
.dirname_fd = entries.fd,
.file_fd = query.entry.cache.fd,
};
}
}
// Try the path with extensions
std.mem.copy(u8, &load_as_file_buf, path);
for (r.extension_order) |ext| {
var buffer = load_as_file_buf[0 .. path.len + ext.len];
std.mem.copy(u8, buffer[path.len..buffer.len], ext);
const file_name = buffer[path.len - base.len .. buffer.len];
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Checking for file \"{s}\" ", .{buffer}) catch {};
}
if (entries.get(file_name)) |query| {
if (query.entry.kind(rfs) == .file) {
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Found file \"{s}\" ", .{buffer}) catch {};
}
// now that we've found it, we allocate it.
return LoadResult{
.path = brk: {
query.entry.abs_path = if (query.entry.abs_path.isEmpty())
PathString.init(r.fs.dirname_store.append(@TypeOf(buffer), buffer) catch unreachable)
else
query.entry.abs_path;
break :brk query.entry.abs_path.slice();
},
.diff_case = query.diff_case,
.dirname_fd = entries.fd,
.file_fd = query.entry.cache.fd,
};
}
}
}
// TypeScript-specific behavior: if the extension is ".js" or ".jsx", try
// replacing it with ".ts" or ".tsx". At the time of writing this specific
// behavior comes from the function "loadModuleFromFile()" in the file
// "moduleNameThisResolver.ts" in the TypeScript compiler source code. It
// contains this comment:
//
// If that didn't work, try stripping a ".js" or ".jsx" extension and
// replacing it with a TypeScript one; e.g. "./foo.js" can be matched
// by "./foo.ts" or "./foo.d.ts"
//
// We don't care about ".d.ts" files because we can't do anything with
// those, so we ignore that part of the behavior.
//
// See the discussion here for more historical context:
// https://github.com/microsoft/TypeScript/issues/4595
if (strings.lastIndexOfChar(base, '.')) |last_dot| {
const ext = base[last_dot..base.len];
if (strings.eqlComptime(ext, ".js") or strings.eqlComptime(ext, ".jsx")) {
const segment = base[0..last_dot];
var tail = load_as_file_buf[path.len - base.len ..];
std.mem.copy(u8, tail, segment);
const exts = comptime [_]string{ ".ts", ".tsx" };
inline for (exts) |ext_to_replace| {
var buffer = tail[0 .. segment.len + ext_to_replace.len];
std.mem.copy(u8, buffer[segment.len..buffer.len], ext_to_replace);
if (entries.get(buffer)) |query| {
if (query.entry.kind(rfs) == .file) {
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Rewrote to \"{s}\" ", .{buffer}) catch {};
}
return LoadResult{
.path = brk: {
if (query.entry.abs_path.isEmpty()) {
// Should already have a trailing slash so we shouldn't need to worry.
var parts = [_]string{ query.entry.dir, buffer };
query.entry.abs_path = PathString.init(r.fs.filename_store.append(@TypeOf(parts), parts) catch unreachable);
}
break :brk query.entry.abs_path.slice();
},
.diff_case = query.diff_case,
.dirname_fd = entries.fd,
.file_fd = query.entry.cache.fd,
};
}
}
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Failed to rewrite \"{s}\" ", .{base}) catch {};
}
}
}
}
if (r.debug_logs) |*debug| {
debug.addNoteFmt("Failed to find \"{s}\" ", .{path}) catch {};
}
if (comptime FeatureFlags.watch_directories) {
// For existent directories which don't find a match
// Start watching it automatically,
// onStartWatchingDirectory fn decides whether to actually watch.
if (r.onStartWatchingDirectoryCtx) |ctx| {
r.onStartWatchingDirectory.?(ctx, entries.dir, entries.fd);
}
}
return null;
}
fn dirInfoUncached(
r: *ThisResolver,
info: *DirInfo,
path: string,
_entries: *Fs.FileSystem.RealFS.EntriesOption,
_result: allocators.Result,
dir_entry_index: allocators.IndexType,
parent: ?*DirInfo,
parent_index: allocators.IndexType,
fd: FileDescriptorType,
) anyerror!void {
var result = _result;
var rfs: *Fs.FileSystem.RealFS = &r.fs.fs;
var entries = _entries.entries;
info.* = DirInfo{
.abs_path = path,
// .abs_real_path = path,
.parent = parent_index,
.entries = dir_entry_index,
};
// A "node_modules" directory isn't allowed to directly contain another "node_modules" directory
var base = std.fs.path.basename(path);
// base must
if (base.len > 1 and base[base.len - 1] == std.fs.path.sep) base = base[0 .. base.len - 1];
info.is_node_modules = strings.eqlComptime(base, "node_modules");
// if (entries != null) {
if (!info.is_node_modules) {
if (entries.getComptimeQuery("node_modules")) |entry| {
info.has_node_modules = (entry.entry.kind(rfs)) == .dir;
}
}
if (r.care_about_bin_folder) {
append_bin_dir: {
if (info.has_node_modules) {
if (entries.getComptimeQuery("node_modules")) |q| {
if (!bin_folders_loaded) {
bin_folders_loaded = true;
bin_folders = BinFolderArray.init(0) catch unreachable;
}
const this_dir = std.fs.Dir{ .fd = fd };
var file = this_dir.openDirZ("node_modules/.bin", .{}) catch break :append_bin_dir;
defer file.close();
var bin_path = std.os.getFdPath(file.fd, &node_bin_path) catch break :append_bin_dir;
bin_folders_lock.lock();
defer bin_folders_lock.unlock();
for (bin_folders.constSlice()) |existing_folder| {
if (strings.eql(existing_folder, bin_path)) {
break :append_bin_dir;
}
}
bin_folders.append(r.fs.dirname_store.append([]u8, bin_path) catch break :append_bin_dir) catch {};
}
}
if (info.is_node_modules) {
if (entries.getComptimeQuery(".bin")) |q| {
if (q.entry.kind(rfs) == .dir) {
if (!bin_folders_loaded) {
bin_folders_loaded = true;
bin_folders = BinFolderArray.init(0) catch unreachable;
}
const this_dir = std.fs.Dir{ .fd = fd };
var file = this_dir.openDirZ(".bin", .{}) catch break :append_bin_dir;
defer file.close();
var bin_path = std.os.getFdPath(file.fd, &node_bin_path) catch break :append_bin_dir;
bin_folders_lock.lock();
defer bin_folders_lock.unlock();
for (bin_folders.constSlice()) |existing_folder| {
if (strings.eql(existing_folder, bin_path)) {
break :append_bin_dir;
}
}
bin_folders.append(r.fs.dirname_store.append([]u8, bin_path) catch break :append_bin_dir) catch {};
}
}
}
}
}
// }
if (parent != null) {
// Propagate the browser scope into child directories
info.enclosing_browser_scope = parent.?.enclosing_browser_scope;
info.package_json_for_browser_field = parent.?.package_json_for_browser_field;
info.enclosing_tsconfig_json = parent.?.enclosing_tsconfig_json;
info.enclosing_package_json = parent.?.package_json orelse parent.?.enclosing_package_json;
// Make sure "absRealPath" is the real path of the directory (resolving any symlinks)
if (!r.opts.preserve_symlinks) {
if (parent.?.getEntries()) |parent_entries| {
if (parent_entries.get(base)) |lookup| {
if (entries.fd != 0 and lookup.entry.cache.fd == 0) lookup.entry.cache.fd = entries.fd;
const entry = lookup.entry;
var symlink = entry.symlink(rfs);
if (symlink.len > 0) {
if (r.debug_logs) |*logs| {
try logs.addNote(std.fmt.allocPrint(r.allocator, "Resolved symlink \"{s}\" to \"{s}\"", .{ path, symlink }) catch unreachable);
}
info.abs_real_path = symlink;
} else if (parent.?.abs_real_path.len > 0) {
// this might leak a little i'm not sure
const parts = [_]string{ parent.?.abs_real_path, base };
symlink = r.fs.dirname_store.append(string, r.fs.absBuf(&parts, &dir_info_uncached_filename_buf)) catch unreachable;
if (r.debug_logs) |*logs| {
try logs.addNote(std.fmt.allocPrint(r.allocator, "Resolved symlink \"{s}\" to \"{s}\"", .{ path, symlink }) catch unreachable);
}
lookup.entry.cache.symlink = PathString.init(symlink);
info.abs_real_path = symlink;
}
}
}
}
}
// Record if this directory has a package.json file
if (entries.getComptimeQuery("package.json")) |lookup| {
const entry = lookup.entry;
if (entry.kind(rfs) == .file) {
info.package_json = r.parsePackageJSON(path, if (FeatureFlags.store_file_descriptors) fd else 0) catch null;
if (info.package_json) |pkg| {
if (pkg.browser_map.count() > 0) {
info.enclosing_browser_scope = result.index;
info.package_json_for_browser_field = pkg;
}
info.enclosing_package_json = pkg;
if (r.debug_logs) |*logs| {
logs.addNoteFmt("Resolved package.json in \"{s}\"", .{
path,
}) catch unreachable;
}
}
}
}
// Record if this directory has a tsconfig.json or jsconfig.json file
{
var tsconfig_path: ?string = null;
if (r.opts.tsconfig_override == null) {
if (entries.getComptimeQuery("tsconfig.json")) |lookup| {
const entry = lookup.entry;
if (entry.kind(rfs) == .file) {
const parts = [_]string{ path, "tsconfig.json" };
tsconfig_path = r.fs.absBuf(&parts, &dir_info_uncached_filename_buf);
}
}
if (tsconfig_path == null) {
if (entries.getComptimeQuery("jsconfig.json")) |lookup| {
const entry = lookup.entry;
if (entry.kind(rfs) == .file) {
const parts = [_]string{ path, "jsconfig.json" };
tsconfig_path = r.fs.absBuf(&parts, &dir_info_uncached_filename_buf);
}
}
}
} else if (parent == null) {
tsconfig_path = r.opts.tsconfig_override.?;
}
if (tsconfig_path) |tsconfigpath| {
info.tsconfig_json = r.parseTSConfig(
tsconfigpath,
if (FeatureFlags.store_file_descriptors) fd else 0,
) catch |err| brk: {
const pretty = r.prettyPath(Path.init(tsconfigpath));
if (err == error.ENOENT) {
r.log.addErrorFmt(null, logger.Loc.Empty, r.allocator, "Cannot find tsconfig file \"{s}\"", .{pretty}) catch unreachable;
} else if (err != error.ParseErrorAlreadyLogged and err != error.IsDir) {
r.log.addErrorFmt(null, logger.Loc.Empty, r.allocator, "Cannot read file \"{s}\": {s}", .{ pretty, @errorName(err) }) catch unreachable;
}
break :brk null;
};
info.enclosing_tsconfig_json = info.tsconfig_json;
}
}
}
};
pub const Dirname = struct {
pub fn dirname(path: string) string {
if (path.len == 0)
return "/";
var end_index: usize = path.len - 1;
while (path[end_index] == '/') {
if (end_index == 0)
return "/";
end_index -= 1;
}
while (path[end_index] != '/') {
if (end_index == 0)
return "/";
end_index -= 1;
}
if (end_index == 0 and path[0] == '/')
return path[0..1];
if (end_index == 0)
return "/";
return path[0 .. end_index + 1];
}
};
test "murmur" {
var str = try std.heap.c_allocator.alloc(u8, "swiper@6.8.2swiper.cjs.js".len);
var str2 = try std.heap.c_allocator.alloc(u8, "swiper@6.8.2swiper.cjs.js".len);
std.mem.copy(u8, str, "swiper@6.8.2swiper.cjs.js");
std.mem.copy(u8, str2, "swiper@6.8.2swiper.cjs.js");
try std.testing.expectEqual(
std.hash.murmur.Murmur3_32.hash(str),
std.hash.murmur.Murmur3_32.hash(str2),
);
}
pub const RootPathPair = struct {
base_path: string,
package_json: *const PackageJSON,
};
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