package wasm import ( "fmt" "syscall/js" ) // TypeMismatchError is returned when a function is called with a js.Value that has the incorrect type. type TypeMismatchError struct { Expected js.Type Actual js.Type } func (e TypeMismatchError) Error() string { return fmt.Sprintf("expected %v type, got %v type instead", e.Expected, e.Actual) } // Global returns the global object as a Object. // If the global object is not an object, it panics. func Global() Object { global, err := NewObject(js.Global()) if err != nil { panic(err) } return global } // Object is a statically typed Object instance of js.Value. // It should be instantiated with NewObject where it is checked for type instead of directly. // Calling methods on a zero Object is undefined behaviour. type Object struct { value js.Value } // NewObject instantiates a new Object with the provided js.Value. // If the js.Value is not an Object, it returns a TypeMismatchError. func NewObject(raw js.Value) (Object, error) { if raw.Type() != js.TypeObject { return Object{}, TypeMismatchError{ Expected: js.TypeObject, Actual: raw.Type(), } } return Object{raw}, nil } // Get recursively gets the Object's properties, returning a TypeMismatchError if it encounters a non-object while // descending through the object. func (o Object) Get(path ...string) (js.Value, error) { current := o.value for _, v := range path { if current.Type() != js.TypeObject { return js.Value{}, TypeMismatchError{ Expected: js.TypeObject, Actual: current.Type(), } } current = current.Get(v) } return current, nil } // Expect is a helper function that calls Get and checks the type of the final result. // It returns a TypeMismatchError if a non-object is encountered while descending the path or the final type does not // match with the provided expected type. func (o Object) Expect(expectedType js.Type, path ...string) (js.Value, error) { value, err := o.Get(path...) if err != nil { return js.Value{}, err } if value.Type() != expectedType { return js.Value{}, TypeMismatchError{ Expected: expectedType, Actual: value.Type(), } } return value, nil } // Delete removes property p from the object. func (o Object) Delete(p string) { o.value.Delete(p) } // Equal checks if the object is equal to another value. // It is equivalent to JS's === operator. func (o Object) Equal(v js.Value) bool { return o.value.Equal(v) } // Index indexes into the object. func (o Object) Index(i int) js.Value { return o.value.Index(i) } // InstanceOf implements the instanceof operator in JavaScript. // If t is not a constructor, this function returns false. func (o Object) InstanceOf(t js.Value) bool { if t.Type() != js.TypeFunction { return false } return o.value.InstanceOf(t) } // JSValue implements the js.Wrapper interface. func (o Object) JSValue() js.Value { return o.value } // Length returns the "length" property of the object. func (o Object) Length() int { return o.value.Length() } // Set sets the property p to the value of js.ValueOf(x). func (o Object) Set(p string, x interface{}) { o.value.Set(p, x) } // SetIndex sets the index i to the value of js.ValueOf(x). func (o Object) SetIndex(i int, x interface{}) { o.value.SetIndex(i, x) } // String returns the object marshalled as a JSON string for debugging purposes. func (o Object) String() string { stringify, err := Global().Expect(js.TypeFunction, "JSON", "stringify") if err != nil { panic(err) } jsonStr := stringify.Invoke(o) if jsonStr.Type() != js.TypeString { panic("JSON.stringify returned a " + jsonStr.Type().String()) } return jsonStr.String() }