// This file was procedurally generated from the following sources: // - src/compound-assignment-private/bitxor.case // - src/compound-assignment-private/default/getter-setter.template /*--- description: Compound bitwise-xor assignment with target being a private reference (to an accessor property with getter and setter) esid: sec-assignment-operators-runtime-semantics-evaluation features: [class-fields-private] flags: [generated] info: | sec-assignment-operators-runtime-semantics-evaluation AssignmentExpression : LeftHandSideExpression AssignmentOperator AssignmentExpression 1. Let _lref_ be the result of evaluating |LeftHandSideExpression|. 2. Let _lval_ be ? GetValue(_lref_). ... 7. Let _r_ be ApplyStringOrNumericBinaryOperator(_lval_, _opText_, _rval_). 8. Perform ? PutValue(_lref_, _r_). 9. Return _r_. sec-property-accessors-runtime-semantics-evaluation MemberExpression : MemberExpression `.` PrivateIdentifier 1. Let _baseReference_ be the result of evaluating |MemberExpression|. 2. Let _baseValue_ be ? GetValue(_baseReference_). 3. Let _fieldNameString_ be the StringValue of |PrivateIdentifier|. 4. Return ! MakePrivateReference(_baseValue_, _fieldNameString_). PutValue (V, W) ... 5.b. If IsPrivateReference(_V_) is *true*, then i. Return ? PrivateSet(_baseObj_, _V_.[[ReferencedName]], _W_). PrivateSet (O, P, value) ... 5.a. Assert: _entry_.[[Kind]] is ~accessor~. ... 5.c. Let _setter_ be _entry_.[[Set]]. d. Perform ? Call(_setter_, _O_, « _value_ »). ---*/ class C { #setterCalledWith; get #field() { return 0x1111; } set #field(value) { this.#setterCalledWith = value; } compoundAssignment() { return this.#field ^= 0x1010; } setterCalledWithValue() { return this.#setterCalledWith; } } const o = new C(); assert.sameValue(o.compoundAssignment(), 0x0101, "The expression should evaluate to the result"); assert.sameValue(o.setterCalledWithValue(), 0x0101, "PutValue should call the setter with the result"); reportCompare(0, 0);