usingnamespace @import("./shared.zig"); usingnamespace @import("./headers.zig"); pub const Shimmer = @import("./shimmer.zig").Shimmer; const hasRef = std.meta.trait.hasField("ref"); pub const JSObject = extern struct { pub const shim = Shimmer("JSC", "JSObject", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::JSObject"; pub const namespace = "JSC"; pub extern "c" fn putAtIndex(this: *JSObject, globalThis: *JSGlobalObject, property_name: *PropertyName, i: u32) bool; pub fn getArrayLength(this: *JSObject) usize { return cppFn("getArrayLength", .{ this, }); } pub fn getAtIndex(this: *JSObject, globalThis: *JSGlobalObject, property_name: *PropertyName, i: u32) JSValue { return cppFn("getAtIndex", .{ this, property_name, i, }); } pub const Extern = [_][]const u8{ "getArrayLength", "getAtIndex", "putAtIndex", }; }; pub const ZigString = extern struct { ptr: [*]const u8, len: usize, pub fn init(slice_: []const u8) ZigString { return ZigString{ .ptr = slice_.ptr, .len = slice_.len }; } pub const Empty = ZigString{ .ptr = "", .len = 0 }; pub fn slice(this: *const ZigString) []const u8 { return this.ptr[0..std.math.min(this.len, 4096)]; } }; pub const JSCell = extern struct { pub const shim = Shimmer("JSC", "JSCell", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::JSCell"; pub const namespace = "JSC"; const CellType = enum(u8) { _ }; pub fn getObject(this: *JSCell) *JSObject { return shim.cppFn("getObject", .{this}); } pub fn getString(this: *JSCell, globalObject: *JSGlobalObject) String { return shim.cppFn("getString", .{ this, globalObject }); } pub fn getType(this: *JSCell) u8 { return shim.cppFn("getType", .{ this, }); } pub const Extern = [_][]const u8{ "getObject", "getString", "getType" }; }; pub const JSString = extern struct { pub const shim = Shimmer("JSC", "JSString", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::JSString"; pub const namespace = "JSC"; pub fn toObject(this: *JSString, global: *JSGlobalObject) ?*JSObject { return shim.cppFn("toObject", .{ this, global }); } pub fn eql(this: *const JSString, global: *JSGlobalObject, other: *JSString) bool { return shim.cppFn("eql", .{ this, global, other }); } pub fn value(this: *JSString, globalObject: *JSGlobalObject) String { return shim.cppFn("value", .{ this, globalObject }); } pub fn length(this: *const JSString) usize { return shim.cppFn("length", .{ this, }); } pub fn is8Bit(this: *const JSString) bool { return shim.cppFn("is8Bit", .{ this, }); } pub fn createFromOwnedString(vm: *VM, str: *const String) *JSString { return shim.cppFn("createFromOwnedString", .{ vm, str, }); } pub fn createFromString(vm: *VM, str: *const String) *JSString { return shim.cppFn("createFromString", .{ vm, str, }); } pub const Extern = [_][]const u8{ "toObject", "eql", "value", "length", "is8Bit", "createFromOwnedString", "createFromString" }; }; pub const JSPromiseRejectionOperation = enum(u32) { Reject = 0, Handle = 1, }; pub const ScriptArguments = extern struct { pub const shim = Shimmer("Inspector", "ScriptArguments", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "Inspector::ScriptArguments"; pub const namespace = "Inspector"; pub fn argumentAt(this: *ScriptArguments, i: usize) JSValue { return cppFn("argumentAt", .{ this, i, }); } pub fn argumentCount(this: *ScriptArguments) usize { return cppFn("argumentCount", .{ this, }); } pub fn getFirstArgumentAsString(this: *ScriptArguments) String { return cppFn("getFirstArgumentAsString", .{ this, }); } pub fn isEqual(this: *ScriptArguments, other: *ScriptArguments) bool { return cppFn("isEqual", .{ this, other }); } pub fn release(this: *ScriptArguments) void { return cppFn("release", .{this}); } pub const Extern = [_][]const u8{ "argumentAt", "argumentCount", "getFirstArgumentAsString", "isEqual", "release", }; }; pub fn NewGlobalObject(comptime Type: type) type { return struct { pub fn import(global: *JSGlobalObject, specifier: ZigString, source: ZigString) callconv(.C) ErrorableZigString { if (comptime @hasDecl(Type, "import")) { return @call(.{ .modifier = .always_inline }, Type.import, .{ global, specifier, source }); } return ErrorableZigString.err(error.ImportFailed, "Import not implemented"); } pub fn resolve(global: *JSGlobalObject, specifier: ZigString, source: ZigString) callconv(.C) ErrorableZigString { if (comptime @hasDecl(Type, "resolve")) { return @call(.{ .modifier = .always_inline }, Type.resolve, .{ global, specifier, source }); } return ErrorableZigString.err(error.ResolveFailed, "resolve not implemented"); } pub fn fetch(global: *JSGlobalObject, specifier: ZigString, source: ZigString) callconv(.C) ErrorableResolvedSource { if (comptime @hasDecl(Type, "fetch")) { return @call(.{ .modifier = .always_inline }, Type.fetch, .{ global, specifier, source }); } return ErrorableResolvedSource.err(error.FetchFailed, "Module fetch not implemented"); } pub fn promiseRejectionTracker(global: *JSGlobalObject, promise: *JSPromise, rejection: JSPromiseRejectionOperation) callconv(.C) JSValue { if (comptime @hasDecl(Type, "promiseRejectionTracker")) { return @call(.{ .modifier = .always_inline }, Type.promiseRejectionTracker, .{ global, promise, rejection }); } return JSValue.jsUndefined(); } pub fn reportUncaughtException(global: *JSGlobalObject, exception: *Exception) callconv(.C) JSValue { if (comptime @hasDecl(Type, "reportUncaughtException")) { return @call(.{ .modifier = .always_inline }, Type.reportUncaughtException, .{ global, exception }); } return JSValue.jsUndefined(); } pub fn createImportMetaProperties(global: *JSGlobalObject, loader: *JSModuleLoader, obj: JSValue, record: *JSModuleRecord, specifier: JSValue) callconv(.C) JSValue { if (comptime @hasDecl(Type, "createImportMetaProperties")) { return @call(.{ .modifier = .always_inline }, Type.createImportMetaProperties, .{ global, loader, obj, record, specifier }); } return JSValue.jsUndefined(); } pub fn onCrash() callconv(.C) void { if (comptime @hasDecl(Type, "onCrash")) { return @call(.{ .modifier = .always_inline }, Type.onCrash, .{}); } Global.panic("C++ crashed :(", .{}); } }; } pub const JSModuleLoader = extern struct { pub const shim = Shimmer("JSC", "JSModuleLoader", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::JSModuleLoader"; pub const namespace = "JSC"; pub fn evaluate( globalObject: *JSGlobalObject, sourceCodePtr: [*]const u8, sourceCodeLen: usize, originUrlPtr: [*]const u8, originUrlLen: usize, thisValue: JSValue, exception: [*]JSValue, ) JSValue { return shim.cppFn("evaluate", .{ globalObject, sourceCodePtr, sourceCodeLen, originUrlPtr, originUrlLen, thisValue, exception, }); } pub fn loadAndEvaluateModuleEntryPoint(globalObject: *JSGlobalObject, source_code: *const SourceCode) *JSInternalPromise { return shim.cppFn("loadAndEvaluateModuleEntryPoint", .{ globalObject, source_code, }); } pub fn loadAndEvaluateModule(globalObject: *JSGlobalObject, module_name: ZigString) *JSInternalPromise { return shim.cppFn("loadAndEvaluateModule", .{ globalObject, module_name, }); } pub fn importModule(globalObject: *JSGlobalObject, key: *const Identifier) *JSInternalPromise { return shim.cppFn("importModule", .{ globalObject, key, }); } pub fn linkAndEvaluateModule(globalObject: *JSGlobalObject, key: *const Identifier) JSValue { return shim.cppFn("linkAndEvaluateModule", .{ globalObject, key, }); } pub fn checkSyntax(globalObject: *JSGlobalObject, source_code: *const SourceCode, is_module: bool) bool { return shim.cppFn("checkSyntax", .{ globalObject, source_code, is_module, }); } // pub fn dependencyKeysIfEvaluated(this: *JSModuleLoader, globalObject: *JSGlobalObject, moduleRecord: *JSModuleRecord) *JSValue { // return shim.cppFn("dependencyKeysIfEvaluated", .{ this, globalObject, moduleRecord }); // } pub const Extern = [_][]const u8{ // "dependencyKeysIfEvaluated", "evaluate", "loadAndEvaluateModuleEntryPoint", "loadAndEvaluateModule", "importModule", "linkAndEvaluateModule", "checkSyntax", }; }; pub const JSModuleRecord = extern struct { pub const shim = Shimmer("JSC", "JSModuleRecord", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::JSModuleRecord"; pub const namespace = "JSC"; pub fn sourceCode(this: *JSModuleRecord) SourceCode { return shim.cppFn("sourceCode", .{ this, }); } pub const Extern = [_][]const u8{ "sourceCode", }; }; pub const JSPromise = extern struct { pub const shim = Shimmer("JSC", "JSPromise", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::JSPromise"; pub const namespace = "JSC"; pub const Status = enum(u32) { Pending = 0, // Making this as 0, so that, we can change the status from Pending to others without masking. Fulfilled = 1, Rejected = 2, }; pub fn status(this: *const JSPromise, vm: *VM) Status { return shim.cppFn("status", .{ this, vm }); } pub fn result(this: *const JSPromise, vm: *VM) JSValue { return cppFn("result", .{ this, vm }); } pub fn isHandled(this: *const JSPromise, vm: *VM) bool { return cppFn("isHandled", .{ this, vm }); } pub fn rejectWithCaughtException(this: *JSPromise, globalObject: *JSGlobalObject, scope: ThrowScope) void { return cppFn("rejectWithCaughtException", .{ this, globalObject, scope }); } pub fn resolvedPromise(globalThis: *JSGlobalObject, value: JSValue) *JSPromise { return cppFn("resolvedPromise", .{ globalThis, value }); } pub fn rejectedPromise(globalThis: *JSGlobalObject, value: JSValue) *JSPromise { return cppFn("rejectedPromise", .{ globalThis, value }); } pub fn resolve(this: *JSPromise, globalThis: *JSGlobalObject, value: JSValue) void { cppFn("resolve", .{ this, globalThis, value }); } pub fn reject(this: *JSPromise, globalThis: *JSGlobalObject, value: JSValue) void { cppFn("reject", .{ this, globalThis, value }); } pub fn rejectAsHandled(this: *JSPromise, globalThis: *JSGlobalObject, value: JSValue) void { cppFn("rejectAsHandled", .{ this, globalThis, value }); } // pub fn rejectException(this: *JSPromise, globalThis: *JSGlobalObject, value: *Exception) void { // cppFn("rejectException", .{ this, globalThis, value }); // } pub fn rejectAsHandledException(this: *JSPromise, globalThis: *JSGlobalObject, value: *Exception) void { cppFn("rejectAsHandledException", .{ this, globalThis, value }); } pub const Extern = [_][]const u8{ "rejectWithCaughtException", "status", "result", "isHandled", "resolvedPromise", "rejectedPromise", "resolve", "reject", "rejectAsHandled", // "rejectException", "rejectAsHandledException", }; }; pub const JSInternalPromise = extern struct { pub const shim = Shimmer("JSC", "JSInternalPromise", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::JSInternalPromise"; pub const namespace = "JSC"; pub fn status(this: *const JSInternalPromise, vm: *VM) JSPromise.Status { return shim.cppFn("status", .{ this, vm }); } pub fn result(this: *const JSInternalPromise, vm: *VM) JSValue { return cppFn("result", .{ this, vm }); } pub fn isHandled(this: *const JSInternalPromise, vm: *VM) bool { return cppFn("isHandled", .{ this, vm }); } pub fn rejectWithCaughtException(this: *JSInternalPromise, globalObject: *JSGlobalObject, scope: ThrowScope) void { return cppFn("rejectWithCaughtException", .{ this, globalObject, scope }); } pub fn resolvedPromise(globalThis: *JSGlobalObject, value: JSValue) *JSInternalPromise { return cppFn("resolvedPromise", .{ globalThis, value }); } pub fn rejectedPromise(globalThis: *JSGlobalObject, value: JSValue) *JSInternalPromise { return cppFn("rejectedPromise", .{ globalThis, value }); } pub fn resolve(this: *JSInternalPromise, globalThis: *JSGlobalObject, value: JSValue) void { cppFn("resolve", .{ this, globalThis, value }); } pub fn reject(this: *JSInternalPromise, globalThis: *JSGlobalObject, value: JSValue) void { cppFn("reject", .{ this, globalThis, value }); } pub fn rejectAsHandled(this: *JSInternalPromise, globalThis: *JSGlobalObject, value: JSValue) void { cppFn("rejectAsHandled", .{ this, globalThis, value }); } // pub fn rejectException(this: *JSInternalPromise, globalThis: *JSGlobalObject, value: *Exception) void { // cppFn("rejectException", .{ this, globalThis, value }); // } pub fn rejectAsHandledException(this: *JSInternalPromise, globalThis: *JSGlobalObject, value: *Exception) void { cppFn("rejectAsHandledException", .{ this, globalThis, value }); } pub fn then(this: *JSInternalPromise, globalThis: *JSGlobalObject, resolvefunc: ?*JSFunction, rejectfunc: ?*JSFunction) *JSInternalPromise { return cppFn("then", .{ this, globalThis, resolvefunc, rejectfunc }); } pub fn create(globalThis: *JSGlobalObject) *JSInternalPromise { return cppFn("create", .{globalThis}); } pub const Extern = [_][]const u8{ "create", "then", "rejectWithCaughtException", "status", "result", "isHandled", "resolvedPromise", "rejectedPromise", "resolve", "reject", "rejectAsHandled", // "rejectException", "rejectAsHandledException", }; }; // SourceProvider.h pub const SourceType = enum(u8) { Program = 0, Module = 1, WebAssembly = 2, }; pub const SourceOrigin = extern struct { pub const shim = Shimmer("JSC", "SourceOrigin", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::SourceOrigin"; pub const namespace = "JSC"; pub fn fromURL(url: *const URL) SourceOrigin { return cppFn("fromURL", .{url}); } pub const Extern = [_][]const u8{ "fromURL", }; }; pub const SourceCode = extern struct { pub const shim = Shimmer("JSC", "SourceCode", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::SourceCode"; pub const namespace = "JSC"; pub fn fromString(result: *SourceCode, source: *const String, origin: ?*const SourceOrigin, filename: ?*String, source_type: SourceType) void { cppFn("fromString", .{ result, source, origin, filename, @enumToInt(source_type) }); } pub const Extern = [_][]const u8{ "fromString", }; }; pub const JSFunction = extern struct { pub const shim = Shimmer("JSC", "JSFunction", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::JSFunction"; pub const namespace = "JSC"; pub const NativeFunctionCallback = fn (ctx: ?*c_void, global: *JSGlobalObject, call_frame: *CallFrame) callconv(.C) JSValue; pub fn createFromSourceCode( global: *JSGlobalObject, function_name: ?[*]const u8, function_name_len: u16, args: ?[*]JSValue, args_len: u16, source: *const SourceCode, origin: *SourceOrigin, exception: *?*JSObject, ) *JSFunction { return cppFn("createFromSourceCode", .{ global, function_name, function_name_len, args, args_len, source, origin, exception, }); } pub fn createFromNative( global: *JSGlobalObject, argument_count: u16, name_: ?*const String, ctx: ?*c_void, func: NativeFunctionCallback, ) *JSFunction { return cppFn("createFromNative", .{ global, argument_count, name_, ctx, func }); } pub fn getName(this: *JSFunction, vm: *VM) String { return cppFn("getName", .{ this, vm }); } pub fn displayName(this: *JSFunction, vm: *VM) String { return cppFn("displayName", .{ this, vm }); } pub fn calculatedDisplayName(this: *JSFunction, vm: *VM) String { return cppFn("calculatedDisplayName", .{ this, vm }); } pub fn toString(this: *JSFunction, globalThis: *JSGlobalObject) *const JSString { return cppFn("toString", .{ this, globalThis }); } pub fn callWithArgumentsAndThis( function: JSValue, thisValue: JSValue, globalThis: *JSGlobalObject, arguments_ptr: [*]JSValue, arguments_len: usize, exception: *?*Exception, error_message: *const c_char, ) JSValue { return cppFn("callWithArgumentsAndThis", .{ function, globalThis, thisValue, arguments_ptr, arguments_len, exception, error_message, }); } pub fn callWithArguments( function: JSValue, globalThis: *JSGlobalObject, arguments_ptr: [*]JSValue, arguments_len: usize, exception: *?*Exception, error_message: *const c_char, ) JSValue { return cppFn("callWithArguments", .{ function, globalThis, arguments_ptr, arguments_len, exception, exception, error_message }); } pub fn callWithThis( function: JSValue, globalThis: *JSGlobalObject, thisValue: JSValue, exception: *?*Exception, error_message: *const c_char, ) JSValue { return cppFn("callWithArguments", .{ function, globalThis, thisValue, exception, error_message, }); } pub fn callWithoutAnyArgumentsOrThis( function: JSValue, globalThis: *JSGlobalObject, exception: *?*Exception, error_message: *const c_char, ) JSValue { return cppFn("callWithoutAnyArgumentsOrThis", .{ function, globalThis, exception, exception, error_message }); } pub fn constructWithArgumentsAndNewTarget( function: JSValue, newTarget: JSValue, globalThis: *JSGlobalObject, arguments_ptr: [*]JSValue, arguments_len: usize, exception: *?*Exception, error_message: *const c_char, ) JSValue { return cppFn("constructWithArgumentsAndNewTarget", .{ function, globalThis, newTarget, arguments_ptr, arguments_len, exception, error_message, }); } pub fn constructWithArguments( function: JSValue, globalThis: *JSGlobalObject, arguments_ptr: [*]JSValue, arguments_len: usize, exception: *?*Exception, error_message: *const c_char, ) JSValue { return cppFn("constructWithArguments", .{ function, globalThis, arguments_ptr, arguments_len, exception, exception, error_message }); } pub fn constructWithNewTarget( function: JSValue, globalThis: *JSGlobalObject, newTarget: JSValue, exception: *?*Exception, error_message: *const c_char, ) JSValue { return cppFn("constructWithArguments", .{ function, globalThis, newTarget, exception, error_message, }); } pub fn constructWithoutAnyArgumentsOrNewTarget( function: JSValue, globalThis: *JSGlobalObject, exception: *?*Exception, error_message: *const c_char, ) JSValue { return cppFn("constructWithoutAnyArgumentsOrNewTarget", .{ function, globalThis, exception, exception, error_message }); } pub const Extern = [_][]const u8{ "fromString", "createFromSourceCode", "createFromNative", "getName", "displayName", "calculatedDisplayName", "callWithArgumentsAndThis", "callWithArguments", "callWithThis", "callWithoutAnyArgumentsOrThis", "constructWithArgumentsAndNewTarget", "constructWithArguments", "constructWithNewTarget", "constructWithoutAnyArgumentsOrNewTarget", }; }; pub const JSGlobalObject = extern struct { pub const shim = Shimmer("JSC", "JSGlobalObject", @This()); bytes: shim.Bytes, pub const include = ""; pub const name = "JSC::JSGlobalObject"; pub const namespace = "JSC"; // pub fn createError(globalObject: *JSGlobalObject, error_type: ErrorType, message: *String) *JSObject { // return cppFn("createError", .{ globalObject, error_type, message }); // } // pub fn throwError( // globalObject: *JSGlobalObject, // err: *JSObject, // ) *JSObject { // return cppFn("throwError", .{ // globalObject, // err, // }); // } const cppFn = shim.cppFn; pub fn objectPrototype(this: *JSGlobalObject) *ObjectPrototype { return cppFn("objectPrototype", .{this}); } pub fn functionPrototype(this: *JSGlobalObject) *FunctionPrototype { return cppFn("functionPrototype", .{this}); } pub fn arrayPrototype(this: *JSGlobalObject) *ArrayPrototype { return cppFn("arrayPrototype", .{this}); } pub fn booleanPrototype(this: *JSGlobalObject) *JSObject { return cppFn("booleanPrototype", .{this}); } pub fn stringPrototype(this: *JSGlobalObject) *StringPrototype { return cppFn("stringPrototype", .{this}); } pub fn numberPrototype(this: *JSGlobalObject) *JSObject { return cppFn("numberPrototype", .{this}); } pub fn bigIntPrototype(this: *JSGlobalObject) *BigIntPrototype { return cppFn("bigIntPrototype", .{this}); } pub fn datePrototype(this: *JSGlobalObject) *JSObject { return cppFn("datePrototype", .{this}); } pub fn symbolPrototype(this: *JSGlobalObject) *JSObject { return cppFn("symbolPrototype", .{this}); } pub fn regExpPrototype(this: *JSGlobalObject) *RegExpPrototype { return cppFn("regExpPrototype", .{this}); } pub fn errorPrototype(this: *JSGlobalObject) *JSObject { return cppFn("errorPrototype", .{this}); } pub fn iteratorPrototype(this: *JSGlobalObject) *IteratorPrototype { return cppFn("iteratorPrototype", .{this}); } pub fn asyncIteratorPrototype(this: *JSGlobalObject) *AsyncIteratorPrototype { return cppFn("asyncIteratorPrototype", .{this}); } pub fn generatorFunctionPrototype(this: *JSGlobalObject) *GeneratorFunctionPrototype { return cppFn("generatorFunctionPrototype", .{this}); } pub fn generatorPrototype(this: *JSGlobalObject) *GeneratorPrototype { return cppFn("generatorPrototype", .{this}); } pub fn asyncFunctionPrototype(this: *JSGlobalObject) *AsyncFunctionPrototype { return cppFn("asyncFunctionPrototype", .{this}); } pub fn arrayIteratorPrototype(this: *JSGlobalObject) *ArrayIteratorPrototype { return cppFn("arrayIteratorPrototype", .{this}); } pub fn mapIteratorPrototype(this: *JSGlobalObject) *MapIteratorPrototype { return cppFn("mapIteratorPrototype", .{this}); } pub fn setIteratorPrototype(this: *JSGlobalObject) *SetIteratorPrototype { return cppFn("setIteratorPrototype", .{this}); } pub fn mapPrototype(this: *JSGlobalObject) *JSObject { return cppFn("mapPrototype", .{this}); } pub fn jsSetPrototype(this: *JSGlobalObject) *JSObject { return cppFn("jsSetPrototype", .{this}); } pub fn promisePrototype(this: *JSGlobalObject) *JSPromisePrototype { return cppFn("promisePrototype", .{this}); } pub fn asyncGeneratorPrototype(this: *JSGlobalObject) *AsyncGeneratorPrototype { return cppFn("asyncGeneratorPrototype", .{this}); } pub fn asyncGeneratorFunctionPrototype(this: *JSGlobalObject) *AsyncGeneratorFunctionPrototype { return cppFn("asyncGeneratorFunctionPrototype", .{this}); } pub fn vm(this: *JSGlobalObject) *VM { return cppFn("vm", .{this}); } pub const Extern = [_][]const u8{ "objectPrototype", "functionPrototype", "arrayPrototype", "booleanPrototype", "stringPrototype", "numberPrototype", "bigIntPrototype", "datePrototype", "symbolPrototype", "regExpPrototype", "errorPrototype", "iteratorPrototype", "asyncIteratorPrototype", "generatorFunctionPrototype", "generatorPrototype", "asyncFunctionPrototype", "arrayIteratorPrototype", "mapIteratorPrototype", "setIteratorPrototype", "mapPrototype", "jsSetPrototype", "promisePrototype", "asyncGeneratorPrototype", "asyncGeneratorFunctionPrototype", "vm", // "createError", // "throwError", }; }; fn _JSCellStub(comptime str: []const u8) type { if (is_bindgen) { return opaque { pub const name = "JSC::" ++ str ++ ""; }; } else { return opaque {}; } } fn _Wundle(comptime str: []const u8) type { if (is_bindgen) { return opaque { pub const name = "Wundle::" ++ str ++ ""; }; } else { return opaque {}; } } fn _WTF(comptime str: []const u8) type { if (is_bindgen) { return opaque { pub const name = "WTF::" ++ str ++ ""; }; } else { return opaque {}; } } pub const URL = extern struct { pub const shim = Shimmer("WTF", "URL", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "WTF::URL"; pub const namespace = "WTF"; pub fn fromString(base: String, relative: String) URL { return cppFn("fromString", .{ base, relative }); } pub fn fromFileSystemPath(result: *URL, file_system_path: StringView) void { cppFn("fromFileSystemPath", .{ result, file_system_path }); } pub fn isEmpty(this: *const URL) bool { return cppFn("isEmpty", .{this}); } pub fn isValid(this: *const URL) bool { return cppFn("isValid", .{this}); } pub fn protocol(this: *URL) StringView { return cppFn("protocol", .{this}); } pub fn encodedUser(this: *URL) StringView { return cppFn("encodedUser", .{this}); } pub fn encodedPassword(this: *URL) StringView { return cppFn("encodedPassword", .{this}); } pub fn host(this: *URL) StringView { return cppFn("host", .{this}); } pub fn path(this: *URL) StringView { return cppFn("path", .{this}); } pub fn lastPathComponent(this: *URL) StringView { return cppFn("lastPathComponent", .{this}); } pub fn query(this: *URL) StringView { return cppFn("query", .{this}); } pub fn fragmentIdentifier(this: *URL) StringView { return cppFn("fragmentIdentifier", .{this}); } pub fn queryWithLeadingQuestionMark(this: *URL) StringView { return cppFn("queryWithLeadingQuestionMark", .{this}); } pub fn fragmentIdentifierWithLeadingNumberSign(this: *URL) StringView { return cppFn("fragmentIdentifierWithLeadingNumberSign", .{this}); } pub fn stringWithoutQueryOrFragmentIdentifier(this: *URL) StringView { return cppFn("stringWithoutQueryOrFragmentIdentifier", .{this}); } pub fn stringWithoutFragmentIdentifier(this: *URL) String { return cppFn("stringWithoutFragmentIdentifier", .{this}); } pub fn protocolHostAndPort(this: *URL) String { return cppFn("protocolHostAndPort", .{this}); } pub fn hostAndPort(this: *URL) String { return cppFn("hostAndPort", .{this}); } pub fn user(this: *URL) String { return cppFn("user", .{this}); } pub fn password(this: *URL) String { return cppFn("password", .{this}); } pub fn fileSystemPath(this: *URL) String { return cppFn("fileSystemPath", .{this}); } pub fn setProtocol(this: *URL, protocol_value: StringView) void { return cppFn("setProtocol", .{ this, protocol_value }); } pub fn setHost(this: *URL, host_value: StringView) void { return cppFn("setHost", .{ this, host_value }); } pub fn setHostAndPort(this: *URL, host_and_port_value: StringView) void { return cppFn("setHostAndPort", .{ this, host_and_port_value }); } pub fn setUser(this: *URL, user_value: StringView) void { return cppFn("setUser", .{ this, user_value }); } pub fn setPassword(this: *URL, password_value: StringView) void { return cppFn("setPassword", .{ this, password_value }); } pub fn setPath(this: *URL, path_value: StringView) void { return cppFn("setPath", .{ this, path_value }); } pub fn setQuery(this: *URL, query_value: StringView) void { return cppFn("setQuery", .{ this, query_value }); } pub fn truncatedForUseAsBase( this: *URL, ) URL { return cppFn("truncatedForUseAsBase", .{ this, }); } pub const Extern = [_][]const u8{ "fromFileSystemPath", "fromString", "isEmpty", "isValid", "protocol", "encodedUser", "encodedPassword", "host", "path", "lastPathComponent", "query", "fragmentIdentifier", "queryWithLeadingQuestionMark", "fragmentIdentifierWithLeadingNumberSign", "stringWithoutQueryOrFragmentIdentifier", "stringWithoutFragmentIdentifier", "protocolHostAndPort", "hostAndPort", "user", "password", "fileSystemPath", "setProtocol", "setHost", "setHostAndPort", "setUser", "setPassword", "setPath", "setQuery", "truncatedForUseAsBase" }; }; pub const String = extern struct { pub const shim = Shimmer("WTF", "String", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "WTF::String"; pub const namespace = "WTF"; pub fn createWithoutCopyingFromPtr(out: *String, str: [*c]const u8, len: usize) void { return cppFn("createWithoutCopyingFromPtr", .{ out, str, len }); } pub fn createFromExternalString(str: ExternalStringImpl) String { return cppFn("createFromExternalString", .{ str, }); } pub fn createWithoutCopying(str: []const u8) String { var bytes = String{ .bytes = undefined }; @call(.{ .modifier = .always_inline }, createWithoutCopyingFromPtr, .{ &bytes, str.ptr, str.len }); return bytes; } pub fn is8Bit(this: *String) bool { return cppFn("is8Bit", .{this}); } pub fn is16Bit(this: *String) bool { return cppFn("is16Bit", .{this}); } pub fn isExternal(this: *String) bool { return cppFn("isExternal", .{this}); } pub fn isStatic(this: *String) bool { return cppFn("isStatic", .{this}); } pub fn isEmpty(this: *String) bool { return cppFn("isEmpty", .{this}); } pub fn length(this: *String) usize { return cppFn("length", .{this}); } pub fn characters8(this: *String) [*]const u8 { return cppFn("characters8", .{this}); } pub fn characters16(this: *String) [*]const u16 { return cppFn("characters16", .{this}); } pub fn eqlString(this: *String, other: *const String) bool { return cppFn("eqlString", .{ this, other }); } pub fn eqlSlice(this: *String, other: [*]const u8, other_len: usize) bool { return cppFn("eqlSlice", .{ this, other, other_len }); } pub fn impl( this: *String, ) *const StringImpl { return cppFn("impl", .{ this, }); } pub fn slice(this: *String) []const u8 { const len = this.length(); return if (len > 0) this.characters8()[0..len] else ""; } pub const Extern = [_][]const u8{ "is8Bit", "is16Bit", "isExternal", "isStatic", "isEmpty", "length", "characters8", "characters16", "createWithoutCopyingFromPtr", "eqlString", "eqlSlice", "impl", "createFromExternalString", }; }; pub const JSValue = enum(i64) { _, pub const shim = Shimmer("JSC", "JSValue", @This()); pub const is_pointer = false; pub const Type = i64; const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::JSValue"; pub const namespace = "JSC"; pub fn jsNumber(number: anytype) JSValue { return switch (@TypeOf(number)) { f64 => @call(.{ .modifier = .always_inline }, jsNumberFromDouble, .{number}), u8 => @call(.{ .modifier = .always_inline }, jsNumberFromChar, .{number}), u16 => @call(.{ .modifier = .always_inline }, jsNumberFromU16, .{number}), i32 => @call(.{ .modifier = .always_inline }, jsNumberFromInt32, .{number}), i64 => @call(.{ .modifier = .always_inline }, jsNumberFromInt64, .{number}), u64 => @call(.{ .modifier = .always_inline }, jsNumberFromUint64, .{number}), else => @compileError("Type transformation missing for number of type: " ++ @typeName(@TypeOf(number))), }; } pub fn jsNull() JSValue { return cppFn("jsNull", .{}); } pub fn jsUndefined() JSValue { return cppFn("jsUndefined", .{}); } pub fn jsTDZValue() JSValue { return cppFn("jsTDZValue", .{}); } pub fn jsBoolean(i: bool) JSValue { return cppFn("jsBoolean", .{i}); } pub fn jsDoubleNumber(i: f64) JSValue { return cppFn("jsDoubleNumber", .{i}); } pub fn jsNumberFromDouble(i: f64) JSValue { return cppFn("jsNumberFromDouble", .{i}); } pub fn jsNumberFromChar(i: u8) JSValue { return cppFn("jsNumberFromChar", .{i}); } pub fn jsNumberFromU16(i: u16) JSValue { return cppFn("jsNumberFromU16", .{i}); } pub fn jsNumberFromInt32(i: i32) JSValue { return cppFn("jsNumberFromInt32", .{i}); } pub fn jsNumberFromInt64(i: i64) JSValue { return cppFn("jsNumberFromInt64", .{i}); } pub fn jsNumberFromUint64(i: u64) JSValue { return cppFn("jsNumberFromUint64", .{i}); } pub fn isUndefined(this: JSValue) bool { return cppFn("isUndefined", .{this}); } pub fn isNull(this: JSValue) bool { return cppFn("isNull", .{this}); } pub fn isUndefinedOrNull(this: JSValue) bool { return cppFn("isUndefinedOrNull", .{this}); } pub fn isBoolean(this: JSValue) bool { return cppFn("isBoolean", .{this}); } pub fn isAnyInt(this: JSValue) bool { return cppFn("isAnyInt", .{this}); } pub fn isUInt32AsAnyInt(this: JSValue) bool { return cppFn("isUInt32AsAnyInt", .{this}); } pub fn isInt32AsAnyInt(this: JSValue) bool { return cppFn("isInt32AsAnyInt", .{this}); } pub fn isNumber(this: JSValue) bool { return cppFn("isNumber", .{this}); } pub fn isError(this: JSValue) bool { return cppFn("isError", .{this}); } pub fn isString(this: JSValue) bool { return cppFn("isString", .{this}); } pub fn isBigInt(this: JSValue) bool { return cppFn("isBigInt", .{this}); } pub fn isHeapBigInt(this: JSValue) bool { return cppFn("isHeapBigInt", .{this}); } pub fn isBigInt32(this: JSValue) bool { return cppFn("isBigInt32", .{this}); } pub fn isSymbol(this: JSValue) bool { return cppFn("isSymbol", .{this}); } pub fn isPrimitive(this: JSValue) bool { return cppFn("isPrimitive", .{this}); } pub fn isGetterSetter(this: JSValue) bool { return cppFn("isGetterSetter", .{this}); } pub fn isCustomGetterSetter(this: JSValue) bool { return cppFn("isCustomGetterSetter", .{this}); } pub fn isObject(this: JSValue) bool { return cppFn("isObject", .{this}); } pub fn isCell(this: JSValue) bool { return cppFn("isCell", .{this}); } pub fn asCell(this: JSValue) *JSCell { return cppFn("asCell", .{this}); } pub fn isCallable(this: JSValue, vm: *VM) bool { return cppFn("isCallable", .{ this, vm }); } pub fn isException(this: JSValue, vm: *VM) bool { return cppFn("isException", .{ this, vm }); } pub fn toZigException(this: JSValue, global: *JSGlobalObject) ZigException { return cppFn("toZigException", .{ this, global }); } // On exception, this returns the empty string. pub fn toString(this: JSValue, globalThis: *JSGlobalObject) *JSString { return cppFn("toString", .{ this, globalThis }); } pub fn toWTFString(this: JSValue, globalThis: *JSGlobalObject) String { return cppFn("toWTFString", .{ this, globalThis }); } // On exception, this returns null, to make exception checks faster. pub fn toStringOrNull(this: JSValue, globalThis: *JSGlobalObject) *JSString { return cppFn("toStringOrNull", .{ this, globalThis }); } pub fn toPropertyKey(this: JSValue, globalThis: *JSGlobalObject) Identifier { return cppFn("toPropertyKey", .{ this, globalThis }); } pub fn toPropertyKeyValue(this: JSValue, globalThis: *JSGlobalObject) JSValue { return cppFn("toPropertyKeyValue", .{ this, globalThis }); } pub fn toObject(this: JSValue, globalThis: *JSGlobalObject) *JSObject { return cppFn("toObject", .{ this, globalThis }); } pub fn getPrototype(this: JSValue, globalObject: *JSGlobalObject) JSValue { return cppFn("getPrototype", .{ this, globalObject }); } pub fn eqlValue(this: JSValue, other: JSValue) bool { return cppFn("eqlValue", .{ this, other }); } pub fn eqlCell(this: JSValue, other: *JSCell) bool { return cppFn("eqlCell", .{ this, other }); } pub fn asString(this: JSValue) *JSString { return cppFn("asString", .{ this, }); } pub fn asObject(this: JSValue) JSObject { return cppFn("asObject", .{ this, }); } pub fn asNumber(this: JSValue) f64 { return cppFn("asNumber", .{ this, }); } pub const Extern = [_][]const u8{ "toZigException", "isException", "toWTFString", "hasProperty", "getPropertyNames", "getDirect", "putDirect", "get", "getIfExists", "asString", "asObject", "asNumber", "isError", "jsNull", "jsUndefined", "jsTDZValue", "jsBoolean", "jsDoubleNumber", "jsNumberFromDouble", "jsNumberFromChar", "jsNumberFromU16", "jsNumberFromInt32", "jsNumberFromInt64", "jsNumberFromUint64", "isUndefined", "isNull", "isUndefinedOrNull", "isBoolean", "isAnyInt", "isUInt32AsAnyInt", "isInt32AsAnyInt", "isNumber", "isString", "isBigInt", "isHeapBigInt", "isBigInt32", "isSymbol", "isPrimitive", "isGetterSetter", "isCustomGetterSetter", "isObject", "isCell", "asCell", "toString", "toStringOrNull", "toPropertyKey", "toPropertyKeyValue", "toObject", "toString", "getPrototype", "getPropertyByPropertyName", "eqlValue", "eqlCell", "isCallable" }; }; pub const PropertyName = extern struct { pub const shim = Shimmer("JSC", "PropertyName", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::PropertyName"; pub const namespace = "JSC"; pub fn eqlToPropertyName(property_name: *PropertyName, other: *const PropertyName) bool { return cppFn("eqlToPropertyName", .{ property_name, other }); } pub fn eqlToIdentifier(property_name: *PropertyName, other: *const Identifier) bool { return cppFn("eqlToIdentifier", .{ property_name, other }); } pub fn publicName(property_name: *PropertyName) ?*const StringImpl { return cppFn("publicName", .{ property_name, }); } pub fn uid(property_name: *PropertyName) ?*const StringImpl { return cppFn("uid", .{ property_name, }); } pub const Extern = [_][]const u8{ "eqlToPropertyName", "eqlToIdentifier", "publicName", "uid" }; }; pub const Exception = extern struct { pub const shim = Shimmer("JSC", "Exception", @This()); bytes: shim.Bytes, pub const Type = JSObject; const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::Exception"; pub const namespace = "JSC"; pub const StackCaptureAction = enum(u8) { CaptureStack = 0, DoNotCaptureStack = 1, }; pub fn create(globalObject: *JSGlobalObject, object: *JSObject, stack_capture: StackCaptureAction) *Exception { return cppFn( "create", .{ globalObject, object, @enumToInt(stack_capture) }, ); } pub const Extern = [_][]const u8{ "create", }; }; pub const JSLock = extern struct { pub const shim = Shimmer("JSC", "Exception", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::JSLock"; pub const namespace = "JSC"; pub fn lock(this: *JSLock) void { return cppFn("lock", .{this}); } pub fn unlock(this: *JSLock) void { return cppFn("unlock", .{this}); } pub const Extern = [_][]const u8{ "lock", "unlock" }; }; pub const VM = extern struct { pub const shim = Shimmer("JSC", "VM", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::VM"; pub const namespace = "JSC"; pub const HeapType = enum(u8) { SmallHeap = 0, LargeHeap = 1, }; pub fn create(heap_type: HeapType) *VM { return cppFn("create", .{@enumToInt(heap_type)}); } pub fn deinit(vm: *VM, global_object: *JSGlobalObject) void { return cppFn("deinit", .{ vm, global_object }); } pub fn setExecutionForbidden(vm: *VM, forbidden: bool) void { cppFn("setExecutionForbidden", .{ vm, forbidden }); } pub fn executionForbidden(vm: *VM) bool { return cppFn("executionForbidden", .{ vm, }); } pub fn isEntered(vm: *VM) bool { return cppFn("isEntered", .{ vm, }); } pub fn throwError(vm: *VM, global_object: *JSGlobalObject, scope: *ThrowScope, message: [*]const u8, len: usize) bool { return cppFn("throwError", .{ vm, global_object, scope, message, len, }); } pub fn apiLock(vm: *VM) *JSLock { return cppFn("apiLock", .{ vm, }); } pub fn drainMicrotasks( vm: *VM, ) void { return cppFn("drainMicrotasks", .{ vm, }); } pub const Extern = [_][]const u8{ "apiLock", "create", "deinit", "setExecutionForbidden", "executionForbidden", "isEntered", "throwError", "drainMicrotasks" }; }; pub const ThrowScope = extern struct { pub const shim = Shimmer("JSC", "ThrowScope", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::ThrowScope"; pub const namespace = "JSC"; pub fn declare( vm: *VM, function_name: [*]u8, file: [*]u8, line: usize, ) ThrowScope { return cppFn("declare", .{ vm, file, line }); } pub fn release(this: *ThrowScope) void { return cppFn("release", .{this}); } pub fn exception(this: *ThrowScope) ?*Exception { return cppFn("exception", .{this}); } pub fn clearException(this: *ThrowScope) void { return cppFn("clearException", .{this}); } pub const Extern = [_][]const u8{ "declare", "release", "exception", "clearException", }; }; pub const CatchScope = extern struct { pub const shim = Shimmer("JSC", "CatchScope", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::CatchScope"; pub const namespace = "JSC"; pub fn declare( vm: *VM, function_name: [*]u8, file: [*]u8, line: usize, ) CatchScope { return cppFn("declare", .{ vm, file, line }); } pub fn exception(this: *CatchScope) ?*Exception { return cppFn("exception", .{this}); } pub fn clearException(this: *CatchScope) void { return cppFn("clearException", .{this}); } pub const Extern = [_][]const u8{ "declare", "exception", "clearException", }; }; pub const CallFrame = extern struct { pub const shim = Shimmer("JSC", "CallFrame", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::CallFrame"; pub const namespace = "JSC"; pub inline fn argumentsCount(call_frame: *const CallFrame) usize { return cppFn("argumentsCount", .{ call_frame, }); } pub inline fn uncheckedArgument(call_frame: *const CallFrame, i: u16) JSValue { return cppFn("uncheckedArgument", .{ call_frame, i }); } pub inline fn argument(call_frame: *const CallFrame, i: u16) JSValue { return cppFn("argument", .{ call_frame, }); } pub inline fn thisValue(call_frame: *const CallFrame) ?JSValue { return cppFn("thisValue", .{ call_frame, }); } pub inline fn setThisValue(call_frame: *CallFrame, new_this: JSValue) ?JSValue { return cppFn("setThisValue", .{ call_frame, new_this, }); } pub inline fn newTarget(call_frame: *const CallFrame) ?JSValue { return cppFn("newTarget", .{ call_frame, }); } pub inline fn setNewTarget(call_frame: *CallFrame, target: JSValue) ?JSValue { return cppFn("setNewTarget", .{ call_frame, target, }); } pub inline fn jsCallee(call_frame: *const CallFrame) *JSObject { return cppFn("jsCallee", .{ call_frame, }); } pub const Extern = [_][]const u8{ "argumentsCount", "uncheckedArgument", "argument", "thisValue", "newTarget", "jsCallee", "setNewTarget", "setThisValue" }; }; // pub const WellKnownSymbols = extern struct { // pub const shim = Shimmer("JSC", "CommonIdentifiers", @This()); // // // pub const include = ""; // pub const name = "JSC::CommonIdentifiers"; // pub const namespace = "JSC"; // pub var hasthis: *const Identifier = shim.cppConst(Identifier, "hasInstance"); // pub var isConcatSpreadable: Identifier = shim.cppConst(Identifier, "isConcatSpreadable"); // pub var asyncIterator: Identifier = shim.cppConst(Identifier, "asyncIterator"); // pub var iterator: Identifier = shim.cppConst(Identifier, "iterator"); // pub var match: Identifier = shim.cppConst(Identifier, "match"); // pub var matchAll: Identifier = shim.cppConst(Identifier, "matchAll"); // pub var replace: Identifier = shim.cppConst(Identifier, "replace"); // pub var search: Identifier = shim.cppConst(Identifier, "search"); // pub var species: Identifier = shim.cppConst(Identifier, "species"); // pub var split: Identifier = shim.cppConst(Identifier, "split"); // pub var toPrimitive: Identifier = shim.cppConst(Identifier, "toPrimitive"); // pub var toStringTag: Identifier = shim.cppConst(Identifier, "toStringTag"); // pub var unscopable: Identifier = shim.cppConst(Identifier, "unscopabl"); // }; pub const EncodedJSValue = enum(i64) { _, pub const shim = Shimmer("JSC", "EncodedJSValue", @This()); pub const Type = u64; const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::EncodedJSValue"; pub const namespace = "JSC"; }; pub const Identifier = extern struct { pub const shim = Shimmer("JSC", "Identifier", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "JSC::Identifier"; pub const namespace = "JSC"; pub fn fromString(vm: *VM, other: *const String) Identifier { return cppFn("fromString", .{ vm, other }); } pub fn fromSlice(vm: *VM, ptr: [*]const u8, len: usize) Identifier { return cppFn("fromSlice", .{ vm, ptr, len }); } // pub fn fromUid(vm: *VM, other: *const StringImpl) Identifier { // return cppFn("fromUid", .{ vm, other }); // } pub fn deinit(this: *const Identifier) void { return cppFn("deinit", .{this}); } pub fn toString(identifier: *const Identifier) String { return cppFn("toString", .{identifier}); } pub fn length(identifier: *const Identifier) usize { return cppFn("length", .{identifier}); } pub fn isNull(this: *const Identifier) bool { return cppFn("isNull", .{this}); } pub fn isEmpty(this: *const Identifier) bool { return cppFn("isEmpty", .{this}); } pub fn isSymbol(this: *const Identifier) bool { return cppFn("isSymbol", .{this}); } pub fn isPrivateName(this: *const Identifier) bool { return cppFn("isPrivateName", .{this}); } pub fn eqlIdent(this: *const Identifier, other: *const Identifier) bool { return cppFn("eqlIdent", .{ this, other }); } pub fn neqlIdent(this: *const Identifier, other: *const Identifier) bool { return cppFn("neqlIdent", .{ this, other }); } pub fn eqlStringImpl(this: *const Identifier, other: *const StringImpl) bool { return cppFn("eqlStringImpl", .{ this, other }); } pub fn neqlStringImpl(this: *const Identifier, other: *const StringImpl) bool { return cppFn("neqlStringImpl", .{ this, other }); } pub fn eqlUTF8(this: *const Identifier, other: [*]const u8, other_len: usize) bool { return cppFn("eqlUTF8", .{ this, other, other_len }); } pub const Extern = [_][]const u8{ "fromString", "fromSlice", // "fromUid", "deinit", "toString", "length", "isNull", "isEmpty", "isSymbol", "isPrivateName", "eqlIdent", "neqlIdent", "eqlStringImpl", "neqlStringImpl", "eqlUTF8", }; }; const DeinitFunction = fn (ctx: *c_void, buffer: [*]u8, len: usize) callconv(.C) void; pub const StringImpl = extern struct { pub const shim = Shimmer("WTF", "StringImpl", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "WTF::StringImpl"; pub const namespace = "WTF"; pub fn is8Bit(this: *const StringImpl) bool { return cppFn("is8Bit", .{this}); } pub fn is16Bit(this: *const StringImpl) bool { return cppFn("is16Bit", .{this}); } pub fn isExternal(this: *const StringImpl) bool { return cppFn("isExternal", .{this}); } pub fn isStatic(this: *const StringImpl) bool { return cppFn("isStatic", .{this}); } pub fn isEmpty(this: *const StringImpl) bool { return cppFn("isEmpty", .{this}); } pub fn length(this: *const StringImpl) usize { return cppFn("length", .{this}); } pub fn characters8(this: *const StringImpl) [*]const u8 { return cppFn("characters8", .{this}); } pub fn characters16(this: *const StringImpl) [*]const u16 { return cppFn("characters16", .{this}); } pub const slice = SliceFn(@This()); pub const Extern = [_][]const u8{ "is8Bit", "is16Bit", "isExternal", "isStatic", "isEmpty", "length", "characters8", "characters16", }; }; pub const ExternalStringImpl = extern struct { pub const shim = Shimmer("WTF", "ExternalStringImpl", @This()); bytes: shim.Bytes, const cppFn = shim.cppFn; pub const include = ""; pub const name = "WTF::ExternalStringImpl"; pub const namespace = "WTF"; pub fn create(ptr: [*]const u8, len: usize, deinit: DeinitFunction) ExternalStringImpl { return cppFn("create", .{ ptr, len, deinit }); } pub fn is8Bit(this: *const ExternalStringImpl) bool { return cppFn("is8Bit", .{this}); } pub fn is16Bit(this: *const ExternalStringImpl) bool { return cppFn("is16Bit", .{this}); } pub fn isEmpty(this: *const ExternalStringImpl) bool { return cppFn("isEmpty", .{this}); } pub fn length(this: *const ExternalStringImpl) usize { return cppFn("length", .{this}); } pub fn characters8(this: *const ExternalStringImpl) [*]const u8 { return cppFn("characters8", .{this}); } pub fn characters16(this: *const ExternalStringImpl) [*]const u16 { return cppFn("characters16", .{this}); } pub const Extern = [_][]const u8{ "create", "is8Bit", "is16Bit", "isEmpty", "length", "characters8", "characters16", }; }; pub const ObjectPrototype = _JSCellStub("ObjectPrototype"); pub const FunctionPrototype = _JSCellStub("FunctionPrototype"); pub const ArrayPrototype = _JSCellStub("ArrayPrototype"); pub const StringPrototype = _JSCellStub("StringPrototype"); pub const BigIntPrototype = _JSCellStub("BigIntPrototype"); pub const RegExpPrototype = _JSCellStub("RegExpPrototype"); pub const IteratorPrototype = _JSCellStub("IteratorPrototype"); pub const AsyncIteratorPrototype = _JSCellStub("AsyncIteratorPrototype"); pub const GeneratorFunctionPrototype = _JSCellStub("GeneratorFunctionPrototype"); pub const GeneratorPrototype = _JSCellStub("GeneratorPrototype"); pub const AsyncFunctionPrototype = _JSCellStub("AsyncFunctionPrototype"); pub const ArrayIteratorPrototype = _JSCellStub("ArrayIteratorPrototype"); pub const MapIteratorPrototype = _JSCellStub("MapIteratorPrototype"); pub const SetIteratorPrototype = _JSCellStub("SetIteratorPrototype"); pub const JSPromisePrototype = _JSCellStub("JSPromisePrototype"); pub const AsyncGeneratorPrototype = _JSCellStub("AsyncGeneratorPrototype"); pub const AsyncGeneratorFunctionPrototype = _JSCellStub("AsyncGeneratorFunctionPrototype"); pub fn SliceFn(comptime Type: type) type { const SliceStruct = struct { pub fn slice(this: *const Type) []const u8 { if (this.isEmpty()) { return ""; } return this.characters8()[0..this.length()]; } }; return @TypeOf(SliceStruct.slice); } pub const StringView = extern struct { pub const shim = Shimmer("WTF", "StringView", @This()); bytes: u64, bytesA: u64, const cppFn = shim.cppFn; pub const include = ""; pub const name = "WTF::StringView"; pub const namespace = "WTF"; pub fn from8Bit(view: *StringView, ptr: [*]const u8, len: usize) void { return cppFn("from8Bit", .{ view, ptr, len }); } pub fn fromSlice(value: []const u8) StringView { var view = std.mem.zeroes(StringView); from8Bit(&view, value.ptr, value.len); return view; } pub fn is8Bit(this: *const StringView) bool { return cppFn("is8Bit", .{this}); } pub fn is16Bit(this: *const StringView) bool { return cppFn("is16Bit", .{this}); } pub fn isEmpty(this: *const StringView) bool { return cppFn("isEmpty", .{this}); } pub fn length(this: *const StringView) usize { return cppFn("length", .{this}); } pub fn characters8(this: *const StringView) [*]const u8 { return cppFn("characters8", .{this}); } pub fn characters16(this: *const StringView) [*]const u16 { return cppFn("characters16", .{this}); } pub const slice = SliceFn(@This()); pub const Extern = [_][]const u8{ "from8Bit", "is8Bit", "is16Bit", "isEmpty", "length", "characters8", "characters16", }; }; pub const Cpp = struct { pub const Function = fn ( globalObject: *JSGlobalObject, callframe: CallFrame, ) callconv(.C) JSValue; pub const Getter = fn ( ctx: ?*c_void, globalObject: *JSGlobalObject, this: EncodedJSValue, propertyName: PropertyName, ) callconv(.C) JSValue; pub const Setter = fn ( ctx: ?*c_void, globalObject: *JSGlobalObject, this: JSValue, value: JSValue, propertyName: PropertyName, ) callconv(.C) bool; pub const Tag = enum { Callback, Constructor, Attribute, Static, }; pub const Attribute = struct { getter: ?StaticExport = null, setter: ?StaticExport = null, read_only: bool = false, enumerable: bool = false, }; pub const Static = union { String: []const u8, Number: u16, }; pub const Callback = StaticExport; pub const LUTType = enum { Function, Accessor, CellProperty, ClassStructure, PropertyCallback, }; pub const LUTFlag = enum { Enum, DontEnum, ReadOnly, }; pub const Property = struct { name: []const u8, read_only: bool = false, enumerable: bool = false, value: Value, pub const Value = union(Tag) { Callback: StaticExport, Constructor: StaticExport, Attribute: Attribute, Static: Static, }; }; pub const Subclass = enum { JSNonFinalObject, JSObject, }; pub const InitCallback = fn (*c_void, *VM, *JSGlobalObject) void; pub const ClassDefinition = struct { name: []const u8, subclass: Subclass, statics: []Property, init: StaticExport, free: StaticExport, Ctx: type, pub fn printer(h: std.fs.File.Writer, cpp: std.fs.File.Writer, comptime Type: type, comptime ZigType: type, comptime Prototype_: ?type, comptime Properties: []Property, comptime use_lut: bool) !void { var instanceName = comptime Type.name; instanceName[0] = comptime std.ascii.toLower(instanceName[0]); const fields = comptime .{ .TypeName = Type.name, .instanceName = instanceName, }; try h.print( \\#pragma once \\ \\#include "root.h" \\#include "headers.h" \\ \\namespace Zig {{ \\ \\ class {[TypeName][s]} : public JSC::JSNonFinalObject {{ \\ using Base = JSC::JSNonFinalObject; \\ static {s}* create(JSC::Structure* structure, JSC::JSGlobalThis* globalObject) \\ {{ \\ {[TypeName][s]}* ptr = new (NotNull, JSC::allocateCell<{s}>(globalObject->vm().heap)) {[TypeName][s]}(structure, *globalObject); \\ ptr->finishCreation(globalObject->vm()); \\ return ptr; \\ }} \\ \\ static {s}* create(JSC::Structure* structure, JSC::JSGlobalThis* globalObject, void* zigBase) \\ {{ \\ {[TypeName][s]}* ptr = new (NotNull, JSC::allocateCell<{s}>(globalObject->vm().heap)) {[TypeName][s]}(structure, *globalObject); \\ ptr->finishCreation(globalObject->vm(), zigBase); \\ return ptr; \\ }} , fields, ); try cpp.print( \\#pragma once \\ \\#include "root.h" \\#include "headers.h" \\#include {[TypeName][s]}.h \\ , fields); inline for (Properties) |property| { switch (comptime property.value) { .Callback => |Callback| { try cpp.print("static JSC_DECLARE_HOST_FUNCTION({s});\n", .{Callback.wrappedName()}); }, .Constructor => |Constructor| { try cpp.print("static JSC_DECLARE_HOST_FUNCTION({s});\n", .{Callback.wrappedName()}); }, .Attribute => |Attribute| { try cpp.print(" "); if (Attribute.getter) |getter| { try cpp.print("static JSC_DECLARE_CUSTOM_GETTER({s});\n", .{Callback.wrappedName()}); } if (comptime Attribute.setter) |setter| { try cpp.print("static JSC_DECLARE_CUSTOM_SETTER({s});\n", .{Callback.wrappedName()}); } try cpp.writeAll(" "); }, .Static => |Static| {}, } } if (comptime use_lut) { try cpp.print( \\namespace Zig { \\ #include {[TypeName][s]}.lut.h \\} \\ \\ /* Source for {[TypeName][s]}.lut.h */ \\ @begin {[instanceName][s]}Table , fields, ); inline for (Properties) |property| { try cpp.writeAll(" "); try cpp.writeAll(comptime property.name); try cpp.writeAll(" "); switch (comptime property.value) { .Callback => |Callback| { try cpp.writeAll(" "); try cpp.writeAll(comptime Callback.wrappedName()); try cpp.writeAll(" "); }, .Constructor => |Constructor| { try cpp.writeAll(" "); try cpp.writeAll(comptime Constructor.wrappedName()); try cpp.writeAll(" "); }, .Attribute => |Attribute| { try cpp.writeAll(" "); if (Attribute.getter) |getter| { try cpp.writeAll(comptime getter.wrappedName()); try cpp.writeAll(" "); } if (comptime Attribute.setter) |setter| { @compileError("Unsupported setter on " ++ Type.name); } try cpp.writeAll(" "); }, .Static => |Static| {}, } var needs_or = false; if (!property.enumerable) { try cpp.writeAll("DontEnum"); needs_or = true; } if (needs_or) { try cpp.writeAll("|"); } switch (comptime property.value) { .Callback => |Callback| { const Fn: std.builtin.TypeInfo.Fn = comptime @typeInfo(Callback.Type).Fn; try cpp.writeAll("Function {d}", .{Fn.args.len}); }, .Constructor => |Constructor| { const Fn: std.builtin.TypeInfo.Fn = comptime @typeInfo(Callback.Type).Fn; try cpp.writeAll("Function {d}", .{Fn.args.len}); }, .Attribute => |Attribute| { try cpp.writeAll(" "); if (Attribute.getter) |_| { try cpp.writeAll("Accessor"); try cpp.writeAll(" "); } if (comptime Attribute.setter) |_| { @compileError("Unsupported setter on " ++ Type.name); } try cpp.writeAll(" "); }, .Static => |Static| {}, } try cpp.writeAll("\n"); } try cpp.writeAll(" @end\n"); try cpp.print( \\namespace Zig {{ \\ \\ const ClassInfo {s}::s_info = {{ "{[TypeName][s]}", &Base::s_info, &{[instanceName][s]}Table, nullptr, CREATE_METHOD_TABLE({[TypeName][s]}) }}; \\ \\}} \\ , fields, ); } else { try cpp.print( \\namespace Zig {{ \\ \\ const ClassInfo {[TypeName][s]}::s_info = {{ "{[TypeName][s]}", &Base::s_info, nullptr, nullptr, CREATE_METHOD_TABLE({[TypeName][s]}) }}; \\ \\}} \\ , fields); } cpp.print( \\ \\namespace Zig {{ \\ \\ \\ \\ class {[TypeName][s]} final : public JSC::JSNonFinalObject {{ \\ using Base = JSC::JSNonFinalObject; \\ \\ void {[TypeName][s]}::finishCreation(JSGlobalObject* globalObject, VM& vm) {{ \\ Base::finishCreation(vm); \\ m_zigBase = {[InitFunctionSymbol]}(globalObject, vm); \\ reifyStaticProperties(vm, {[TypeName][s]}::info(), &{[instanceName][s]}Table, *this); \\ JSC_TO_STRING_TAG_WITHOUT_TRANSITION(); \\ }} \\ \\ void {[TypeName][s]}::finishCreation(JSGlobalObject* globalObject, VM& vm, void* zigBase) {{ \\ Base::finishCreation(vm); \\ m_zigBase = zigBase; \\ reifyStaticProperties(vm, {[TypeName][s]}::info(), &{[instanceName][s]}Table, *this); \\ JSC_TO_STRING_TAG_WITHOUT_TRANSITION(); \\ }} \\ \\ , fields, ); inline for (Properties) |property| { switch (comptime property.value) { .Callback => |Callback| { try cpp.writeAll( \\JSC_DEFINE_HOST_FUNCTION({[Wrapped][s]}, (JSGlobalObject* globalObject, CallFrame* callFrame)) \\{{ \\ VM& vm = globalObject->vm(); \\ auto scope = DECLARE_THROW_SCOPE(vm); \\ auto* thisValue = JSC::jsDynamic<{[TypeName][s]}*>(callFrame->thisValue()); \\ if (UNLIKELY(!thisValue || !thisValue.m_zigBase)) {{ \\ return JSC::throwVMTypeError(globalObject, scope); \\ }} \\ \\ RELEASE_AND_RETURN(scope, {[Fn][s]}(thisValue.m__zigType, vm, this, globalObject, callFrame, scope)); \\}} \\ , .{ .Wrapped = Callback.wrappedName(), .Fn = Callback.symbol_name, .TypeName = Type.name, }); }, .Constructor => |Constructor| { try cpp.writeAll( \\JSC_DEFINE_HOST_FUNCTION({[Wrapped][s]}, (JSGlobalObject* globalObject, CallFrame* callFrame)) \\{{ \\ VM& vm = globalObject->vm(); \\ auto scope = DECLARE_THROW_SCOPE(vm); \\ RELEASE_AND_RETURN(scope, {[Fn][s]}(globalObject, vm, callFrame, scope)); \\}} \\ , .{ .Wrapped = Constructor.wrappedName(), .Fn = Constructor.symbol_name, .TypeName = Type.name, }); }, .Attribute => |Attribute| { try cpp.writeAll(" "); if (Attribute.getter) |getter| { try cpp.print( \\JSC_DEFINE_CUSTOM_GETTER({s}, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, EncodedJSValue encodedValue, PropertyName attributeName) \\{{ \\ auto& vm = JSC::getVM(&lexicalGlobalObject); \\ auto throwScope = DECLARE_THROW_SCOPE(vm); \\}} , .{Callback.wrappedName()}); } if (comptime Attribute.setter) |setter| { try cpp.print( \\JSC_DEFINE_CUSTOM_SETTER({s}, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName attributeName) \\{{ \\ \\}} , .{Callback.wrappedName()}); } try cpp.writeAll(" "); }, .Static => |Static| {}, } } if (Prototype_) |Prototype| { h.print( \\ \\ \\ \\ , fields, ); } else {} h.print( \\ static JSC::Structure* createStructure(JSC::VM& vm, JSC::JSGlobalObject* globalObject, JSC::JSValue prototype) {{ \\ return JSC::Structure::create(vm, globalObject, prototype, JSC::TypeInfo(JSC::ObjectType, StructureFlags), info()); \\ }} \\ \\ EXPORT_DECLARE_INFO; \\ \\ template static JSC::IsoSubspace* subspaceFor(JSC::VM& vm) \\ {{ \\ if constexpr (mode == JSC::SubspaceAccess::Concurrently) \\ return nullptr; \\ return &vm.plainObjectSpace; \\ }} \\ private: \\ {[TypeName][s]}(JSC::VM& vm, JSC::Structure* structure) : Base(vm, structure) {{ \\ m_zigBase = nullptr; \\ }} \\ void finishCreation(VM&); \\ void* m_zigBase; \\ \\}} \\ \\ \\ , fields, ); } // pub fn generateShimType(comptime Parent: type, comptime _name: []const u8, comptime static_properties: anytype) type { // const Base = struct { // const BaseType = @This(); // bytes: shim.Bytes, // const cppFn = shim.cppFn; // pub const include = "Zig__" ++ _name; // pub const name = "Zig::" ++ _name; // pub const namespace = "Zig"; // pub const shim = comptime Shimmer(namespace, name, BaseType); // pub fn create(global: *JSGlobalObject, parent: *Parent) JSValue {} // pub fn getZigType(this: *BaseType, global: *JSGlobalObject) JSValue {} // pub fn finalize(this: *BaseType, global: *JSGlobalObject) JSValue {} // }; // } }; }; pub usingnamespace @import("exports.zig"); pub const Callback = struct { // zig: Value, };