/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: set ts=8 sts=2 et sw=2 tw=80: * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "vm/EqualityOperations.h" // js::LooselyEqual, js::StrictlyEqual, js::SameValue #include "mozilla/Assertions.h" // MOZ_ASSERT, MOZ_ASSERT_IF #include "jsapi.h" // js::AssertHeapIsIdle #include "jsnum.h" // js::StringToNumber #include "jstypes.h" // JS_PUBLIC_API #include "js/Equality.h" // JS::LooselyEqual, JS::StrictlyEqual, JS::SameValue #include "js/Result.h" // JS_TRY_VAR_OR_RETURN_FALSE #include "js/RootingAPI.h" // JS::Rooted #include "js/Value.h" // JS::Int32Value, JS::SameType, JS::Value #include "vm/BigIntType.h" // JS::BigInt #include "vm/JSContext.h" // CHECK_THREAD #include "vm/JSObject.h" // js::ToPrimitive #include "vm/StringType.h" // js::EqualStrings #include "builtin/Boolean-inl.h" // js::EmulatesUndefined #include "vm/JSContext-inl.h" // JSContext::check static bool EqualGivenSameType(JSContext* cx, JS::Handle lval, JS::Handle rval, bool* equal) { MOZ_ASSERT(JS::SameType(lval, rval)); if (lval.isString()) { return js::EqualStrings(cx, lval.toString(), rval.toString(), equal); } if (lval.isDouble()) { *equal = (lval.toDouble() == rval.toDouble()); return true; } if (lval.isBigInt()) { *equal = JS::BigInt::equal(lval.toBigInt(), rval.toBigInt()); return true; } if (lval.isGCThing()) { // objects or symbols *equal = (lval.toGCThing() == rval.toGCThing()); return true; } *equal = lval.get().payloadAsRawUint32() == rval.get().payloadAsRawUint32(); MOZ_ASSERT_IF(lval.isUndefined() || lval.isNull(), *equal); return true; } static bool LooselyEqualBooleanAndOther(JSContext* cx, JS::Handle lval, JS::Handle rval, bool* result) { MOZ_ASSERT(!rval.isBoolean()); JS::Rooted lvalue(cx, JS::Int32Value(lval.toBoolean() ? 1 : 0)); // The tail-call would end up in Step 3. if (rval.isNumber()) { *result = (lvalue.toNumber() == rval.toNumber()); return true; } // The tail-call would end up in Step 6. if (rval.isString()) { double num; if (!StringToNumber(cx, rval.toString(), &num)) { return false; } *result = (lvalue.toNumber() == num); return true; } return js::LooselyEqual(cx, lvalue, rval, result); } // ES6 draft rev32 7.2.12 Abstract Equality Comparison bool js::LooselyEqual(JSContext* cx, JS::Handle lval, JS::Handle rval, bool* result) { // Step 3. if (JS::SameType(lval, rval)) { return EqualGivenSameType(cx, lval, rval, result); } // Handle int32 x double. if (lval.isNumber() && rval.isNumber()) { *result = (lval.toNumber() == rval.toNumber()); return true; } // Step 4. This a bit more complex, because of the undefined emulating object. if (lval.isNullOrUndefined()) { // We can return early here, because null | undefined is only equal to the // same set. *result = rval.isNullOrUndefined() || (rval.isObject() && EmulatesUndefined(&rval.toObject())); return true; } // Step 5. if (rval.isNullOrUndefined()) { MOZ_ASSERT(!lval.isNullOrUndefined()); *result = lval.isObject() && EmulatesUndefined(&lval.toObject()); return true; } // Step 6. if (lval.isNumber() && rval.isString()) { double num; if (!StringToNumber(cx, rval.toString(), &num)) { return false; } *result = (lval.toNumber() == num); return true; } // Step 7. if (lval.isString() && rval.isNumber()) { double num; if (!StringToNumber(cx, lval.toString(), &num)) { return false; } *result = (num == rval.toNumber()); return true; } // Step 8. if (lval.isBoolean()) { return LooselyEqualBooleanAndOther(cx, lval, rval, result); } // Step 9. if (rval.isBoolean()) { return LooselyEqualBooleanAndOther(cx, rval, lval, result); } // Step 10. if ((lval.isString() || lval.isNumber() || lval.isSymbol()) && rval.isObject()) { JS::Rooted rvalue(cx, rval); if (!ToPrimitive(cx, &rvalue)) { return false; } return js::LooselyEqual(cx, lval, rvalue, result); } // Step 11. if (lval.isObject() && (rval.isString() || rval.isNumber() || rval.isSymbol())) { JS::Rooted lvalue(cx, lval); if (!ToPrimitive(cx, &lvalue)) { return false; } return js::LooselyEqual(cx, lvalue, rval, result); } if (lval.isBigInt()) { JS::Rooted lbi(cx, lval.toBigInt()); bool tmpResult; JS_TRY_VAR_OR_RETURN_FALSE(cx, tmpResult, JS::BigInt::looselyEqual(cx, lbi, rval)); *result = tmpResult; return true; } if (rval.isBigInt()) { JS::Rooted rbi(cx, rval.toBigInt()); bool tmpResult; JS_TRY_VAR_OR_RETURN_FALSE(cx, tmpResult, JS::BigInt::looselyEqual(cx, rbi, lval)); *result = tmpResult; return true; } // Step 12. *result = false; return true; } JS_PUBLIC_API bool JS::LooselyEqual(JSContext* cx, Handle value1, Handle value2, bool* equal) { js::AssertHeapIsIdle(); CHECK_THREAD(cx); cx->check(value1, value2); MOZ_ASSERT(equal); return js::LooselyEqual(cx, value1, value2, equal); } bool js::StrictlyEqual(JSContext* cx, JS::Handle lval, JS::Handle rval, bool* equal) { if (SameType(lval, rval)) { return EqualGivenSameType(cx, lval, rval, equal); } if (lval.isNumber() && rval.isNumber()) { *equal = (lval.toNumber() == rval.toNumber()); return true; } *equal = false; return true; } JS_PUBLIC_API bool JS::StrictlyEqual(JSContext* cx, Handle value1, Handle value2, bool* equal) { js::AssertHeapIsIdle(); CHECK_THREAD(cx); cx->check(value1, value2); MOZ_ASSERT(equal); return js::StrictlyEqual(cx, value1, value2, equal); } static inline bool IsNegativeZero(const JS::Value& v) { return v.isDouble() && mozilla::IsNegativeZero(v.toDouble()); } static inline bool IsNaN(const JS::Value& v) { return v.isDouble() && mozilla::IsNaN(v.toDouble()); } bool js::SameValue(JSContext* cx, JS::Handle v1, JS::Handle v2, bool* same) { if (IsNegativeZero(v1)) { *same = IsNegativeZero(v2); return true; } if (IsNegativeZero(v2)) { *same = false; return true; } if (IsNaN(v1) && IsNaN(v2)) { *same = true; return true; } return js::StrictlyEqual(cx, v1, v2, same); } JS_PUBLIC_API bool JS::SameValue(JSContext* cx, Handle value1, Handle value2, bool* same) { js::AssertHeapIsIdle(); CHECK_THREAD(cx); cx->check(value1, value2); MOZ_ASSERT(same); return js::SameValue(cx, value1, value2, same); }