CheckedArithmetic.h source code [jsc/WebKitBuild/Debug/DerivedSources/ForwardingHeaders/wtf/CheckedArithmetic.h]

1	/*
2	* Copyright (C) 2011-2019 Apple Inc. All rights reserved.
3	*
4	* Redistribution and use in source and binary forms, with or without
5	* modification, are permitted provided that the following conditions
6	* are met:
7	* 1. Redistributions of source code must retain the above copyright
8	* notice, this list of conditions and the following disclaimer.
9	* 2. Redistributions in binary form must reproduce the above copyright
10	* notice, this list of conditions and the following disclaimer in the
11	* documentation and/or other materials provided with the distribution.
12	*
13	* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
14	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
15	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
16	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
17	* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
18	* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
19	* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
20	* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
21	* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
22	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
23	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
24	*/
25
26	#pragma once
27
28	#include <wtf/Assertions.h>
29
30	#include <limits>
31	#include <stdint.h>
32	#include <type_traits>
33
34	/ Checked<T>*
35	*
36	* This class provides a mechanism to perform overflow-safe integer arithmetic
37	* without having to manually ensure that you have all the required bounds checks
38	* directly in your code.
39	*
40	* There are two modes of operation:
41	* - The default is Checked<T, CrashOnOverflow>, and crashes at the point
42	* and overflow has occurred.
43	* - The alternative is Checked<T, RecordOverflow>, which uses an additional
44	* byte of storage to track whether an overflow has occurred, subsequent
45	* unchecked operations will crash if an overflow has occured
46	*
47	* It is possible to provide a custom overflow handler, in which case you need
48	* to support these functions:
49	* - void overflowed();
50	* This function is called when an operation has produced an overflow.
51	* - bool hasOverflowed();
52	* This function must return true if overflowed() has been called on an
53	* instance and false if it has not.
54	* - void clearOverflow();
55	* Used to reset overflow tracking when a value is being overwritten with
56	* a new value.
57	*
58	* Checked<T> works for all integer types, with the following caveats:
59	* - Mixing signedness of operands is only supported for types narrower than
60	* 64bits.
61	* - It does have a performance impact, so tight loops may want to be careful
62	* when using it.
63	*
64	*/
65
66	namespace WTF {
67
68	enum class CheckedState {
69	DidOverflow,
70	DidNotOverflow
71	};
72
73	class AssertNoOverflow {
74	public:
75	static NO_RETURN_DUE_TO_ASSERT void overflowed()
76	{
77	ASSERT_NOT_REACHED();
78	}
79
80	void clearOverflow() { }
81
82	static NO_RETURN_DUE_TO_CRASH void crash()
83	{
84	CRASH();
85	}
86
87	public:
88	constexpr bool hasOverflowed() const { return false; }
89	};
90
91	class ConditionalCrashOnOverflow {
92	public:
93	void overflowed()
94	{
95	m_overflowed = true;
96	if (m_shouldCrashOnOverflow)
97	crash();
98	}
99
100	bool shouldCrashOnOverflow() const { return m_shouldCrashOnOverflow; }
101	void setShouldCrashOnOverflow(bool value) { m_shouldCrashOnOverflow = value; }
102
103	bool hasOverflowed() const { return m_overflowed; }
104	void clearOverflow() { m_overflowed = false; }
105
106	static NO_RETURN_DUE_TO_CRASH void crash()
107	{
108	CRASH();
109	}
110
111	private:
112	bool m_overflowed { false };
113	bool m_shouldCrashOnOverflow { true };
114	};
115
116	class CrashOnOverflow {
117	public:
118	static NO_RETURN_DUE_TO_CRASH void overflowed()
119	{
120	crash();
121	}
122
123	void clearOverflow() { }
124
125	static NO_RETURN_DUE_TO_CRASH void crash()
126	{
127	CRASH();
128	}
129
130	public:
131	bool hasOverflowed() const { return false; }
132	};
133
134	class RecordOverflow {
135	protected:
136	RecordOverflow()
137	: m_overflowed(false)
138	{
139	}
140
141	void clearOverflow()
142	{
143	m_overflowed = false;
144	}
145
146	static NO_RETURN_DUE_TO_CRASH void crash()
147	{
148	CRASH();
149	}
150
151	public:
152	bool hasOverflowed() const { return m_overflowed; }
153	void overflowed() { m_overflowed = true; }
154
155	private:
156	unsigned char m_overflowed;
157	};
158
159	template <typename T, class OverflowHandler = CrashOnOverflow> class Checked;
160	template <typename T> struct RemoveChecked;
161	template <typename T> struct RemoveChecked<Checked<T>>;
162
163	template <typename Target, typename Source, bool isTargetBigger = sizeof(Target) >= sizeof(Source), bool targetSigned = std::numeric_limits<Target>::is_signed, bool sourceSigned = std::numeric_limits<Source>::is_signed> struct BoundsChecker;
164	template <typename Target, typename Source> struct BoundsChecker<Target, Source, false, false, false> {
165	static bool inBounds(Source value)
166	{
167	// Same signedness so implicit type conversion will always increase precision to widest type.
168	return value <= std::numeric_limits<Target>::max();
169	}
170	};
171	template <typename Target, typename Source> struct BoundsChecker<Target, Source, false, true, true> {
172	static bool inBounds(Source value)
173	{
174	// Same signedness so implicit type conversion will always increase precision to widest type.
175	return std::numeric_limits<Target>::min() <= value && value <= std::numeric_limits<Target>::max();
176	}
177	};
178
179	template <typename Target, typename Source> struct BoundsChecker<Target, Source, false, false, true> {
180	static bool inBounds(Source value)
181	{
182	// When converting value to unsigned Source, value will become a big value if value is negative.
183	// Casted value will become bigger than Target::max as Source is bigger than Target.
184	return static_cast<std::make_unsigned_t<Source>>(value) <= std::numeric_limits<Target>::max();
185	}
186	};
187
188	template <typename Target, typename Source> struct BoundsChecker<Target, Source, false, true, false> {
189	static bool inBounds(Source value)
190	{
191	// The unsigned Source type has greater precision than the target so max(Target) -> Source will widen.
192	return value <= static_cast<Source>(std::numeric_limits<Target>::max());
193	}
194	};
195
196	template <typename Target, typename Source> struct BoundsChecker<Target, Source, true, false, false> {
197	static bool inBounds(Source)
198	{
199	// Same sign, greater or same precision.
200	return true;
201	}
202	};
203
204	template <typename Target, typename Source> struct BoundsChecker<Target, Source, true, true, true> {
205	static bool inBounds(Source)
206	{
207	// Same sign, greater or same precision.
208	return true;
209	}
210	};
211
212	template <typename Target, typename Source> struct BoundsChecker<Target, Source, true, true, false> {
213	static bool inBounds(Source value)
214	{
215	// Target is signed with greater or same precision. If strictly greater, it is always safe.
216	if (sizeof(Target) > sizeof(Source))
217	return true;
218	return value <= static_cast<Source>(std::numeric_limits<Target>::max());
219	}
220	};
221
222	template <typename Target, typename Source> struct BoundsChecker<Target, Source, true, false, true> {
223	static bool inBounds(Source value)
224	{
225	// Target is unsigned with greater precision.
226	return value >= `0`;
227	}
228	};
229
230	template <typename Target, typename Source> static inline bool isInBounds(Source value)
231	{
232	return BoundsChecker<Target, Source>::inBounds(value);
233	}
234
235	template <typename Target, typename Source> static inline bool convertSafely(Source input, Target& output)
236	{
237	if (!isInBounds<Target>(input))
238	return false;
239	output = static_cast<Target>(input);
240	return true;
241	}
242
243	template <typename T> struct RemoveChecked {
244	typedef T CleanType;
245	static const CleanType DefaultValue = `0`;
246	};
247
248	template <typename T> struct RemoveChecked<Checked<T, ConditionalCrashOnOverflow>> {
249	using CleanType = typename RemoveChecked<T>::CleanType;
250	static const CleanType DefaultValue = `0`;
251	};
252
253	template <typename T> struct RemoveChecked<Checked<T, CrashOnOverflow>> {
254	typedef typename RemoveChecked<T>::CleanType CleanType;
255	static const CleanType DefaultValue = `0`;
256	};
257
258	template <typename T> struct RemoveChecked<Checked<T, RecordOverflow>> {
259	typedef typename RemoveChecked<T>::CleanType CleanType;
260	static const CleanType DefaultValue = `0`;
261	};
262
263	// The ResultBase and SignednessSelector are used to workaround typeof not being
264	// available in MSVC
265	template <typename U, typename V, bool uIsBigger = (sizeof(U) > sizeof(V)), bool sameSize = (sizeof(U) == sizeof(V))> struct ResultBase;
266	template <typename U, typename V> struct ResultBase<U, V, true, false> {
267	typedef U ResultType;
268	};
269
270	template <typename U, typename V> struct ResultBase<U, V, false, false> {
271	typedef V ResultType;
272	};
273
274	template <typename U> struct ResultBase<U, U, false, true> {
275	typedef U ResultType;
276	};
277
278	template <typename U, typename V, bool uIsSigned = std::numeric_limits<U>::is_signed, bool vIsSigned = std::numeric_limits<V>::is_signed> struct SignednessSelector;
279	template <typename U, typename V> struct SignednessSelector<U, V, true, true> {
280	typedef U ResultType;
281	};
282
283	template <typename U, typename V> struct SignednessSelector<U, V, false, false> {
284	typedef U ResultType;
285	};
286
287	template <typename U, typename V> struct SignednessSelector<U, V, true, false> {
288	typedef V ResultType;
289	};
290
291	template <typename U, typename V> struct SignednessSelector<U, V, false, true> {
292	typedef U ResultType;
293	};
294
295	template <typename U, typename V> struct ResultBase<U, V, false, true> {
296	typedef typename SignednessSelector<U, V>::ResultType ResultType;
297	};
298
299	template <typename U, typename V> struct Result : ResultBase<typename RemoveChecked<U>::CleanType, typename RemoveChecked<V>::CleanType> {
300	};
301
302	template <typename LHS, typename RHS, typename ResultType = typename Result<LHS, RHS>::ResultType,
303	bool lhsSigned = std::numeric_limits<LHS>::is_signed, bool rhsSigned = std::numeric_limits<RHS>::is_signed> struct ArithmeticOperations;
304
305	template <typename LHS, typename RHS, typename ResultType> struct ArithmeticOperations<LHS, RHS, ResultType, true, true> {
306	// LHS and RHS are signed types
307
308	// Helper function
309	static inline bool signsMatch(LHS lhs, RHS rhs)
310	{
311	return (lhs ^ rhs) >= `0`;
312	}
313
314	static inline bool add(LHS lhs, RHS rhs, ResultType& result) WARN_UNUSED_RETURN
315	{
316	#if COMPILER(GCC_COMPATIBLE)
317	ResultType temp;
318	if (__builtin_add_overflow(lhs, rhs, &temp))
319	return false;
320	result = temp;
321	return true;
322	#else
323	if (signsMatch(lhs, rhs)) {
324	if (lhs >= `0`) {
325	if ((std::numeric_limits<ResultType>::max() - rhs) < lhs)
326	return false;
327	} else {
328	ResultType temp = lhs - std::numeric_limits<ResultType>::min();
329	if (rhs < -temp)
330	return false;
331	}
332	} // if the signs do not match this operation can't overflow
333	result = lhs + rhs;
334	return true;
335	#endif
336	}
337
338	static inline bool sub(LHS lhs, RHS rhs, ResultType& result) WARN_UNUSED_RETURN
339	{
340	#if COMPILER(GCC_COMPATIBLE)
341	ResultType temp;
342	if (__builtin_sub_overflow(lhs, rhs, &temp))
343	return false;
344	result = temp;
345	return true;
346	#else
347	if (!signsMatch(lhs, rhs)) {
348	if (lhs >= `0`) {
349	if (lhs > std::numeric_limits<ResultType>::max() + rhs)
350	return false;
351	} else {
352	if (rhs > std::numeric_limits<ResultType>::max() + lhs)
353	return false;
354	}
355	} // if the signs match this operation can't overflow
356	result = lhs - rhs;
357	return true;
358	#endif
359	}
360
361	static inline bool multiply(LHS lhs, RHS rhs, ResultType& result) WARN_UNUSED_RETURN
362	{
363	#if COMPILER(GCC_COMPATIBLE)
364	ResultType temp;
365	if (__builtin_mul_overflow(lhs, rhs, &temp))
366	return false;
367	result = temp;
368	return true;
369	#else
370	if (signsMatch(lhs, rhs)) {
371	if (lhs >= `0`) {
372	if (lhs && (std::numeric_limits<ResultType>::max() / lhs) < rhs)
373	return false;
374	} else {
375	if (static_cast<ResultType>(lhs) == std::numeric_limits<ResultType>::min() \|\| static_cast<ResultType>(rhs) == std::numeric_limits<ResultType>::min())
376	return false;
377	if ((std::numeric_limits<ResultType>::max() / -lhs) < -rhs)
378	return false;
379	}
380	} else {
381	if (lhs < `0`) {
382	if (rhs && lhs < (std::numeric_limits<ResultType>::min() / rhs))
383	return false;
384	} else {
385	if (lhs && rhs < (std::numeric_limits<ResultType>::min() / lhs))
386	return false;
387	}
388	}
389	result = lhs * rhs;
390	return true;
391	#endif
392	}
393
394	static inline bool equals(LHS lhs, RHS rhs) { return lhs == rhs; }
395
396	};
397
398	template <typename LHS, typename RHS, typename ResultType> struct ArithmeticOperations<LHS, RHS, ResultType, false, false> {
399	// LHS and RHS are unsigned types so bounds checks are nice and easy
400	static inline bool add(LHS lhs, RHS rhs, ResultType& result) WARN_UNUSED_RETURN
401	{
402	#if COMPILER(GCC_COMPATIBLE)
403	ResultType temp;
404	if (__builtin_add_overflow(lhs, rhs, &temp))
405	return false;
406	result = temp;
407	return true;
408	#else
409	ResultType temp = lhs + rhs;
410	if (temp < lhs)
411	return false;
412	result = temp;
413	return true;
414	#endif
415	}
416
417	static inline bool sub(LHS lhs, RHS rhs, ResultType& result) WARN_UNUSED_RETURN
418	{
419	#if COMPILER(GCC_COMPATIBLE)
420	ResultType temp;
421	if (__builtin_sub_overflow(lhs, rhs, &temp))
422	return false;
423	result = temp;
424	return true;
425	#else
426	ResultType temp = lhs - rhs;
427	if (temp > lhs)
428	return false;
429	result = temp;
430	return true;
431	#endif
432	}
433
434	static inline bool multiply(LHS lhs, RHS rhs, ResultType& result) WARN_UNUSED_RETURN
435	{
436	#if COMPILER(GCC_COMPATIBLE)
437	ResultType temp;
438	if (__builtin_mul_overflow(lhs, rhs, &temp))
439	return false;
440	result = temp;
441	return true;
442	#else
443	if (!lhs \|\| !rhs) {
444	result = `0`;
445	return true;
446	}
447	if (std::numeric_limits<ResultType>::max() / lhs < rhs)
448	return false;
449	result = lhs * rhs;
450	return true;
451	#endif
452	}
453
454	static inline bool equals(LHS lhs, RHS rhs) { return lhs == rhs; }
455
456	};
457
458	template <typename ResultType> struct ArithmeticOperations<int, unsigned, ResultType, true, false> {
459	static inline bool add(int64_t lhs, int64_t rhs, ResultType& result)
460	{
461	#if COMPILER(GCC_COMPATIBLE)
462	ResultType temp;
463	if (__builtin_add_overflow(lhs, rhs, &temp))
464	return false;
465	result = temp;
466	return true;
467	#else
468	int64_t temp = lhs + rhs;
469	if (temp < std::numeric_limits<ResultType>::min())
470	return false;
471	if (temp > std::numeric_limits<ResultType>::max())
472	return false;
473	result = static_cast<ResultType>(temp);
474	return true;
475	#endif
476	}
477
478	static inline bool sub(int64_t lhs, int64_t rhs, ResultType& result)
479	{
480	#if COMPILER(GCC_COMPATIBLE)
481	ResultType temp;
482	if (__builtin_sub_overflow(lhs, rhs, &temp))
483	return false;
484	result = temp;
485	return true;
486	#else
487	int64_t temp = lhs - rhs;
488	if (temp < std::numeric_limits<ResultType>::min())
489	return false;
490	if (temp > std::numeric_limits<ResultType>::max())
491	return false;
492	result = static_cast<ResultType>(temp);
493	return true;
494	#endif
495	}
496
497	static inline bool multiply(int64_t lhs, int64_t rhs, ResultType& result)
498	{
499	#if COMPILER(GCC_COMPATIBLE)
500	ResultType temp;
501	if (__builtin_mul_overflow(lhs, rhs, &temp))
502	return false;
503	result = temp;
504	return true;
505	#else
506	int64_t temp = lhs * rhs;
507	if (temp < std::numeric_limits<ResultType>::min())
508	return false;
509	if (temp > std::numeric_limits<ResultType>::max())
510	return false;
511	result = static_cast<ResultType>(temp);
512	return true;
513	#endif
514	}
515
516	static inline bool equals(int lhs, unsigned rhs)
517	{
518	return static_cast<int64_t>(lhs) == static_cast<int64_t>(rhs);
519	}
520	};
521
522	template <typename ResultType> struct ArithmeticOperations<unsigned, int, ResultType, false, true> {
523	static inline bool add(int64_t lhs, int64_t rhs, ResultType& result)
524	{
525	return ArithmeticOperations<int, unsigned, ResultType>::add(rhs, lhs, result);
526	}
527
528	static inline bool sub(int64_t lhs, int64_t rhs, ResultType& result)
529	{
530	return ArithmeticOperations<int, unsigned, ResultType>::sub(lhs, rhs, result);
531	}
532
533	static inline bool multiply(int64_t lhs, int64_t rhs, ResultType& result)
534	{
535	return ArithmeticOperations<int, unsigned, ResultType>::multiply(lhs, rhs, result);
536	}
537
538	static inline bool equals(unsigned lhs, int rhs)
539	{
540	return ArithmeticOperations<int, unsigned, ResultType>::equals(rhs, lhs);
541	}
542	};
543
544	template <class OverflowHandler, typename = std::enable_if_t<!std::is_scalar<OverflowHandler>::value>>
545	inline constexpr bool observesOverflow() { return true; }
546
547	template <>
548	inline constexpr bool observesOverflow<AssertNoOverflow>() { return !ASSERT_DISABLED; }
549
550	template <typename U, typename V, typename R> static inline bool safeAdd(U lhs, V rhs, R& result)
551	{
552	return ArithmeticOperations<U, V, R>::add(lhs, rhs, result);
553	return true;
554	}
555
556	template <class OverflowHandler, typename U, typename V, typename R, typename = std::enable_if_t<!std::is_scalar<OverflowHandler>::value>>
557	static inline bool safeAdd(U lhs, V rhs, R& result)
558	{
559	if (observesOverflow<OverflowHandler>())
560	return safeAdd(lhs, rhs, result);
561	result = lhs + rhs;
562	return true;
563	}
564
565	template <typename U, typename V, typename R> static inline bool safeSub(U lhs, V rhs, R& result)
566	{
567	return ArithmeticOperations<U, V, R>::sub(lhs, rhs, result);
568	}
569
570	template <class OverflowHandler, typename U, typename V, typename R, typename = std::enable_if_t<!std::is_scalar<OverflowHandler>::value>>
571	static inline bool safeSub(U lhs, V rhs, R& result)
572	{
573	if (observesOverflow<OverflowHandler>())
574	return safeSub(lhs, rhs, result);
575	result = lhs - rhs;
576	return true;
577	}
578
579	template <typename U, typename V, typename R> static inline bool safeMultiply(U lhs, V rhs, R& result)
580	{
581	return ArithmeticOperations<U, V, R>::multiply(lhs, rhs, result);
582	}
583
584	template <class OverflowHandler, typename U, typename V, typename R, typename = std::enable_if_t<!std::is_scalar<OverflowHandler>::value>>
585	static inline bool safeMultiply(U lhs, V rhs, R& result)
586	{
587	if (observesOverflow<OverflowHandler>())
588	return safeMultiply(lhs, rhs, result);
589	result = lhs * rhs;
590	return true;
591	}
592
593	template <typename U, typename V> static inline bool safeEquals(U lhs, V rhs)
594	{
595	return ArithmeticOperations<U, V>::equals(lhs, rhs);
596	}
597
598	enum ResultOverflowedTag { ResultOverflowed };
599
600	template <typename T, class OverflowHandler> class Checked : public OverflowHandler {
601	public:
602	template <typename _T, class _OverflowHandler> friend class Checked;
603	Checked()
604	: m_value(`0`)
605	{
606	}
607
608	Checked(ResultOverflowedTag)
609	: m_value(`0`)
610	{
611	this->overflowed();
612	}
613
614	Checked(const Checked& value)
615	{
616	if (value.hasOverflowed())
617	this->overflowed();
618	m_value = static_cast<T>(value.m_value);
619	}
620
621	template <typename U> Checked(U value)
622	{
623	if (!isInBounds<T>(value))
624	this->overflowed();
625	m_value = static_cast<T>(value);
626	}
627
628	template <typename V> Checked(const Checked<T, V>& rhs)
629	: m_value(rhs.m_value)
630	{
631	if (rhs.hasOverflowed())
632	this->overflowed();
633	}
634
635	template <typename U> Checked(const Checked<U, OverflowHandler>& rhs)
636	: OverflowHandler(rhs)
637	{
638	if (!isInBounds<T>(rhs.m_value))
639	this->overflowed();
640	m_value = static_cast<T>(rhs.m_value);
641	}
642
643	template <typename U, typename V> Checked(const Checked<U, V>& rhs)
644	{
645	if (rhs.hasOverflowed())
646	this->overflowed();
647	if (!isInBounds<T>(rhs.m_value))
648	this->overflowed();
649	m_value = static_cast<T>(rhs.m_value);
650	}
651
652	const Checked& operator=(Checked rhs)
653	{
654	this->clearOverflow();
655	if (rhs.hasOverflowed())
656	this->overflowed();
657	m_value = static_cast<T>(rhs.m_value);
658	return *this;
659	}
660
661	template <typename U> const Checked& operator=(U value)
662	{
663	return *this = Checked(value);
664	}
665
666	template <typename U, typename V> const Checked& operator=(const Checked<U, V>& rhs)
667	{
668	return *this = Checked(rhs);
669	}
670
671	// prefix
672	const Checked& operator++()
673	{
674	if (m_value == std::numeric_limits<T>::max())
675	this->overflowed();
676	m_value++;
677	return *this;
678	}
679
680	const Checked& operator--()
681	{
682	if (m_value == std::numeric_limits<T>::min())
683	this->overflowed();
684	m_value--;
685	return *this;
686	}
687
688	// postfix operators
689	const Checked operator++(int)
690	{
691	if (m_value == std::numeric_limits<T>::max())
692	this->overflowed();
693	return Checked(m_value++);
694	}
695
696	const Checked operator--(int)
697	{
698	if (m_value == std::numeric_limits<T>::min())
699	this->overflowed();
700	return Checked(m_value--);
701	}
702
703	// Boolean operators
704	bool operator!() const
705	{
706	if (this->hasOverflowed())
707	this->crash();
708	return !m_value;
709	}
710
711	explicit operator bool() const
712	{
713	if (this->hasOverflowed())
714	this->crash();
715	return m_value;
716	}
717
718	// Value accessors. unsafeGet() will crash if there's been an overflow.
719	template<typename U = T>
720	U unsafeGet() const
721	{
722	if (this->hasOverflowed())
723	this->crash();
724	return static_cast<U>(m_value);
725	}
726
727	inline CheckedState safeGet(T& value) const WARN_UNUSED_RETURN
728	{
729	value = m_value;
730	if (this->hasOverflowed())
731	return CheckedState::DidOverflow;
732	return CheckedState::DidNotOverflow;
733	}
734
735	// Mutating assignment
736	template <typename U> const Checked operator+=(U rhs)
737	{
738	if (!safeAdd<OverflowHandler>(m_value, rhs, m_value))
739	this->overflowed();
740	return *this;
741	}
742
743	template <typename U> const Checked operator-=(U rhs)
744	{
745	if (!safeSub<OverflowHandler>(m_value, rhs, m_value))
746	this->overflowed();
747	return *this;
748	}
749
750	template <typename U> const Checked operator*=(U rhs)
751	{
752	if (!safeMultiply<OverflowHandler>(m_value, rhs, m_value))
753	this->overflowed();
754	return *this;
755	}
756
757	const Checked operator=(double* rhs)
758	{
759	double result = rhs * m_value;
760	// Handle +/- infinity and NaN
761	if (!(std::numeric_limits<T>::min() <= result && std::numeric_limits<T>::max() >= result))
762	this->overflowed();
763	m_value = (T)result;
764	return *this;
765	}
766
767	const Checked operator=(float* rhs)
768	{
769	return *this = (double*)rhs;
770	}
771
772	template <typename U, typename V> const Checked operator+=(Checked<U, V> rhs)
773	{
774	if (rhs.hasOverflowed())
775	this->overflowed();
776	return *this += rhs.m_value;
777	}
778
779	template <typename U, typename V> const Checked operator-=(Checked<U, V> rhs)
780	{
781	if (rhs.hasOverflowed())
782	this->overflowed();
783	return *this -= rhs.m_value;
784	}
785
786	template <typename U, typename V> const Checked operator*=(Checked<U, V> rhs)
787	{
788	if (rhs.hasOverflowed())
789	this->overflowed();
790	return *this *= rhs.m_value;
791	}
792
793	// Equality comparisons
794	template <typename V> bool operator==(Checked<T, V> rhs)
795	{
796	return unsafeGet() == rhs.unsafeGet();
797	}
798
799	template <typename U> bool operator==(U rhs)
800	{
801	if (this->hasOverflowed())
802	this->crash();
803	return safeEquals(m_value, rhs);
804	}
805
806	template <typename U, typename V> const Checked operator==(Checked<U, V> rhs)
807	{
808	return unsafeGet() == Checked(rhs.unsafeGet());
809	}
810
811	template <typename U> bool operator!=(U rhs)
812	{
813	return !(*this == rhs);
814	}
815
816	// Other comparisons
817	template <typename V> bool operator<(Checked<T, V> rhs) const
818	{
819	return unsafeGet() < rhs.unsafeGet();
820	}
821
822	bool operator<(T rhs) const
823	{
824	return unsafeGet() < rhs;
825	}
826
827	template <typename V> bool operator<=(Checked<T, V> rhs) const
828	{
829	return unsafeGet() <= rhs.unsafeGet();
830	}
831
832	bool operator<=(T rhs) const
833	{
834	return unsafeGet() <= rhs;
835	}
836
837	template <typename V> bool operator>(Checked<T, V> rhs) const
838	{
839	return unsafeGet() > rhs.unsafeGet();
840	}
841
842	bool operator>(T rhs) const
843	{
844	return unsafeGet() > rhs;
845	}
846
847	template <typename V> bool operator>=(Checked<T, V> rhs) const
848	{
849	return unsafeGet() >= rhs.unsafeGet();
850	}
851
852	bool operator>=(T rhs) const
853	{
854	return unsafeGet() >= rhs;
855	}
856
857	private:
858	// Disallow implicit conversion of floating point to integer types
859	Checked(float);
860	Checked(double);
861	void operator=(float);
862	void operator=(double);
863	void operator+=(float);
864	void operator+=(double);
865	void operator-=(float);
866	void operator-=(double);
867	T m_value;
868	};
869
870	template <typename U, typename V, typename OverflowHandler> static inline Checked<typename Result<U, V>::ResultType, OverflowHandler> operator+(Checked<U, OverflowHandler> lhs, Checked<V, OverflowHandler> rhs)
871	{
872	U x = `0`;
873	V y = `0`;
874	bool overflowed = lhs.safeGet(x) == CheckedState::DidOverflow \|\| rhs.safeGet(y) == CheckedState::DidOverflow;
875	typename Result<U, V>::ResultType result = `0`;
876	overflowed \|= !safeAdd<OverflowHandler>(x, y, result);
877	if (overflowed)
878	return ResultOverflowed;
879	return result;
880	}
881
882	template <typename U, typename V, typename OverflowHandler> static inline Checked<typename Result<U, V>::ResultType, OverflowHandler> operator-(Checked<U, OverflowHandler> lhs, Checked<V, OverflowHandler> rhs)
883	{
884	U x = `0`;
885	V y = `0`;
886	bool overflowed = lhs.safeGet(x) == CheckedState::DidOverflow \|\| rhs.safeGet(y) == CheckedState::DidOverflow;
887	typename Result<U, V>::ResultType result = `0`;
888	overflowed \|= !safeSub<OverflowHandler>(x, y, result);
889	if (overflowed)
890	return ResultOverflowed;
891	return result;
892	}
893
894	template <typename U, typename V, typename OverflowHandler> static inline Checked<typename Result<U, V>::ResultType, OverflowHandler> operator*(Checked<U, OverflowHandler> lhs, Checked<V, OverflowHandler> rhs)
895	{
896	U x = `0`;
897	V y = `0`;
898	bool overflowed = lhs.safeGet(x) == CheckedState::DidOverflow \|\| rhs.safeGet(y) == CheckedState::DidOverflow;
899	typename Result<U, V>::ResultType result = `0`;
900	overflowed \|= !safeMultiply<OverflowHandler>(x, y, result);
901	if (overflowed)
902	return ResultOverflowed;
903	return result;
904	}
905
906	template <typename U, typename V, typename OverflowHandler> static inline Checked<typename Result<U, V>::ResultType, OverflowHandler> operator+(Checked<U, OverflowHandler> lhs, V rhs)
907	{
908	return lhs + Checked<V, OverflowHandler>(rhs);
909	}
910
911	template <typename U, typename V, typename OverflowHandler> static inline Checked<typename Result<U, V>::ResultType, OverflowHandler> operator-(Checked<U, OverflowHandler> lhs, V rhs)
912	{
913	return lhs - Checked<V, OverflowHandler>(rhs);
914	}
915
916	template <typename U, typename V, typename OverflowHandler> static inline Checked<typename Result<U, V>::ResultType, OverflowHandler> operator*(Checked<U, OverflowHandler> lhs, V rhs)
917	{
918	return lhs * Checked<V, OverflowHandler>(rhs);
919	}
920
921	template <typename U, typename V, typename OverflowHandler> static inline Checked<typename Result<U, V>::ResultType, OverflowHandler> operator+(U lhs, Checked<V, OverflowHandler> rhs)
922	{
923	return Checked<U, OverflowHandler>(lhs) + rhs;
924	}
925
926	template <typename U, typename V, typename OverflowHandler> static inline Checked<typename Result<U, V>::ResultType, OverflowHandler> operator-(U lhs, Checked<V, OverflowHandler> rhs)
927	{
928	return Checked<U, OverflowHandler>(lhs) - rhs;
929	}
930
931	template <typename U, typename V, typename OverflowHandler> static inline Checked<typename Result<U, V>::ResultType, OverflowHandler> operator*(U lhs, Checked<V, OverflowHandler> rhs)
932	{
933	return Checked<U, OverflowHandler>(lhs) * rhs;
934	}
935
936	// Convenience typedefs.
937	typedef Checked<int8_t, RecordOverflow> CheckedInt8;
938	typedef Checked<uint8_t, RecordOverflow> CheckedUint8;
939	typedef Checked<int16_t, RecordOverflow> CheckedInt16;
940	typedef Checked<uint16_t, RecordOverflow> CheckedUint16;
941	typedef Checked<int32_t, RecordOverflow> CheckedInt32;
942	typedef Checked<uint32_t, RecordOverflow> CheckedUint32;
943	typedef Checked<int64_t, RecordOverflow> CheckedInt64;
944	typedef Checked<uint64_t, RecordOverflow> CheckedUint64;
945	typedef Checked<size_t, RecordOverflow> CheckedSize;
946
947	template<typename T, typename U>
948	Checked<T, RecordOverflow> checkedSum(U value)
949	{
950	return Checked<T, RecordOverflow>(value);
951	}
952	template<typename T, typename U, typename... Args>
953	Checked<T, RecordOverflow> checkedSum(U value, Args... args)
954	{
955	return Checked<T, RecordOverflow>(value) + checkedSum<T>(args...);
956	}
957
958	// Sometimes, you just want to check if some math would overflow - the code to do the math is
959	// already in place, and you want to guard it.
960
961	template<typename T, typename... Args> bool sumOverflows(Args... args)
962	{
963	return checkedSum<T>(args...).hasOverflowed();
964	}
965
966	template<typename T, typename U> bool differenceOverflows(U left, U right)
967	{
968	return (Checked<T, RecordOverflow>(left) - Checked<T, RecordOverflow>(right)).hasOverflowed();
969	}
970
971	template<typename T, typename U>
972	Checked<T, RecordOverflow> checkedProduct(U value)
973	{
974	return Checked<T, RecordOverflow>(value);
975	}
976	template<typename T, typename U, typename... Args>
977	Checked<T, RecordOverflow> checkedProduct(U value, Args... args)
978	{
979	return Checked<T, RecordOverflow>(value) * checkedProduct<T>(args...);
980	}
981
982	// Sometimes, you just want to check if some math would overflow - the code to do the math is
983	// already in place, and you want to guard it.
984
985	template<typename T, typename... Args> bool productOverflows(Args... args)
986	{
987	return checkedProduct<T>(args...).hasOverflowed();
988	}
989
990	}
991
992	using WTF::AssertNoOverflow;
993	using WTF::Checked;
994	using WTF::CheckedState;
995	using WTF::CheckedInt8;
996	using WTF::CheckedUint8;
997	using WTF::CheckedInt16;
998	using WTF::CheckedUint16;
999	using WTF::CheckedInt32;
1000	using WTF::CheckedUint32;
1001	using WTF::CheckedInt64;
1002	using WTF::CheckedUint64;
1003	using WTF::CheckedSize;
1004	using WTF::ConditionalCrashOnOverflow;
1005	using WTF::CrashOnOverflow;
1006	using WTF::RecordOverflow;
1007	using WTF::checkedSum;
1008	using WTF::differenceOverflows;
1009	using WTF::productOverflows;
1010	using WTF::sumOverflows;
1011

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