QUIC - cleanup changes to sync chromium tree with internal source.
[chromium-blink-merge.git] / base / numerics / safe_numerics_unittest.cc
blob6f9a966c0156431e654e71d483d81083fe555690
1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #if defined(COMPILER_MSVC) && defined(ARCH_CPU_32_BITS)
6 #include <mmintrin.h>
7 #endif
8 #include <stdint.h>
10 #include <limits>
12 #include "base/compiler_specific.h"
13 #include "base/numerics/safe_conversions.h"
14 #include "base/numerics/safe_math.h"
15 #include "base/template_util.h"
16 #include "testing/gtest/include/gtest/gtest.h"
18 using std::numeric_limits;
19 using base::CheckedNumeric;
20 using base::checked_cast;
21 using base::SizeT;
22 using base::StrictNumeric;
23 using base::saturated_cast;
24 using base::strict_cast;
25 using base::internal::MaxExponent;
26 using base::internal::RANGE_VALID;
27 using base::internal::RANGE_INVALID;
28 using base::internal::RANGE_OVERFLOW;
29 using base::internal::RANGE_UNDERFLOW;
30 using base::enable_if;
32 // These tests deliberately cause arithmetic overflows. If the compiler is
33 // aggressive enough, it can const fold these overflows. Disable warnings about
34 // overflows for const expressions.
35 #if defined(OS_WIN)
36 #pragma warning(disable:4756)
37 #endif
39 // Helper macros to wrap displaying the conversion types and line numbers.
40 #define TEST_EXPECTED_VALIDITY(expected, actual) \
41 EXPECT_EQ(expected, CheckedNumeric<Dst>(actual).validity()) \
42 << "Result test: Value " << +(actual).ValueUnsafe() << " as " << dst \
43 << " on line " << line;
45 #define TEST_EXPECTED_VALUE(expected, actual) \
46 EXPECT_EQ(static_cast<Dst>(expected), \
47 CheckedNumeric<Dst>(actual).ValueUnsafe()) \
48 << "Result test: Value " << +((actual).ValueUnsafe()) << " as " << dst \
49 << " on line " << line;
51 // Signed integer arithmetic.
52 template <typename Dst>
53 static void TestSpecializedArithmetic(
54 const char* dst,
55 int line,
56 typename enable_if<
57 numeric_limits<Dst>::is_integer&& numeric_limits<Dst>::is_signed,
58 int>::type = 0) {
59 typedef numeric_limits<Dst> DstLimits;
60 TEST_EXPECTED_VALIDITY(RANGE_OVERFLOW,
61 -CheckedNumeric<Dst>(DstLimits::min()));
62 TEST_EXPECTED_VALIDITY(RANGE_OVERFLOW,
63 CheckedNumeric<Dst>(DstLimits::min()).Abs());
64 TEST_EXPECTED_VALUE(1, CheckedNumeric<Dst>(-1).Abs());
66 TEST_EXPECTED_VALIDITY(RANGE_VALID,
67 CheckedNumeric<Dst>(DstLimits::max()) + -1);
68 TEST_EXPECTED_VALIDITY(RANGE_UNDERFLOW,
69 CheckedNumeric<Dst>(DstLimits::min()) + -1);
70 TEST_EXPECTED_VALIDITY(
71 RANGE_UNDERFLOW,
72 CheckedNumeric<Dst>(-DstLimits::max()) + -DstLimits::max());
74 TEST_EXPECTED_VALIDITY(RANGE_UNDERFLOW,
75 CheckedNumeric<Dst>(DstLimits::min()) - 1);
76 TEST_EXPECTED_VALIDITY(RANGE_VALID,
77 CheckedNumeric<Dst>(DstLimits::min()) - -1);
78 TEST_EXPECTED_VALIDITY(
79 RANGE_OVERFLOW,
80 CheckedNumeric<Dst>(DstLimits::max()) - -DstLimits::max());
81 TEST_EXPECTED_VALIDITY(
82 RANGE_UNDERFLOW,
83 CheckedNumeric<Dst>(-DstLimits::max()) - DstLimits::max());
85 TEST_EXPECTED_VALIDITY(RANGE_UNDERFLOW,
86 CheckedNumeric<Dst>(DstLimits::min()) * 2);
88 TEST_EXPECTED_VALIDITY(RANGE_OVERFLOW,
89 CheckedNumeric<Dst>(DstLimits::min()) / -1);
90 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(-1) / 2);
92 // Modulus is legal only for integers.
93 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>() % 1);
94 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(1) % 1);
95 TEST_EXPECTED_VALUE(-1, CheckedNumeric<Dst>(-1) % 2);
96 TEST_EXPECTED_VALIDITY(RANGE_INVALID, CheckedNumeric<Dst>(-1) % -2);
97 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(DstLimits::min()) % 2);
98 TEST_EXPECTED_VALUE(1, CheckedNumeric<Dst>(DstLimits::max()) % 2);
99 // Test all the different modulus combinations.
100 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(1) % CheckedNumeric<Dst>(1));
101 TEST_EXPECTED_VALUE(0, 1 % CheckedNumeric<Dst>(1));
102 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(1) % 1);
103 CheckedNumeric<Dst> checked_dst = 1;
104 TEST_EXPECTED_VALUE(0, checked_dst %= 1);
107 // Unsigned integer arithmetic.
108 template <typename Dst>
109 static void TestSpecializedArithmetic(
110 const char* dst,
111 int line,
112 typename enable_if<
113 numeric_limits<Dst>::is_integer && !numeric_limits<Dst>::is_signed,
114 int>::type = 0) {
115 typedef numeric_limits<Dst> DstLimits;
116 TEST_EXPECTED_VALIDITY(RANGE_VALID, -CheckedNumeric<Dst>(DstLimits::min()));
117 TEST_EXPECTED_VALIDITY(RANGE_VALID,
118 CheckedNumeric<Dst>(DstLimits::min()).Abs());
119 TEST_EXPECTED_VALIDITY(RANGE_UNDERFLOW,
120 CheckedNumeric<Dst>(DstLimits::min()) + -1);
121 TEST_EXPECTED_VALIDITY(RANGE_UNDERFLOW,
122 CheckedNumeric<Dst>(DstLimits::min()) - 1);
123 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(DstLimits::min()) * 2);
124 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(1) / 2);
126 // Modulus is legal only for integers.
127 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>() % 1);
128 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(1) % 1);
129 TEST_EXPECTED_VALUE(1, CheckedNumeric<Dst>(1) % 2);
130 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(DstLimits::min()) % 2);
131 TEST_EXPECTED_VALUE(1, CheckedNumeric<Dst>(DstLimits::max()) % 2);
132 // Test all the different modulus combinations.
133 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(1) % CheckedNumeric<Dst>(1));
134 TEST_EXPECTED_VALUE(0, 1 % CheckedNumeric<Dst>(1));
135 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(1) % 1);
136 CheckedNumeric<Dst> checked_dst = 1;
137 TEST_EXPECTED_VALUE(0, checked_dst %= 1);
140 // Floating point arithmetic.
141 template <typename Dst>
142 void TestSpecializedArithmetic(
143 const char* dst,
144 int line,
145 typename enable_if<numeric_limits<Dst>::is_iec559, int>::type = 0) {
146 typedef numeric_limits<Dst> DstLimits;
147 TEST_EXPECTED_VALIDITY(RANGE_VALID, -CheckedNumeric<Dst>(DstLimits::min()));
149 TEST_EXPECTED_VALIDITY(RANGE_VALID,
150 CheckedNumeric<Dst>(DstLimits::min()).Abs());
151 TEST_EXPECTED_VALUE(1, CheckedNumeric<Dst>(-1).Abs());
153 TEST_EXPECTED_VALIDITY(RANGE_VALID,
154 CheckedNumeric<Dst>(DstLimits::min()) + -1);
155 TEST_EXPECTED_VALIDITY(RANGE_VALID,
156 CheckedNumeric<Dst>(DstLimits::max()) + 1);
157 TEST_EXPECTED_VALIDITY(
158 RANGE_UNDERFLOW,
159 CheckedNumeric<Dst>(-DstLimits::max()) + -DstLimits::max());
161 TEST_EXPECTED_VALIDITY(
162 RANGE_OVERFLOW,
163 CheckedNumeric<Dst>(DstLimits::max()) - -DstLimits::max());
164 TEST_EXPECTED_VALIDITY(
165 RANGE_UNDERFLOW,
166 CheckedNumeric<Dst>(-DstLimits::max()) - DstLimits::max());
168 TEST_EXPECTED_VALIDITY(RANGE_VALID,
169 CheckedNumeric<Dst>(DstLimits::min()) * 2);
171 TEST_EXPECTED_VALUE(-0.5, CheckedNumeric<Dst>(-1.0) / 2);
172 EXPECT_EQ(static_cast<Dst>(1.0), CheckedNumeric<Dst>(1.0).ValueFloating());
175 // Generic arithmetic tests.
176 template <typename Dst>
177 static void TestArithmetic(const char* dst, int line) {
178 typedef numeric_limits<Dst> DstLimits;
180 EXPECT_EQ(true, CheckedNumeric<Dst>().IsValid());
181 EXPECT_EQ(false,
182 CheckedNumeric<Dst>(CheckedNumeric<Dst>(DstLimits::max()) *
183 DstLimits::max()).IsValid());
184 EXPECT_EQ(static_cast<Dst>(0), CheckedNumeric<Dst>().ValueOrDie());
185 EXPECT_EQ(static_cast<Dst>(0), CheckedNumeric<Dst>().ValueOrDefault(1));
186 EXPECT_EQ(static_cast<Dst>(1),
187 CheckedNumeric<Dst>(CheckedNumeric<Dst>(DstLimits::max()) *
188 DstLimits::max()).ValueOrDefault(1));
190 // Test the operator combinations.
191 TEST_EXPECTED_VALUE(2, CheckedNumeric<Dst>(1) + CheckedNumeric<Dst>(1));
192 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(1) - CheckedNumeric<Dst>(1));
193 TEST_EXPECTED_VALUE(1, CheckedNumeric<Dst>(1) * CheckedNumeric<Dst>(1));
194 TEST_EXPECTED_VALUE(1, CheckedNumeric<Dst>(1) / CheckedNumeric<Dst>(1));
195 TEST_EXPECTED_VALUE(2, 1 + CheckedNumeric<Dst>(1));
196 TEST_EXPECTED_VALUE(0, 1 - CheckedNumeric<Dst>(1));
197 TEST_EXPECTED_VALUE(1, 1 * CheckedNumeric<Dst>(1));
198 TEST_EXPECTED_VALUE(1, 1 / CheckedNumeric<Dst>(1));
199 TEST_EXPECTED_VALUE(2, CheckedNumeric<Dst>(1) + 1);
200 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>(1) - 1);
201 TEST_EXPECTED_VALUE(1, CheckedNumeric<Dst>(1) * 1);
202 TEST_EXPECTED_VALUE(1, CheckedNumeric<Dst>(1) / 1);
203 CheckedNumeric<Dst> checked_dst = 1;
204 TEST_EXPECTED_VALUE(2, checked_dst += 1);
205 checked_dst = 1;
206 TEST_EXPECTED_VALUE(0, checked_dst -= 1);
207 checked_dst = 1;
208 TEST_EXPECTED_VALUE(1, checked_dst *= 1);
209 checked_dst = 1;
210 TEST_EXPECTED_VALUE(1, checked_dst /= 1);
212 // Generic negation.
213 TEST_EXPECTED_VALUE(0, -CheckedNumeric<Dst>());
214 TEST_EXPECTED_VALUE(-1, -CheckedNumeric<Dst>(1));
215 TEST_EXPECTED_VALUE(1, -CheckedNumeric<Dst>(-1));
216 TEST_EXPECTED_VALUE(static_cast<Dst>(DstLimits::max() * -1),
217 -CheckedNumeric<Dst>(DstLimits::max()));
219 // Generic absolute value.
220 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>().Abs());
221 TEST_EXPECTED_VALUE(1, CheckedNumeric<Dst>(1).Abs());
222 TEST_EXPECTED_VALUE(DstLimits::max(),
223 CheckedNumeric<Dst>(DstLimits::max()).Abs());
225 // Generic addition.
226 TEST_EXPECTED_VALUE(1, (CheckedNumeric<Dst>() + 1));
227 TEST_EXPECTED_VALUE(2, (CheckedNumeric<Dst>(1) + 1));
228 TEST_EXPECTED_VALUE(0, (CheckedNumeric<Dst>(-1) + 1));
229 TEST_EXPECTED_VALIDITY(RANGE_VALID,
230 CheckedNumeric<Dst>(DstLimits::min()) + 1);
231 TEST_EXPECTED_VALIDITY(
232 RANGE_OVERFLOW, CheckedNumeric<Dst>(DstLimits::max()) + DstLimits::max());
234 // Generic subtraction.
235 TEST_EXPECTED_VALUE(-1, (CheckedNumeric<Dst>() - 1));
236 TEST_EXPECTED_VALUE(0, (CheckedNumeric<Dst>(1) - 1));
237 TEST_EXPECTED_VALUE(-2, (CheckedNumeric<Dst>(-1) - 1));
238 TEST_EXPECTED_VALIDITY(RANGE_VALID,
239 CheckedNumeric<Dst>(DstLimits::max()) - 1);
241 // Generic multiplication.
242 TEST_EXPECTED_VALUE(0, (CheckedNumeric<Dst>() * 1));
243 TEST_EXPECTED_VALUE(1, (CheckedNumeric<Dst>(1) * 1));
244 TEST_EXPECTED_VALUE(-2, (CheckedNumeric<Dst>(-1) * 2));
245 TEST_EXPECTED_VALUE(0, (CheckedNumeric<Dst>(0) * 0));
246 TEST_EXPECTED_VALUE(0, (CheckedNumeric<Dst>(-1) * 0));
247 TEST_EXPECTED_VALUE(0, (CheckedNumeric<Dst>(0) * -1));
248 TEST_EXPECTED_VALIDITY(
249 RANGE_OVERFLOW, CheckedNumeric<Dst>(DstLimits::max()) * DstLimits::max());
251 // Generic division.
252 TEST_EXPECTED_VALUE(0, CheckedNumeric<Dst>() / 1);
253 TEST_EXPECTED_VALUE(1, CheckedNumeric<Dst>(1) / 1);
254 TEST_EXPECTED_VALUE(DstLimits::min() / 2,
255 CheckedNumeric<Dst>(DstLimits::min()) / 2);
256 TEST_EXPECTED_VALUE(DstLimits::max() / 2,
257 CheckedNumeric<Dst>(DstLimits::max()) / 2);
259 TestSpecializedArithmetic<Dst>(dst, line);
262 // Helper macro to wrap displaying the conversion types and line numbers.
263 #define TEST_ARITHMETIC(Dst) TestArithmetic<Dst>(#Dst, __LINE__)
265 TEST(SafeNumerics, SignedIntegerMath) {
266 TEST_ARITHMETIC(int8_t);
267 TEST_ARITHMETIC(int);
268 TEST_ARITHMETIC(intptr_t);
269 TEST_ARITHMETIC(intmax_t);
272 TEST(SafeNumerics, UnsignedIntegerMath) {
273 TEST_ARITHMETIC(uint8_t);
274 TEST_ARITHMETIC(unsigned int);
275 TEST_ARITHMETIC(uintptr_t);
276 TEST_ARITHMETIC(uintmax_t);
279 TEST(SafeNumerics, FloatingPointMath) {
280 TEST_ARITHMETIC(float);
281 TEST_ARITHMETIC(double);
284 // Enumerates the five different conversions types we need to test.
285 enum NumericConversionType {
286 SIGN_PRESERVING_VALUE_PRESERVING,
287 SIGN_PRESERVING_NARROW,
288 SIGN_TO_UNSIGN_WIDEN_OR_EQUAL,
289 SIGN_TO_UNSIGN_NARROW,
290 UNSIGN_TO_SIGN_NARROW_OR_EQUAL,
293 // Template covering the different conversion tests.
294 template <typename Dst, typename Src, NumericConversionType conversion>
295 struct TestNumericConversion {};
297 // EXPECT_EQ wrappers providing specific detail on test failures.
298 #define TEST_EXPECTED_RANGE(expected, actual) \
299 EXPECT_EQ(expected, base::internal::DstRangeRelationToSrcRange<Dst>(actual)) \
300 << "Conversion test: " << src << " value " << actual << " to " << dst \
301 << " on line " << line;
303 template <typename Dst, typename Src>
304 struct TestNumericConversion<Dst, Src, SIGN_PRESERVING_VALUE_PRESERVING> {
305 static void Test(const char *dst, const char *src, int line) {
306 typedef numeric_limits<Src> SrcLimits;
307 typedef numeric_limits<Dst> DstLimits;
308 // Integral to floating.
309 static_assert((DstLimits::is_iec559 && SrcLimits::is_integer) ||
310 // Not floating to integral and...
311 (!(DstLimits::is_integer && SrcLimits::is_iec559) &&
312 // Same sign, same numeric, source is narrower or same.
313 ((SrcLimits::is_signed == DstLimits::is_signed &&
314 sizeof(Dst) >= sizeof(Src)) ||
315 // Or signed destination and source is smaller
316 (DstLimits::is_signed && sizeof(Dst) > sizeof(Src)))),
317 "Comparison must be sign preserving and value preserving");
319 const CheckedNumeric<Dst> checked_dst = SrcLimits::max();
321 TEST_EXPECTED_VALIDITY(RANGE_VALID, checked_dst);
322 if (MaxExponent<Dst>::value > MaxExponent<Src>::value) {
323 if (MaxExponent<Dst>::value >= MaxExponent<Src>::value * 2 - 1) {
324 // At least twice larger type.
325 TEST_EXPECTED_VALIDITY(RANGE_VALID, SrcLimits::max() * checked_dst);
327 } else { // Larger, but not at least twice as large.
328 TEST_EXPECTED_VALIDITY(RANGE_OVERFLOW, SrcLimits::max() * checked_dst);
329 TEST_EXPECTED_VALIDITY(RANGE_VALID, checked_dst + 1);
331 } else { // Same width type.
332 TEST_EXPECTED_VALIDITY(RANGE_OVERFLOW, checked_dst + 1);
335 TEST_EXPECTED_RANGE(RANGE_VALID, SrcLimits::max());
336 TEST_EXPECTED_RANGE(RANGE_VALID, static_cast<Src>(1));
337 if (SrcLimits::is_iec559) {
338 TEST_EXPECTED_RANGE(RANGE_VALID, SrcLimits::max() * static_cast<Src>(-1));
339 TEST_EXPECTED_RANGE(RANGE_OVERFLOW, SrcLimits::infinity());
340 TEST_EXPECTED_RANGE(RANGE_UNDERFLOW, SrcLimits::infinity() * -1);
341 TEST_EXPECTED_RANGE(RANGE_INVALID, SrcLimits::quiet_NaN());
342 } else if (numeric_limits<Src>::is_signed) {
343 TEST_EXPECTED_RANGE(RANGE_VALID, static_cast<Src>(-1));
344 TEST_EXPECTED_RANGE(RANGE_VALID, SrcLimits::min());
349 template <typename Dst, typename Src>
350 struct TestNumericConversion<Dst, Src, SIGN_PRESERVING_NARROW> {
351 static void Test(const char *dst, const char *src, int line) {
352 typedef numeric_limits<Src> SrcLimits;
353 typedef numeric_limits<Dst> DstLimits;
354 static_assert(SrcLimits::is_signed == DstLimits::is_signed,
355 "Destination and source sign must be the same");
356 static_assert(sizeof(Dst) < sizeof(Src) ||
357 (DstLimits::is_integer && SrcLimits::is_iec559),
358 "Destination must be narrower than source");
360 const CheckedNumeric<Dst> checked_dst;
361 TEST_EXPECTED_VALIDITY(RANGE_OVERFLOW, checked_dst + SrcLimits::max());
362 TEST_EXPECTED_VALUE(1, checked_dst + static_cast<Src>(1));
363 TEST_EXPECTED_VALIDITY(RANGE_UNDERFLOW, checked_dst - SrcLimits::max());
365 TEST_EXPECTED_RANGE(RANGE_OVERFLOW, SrcLimits::max());
366 TEST_EXPECTED_RANGE(RANGE_VALID, static_cast<Src>(1));
367 if (SrcLimits::is_iec559) {
368 TEST_EXPECTED_RANGE(RANGE_UNDERFLOW, SrcLimits::max() * -1);
369 TEST_EXPECTED_RANGE(RANGE_VALID, static_cast<Src>(-1));
370 TEST_EXPECTED_RANGE(RANGE_OVERFLOW, SrcLimits::infinity());
371 TEST_EXPECTED_RANGE(RANGE_UNDERFLOW, SrcLimits::infinity() * -1);
372 TEST_EXPECTED_RANGE(RANGE_INVALID, SrcLimits::quiet_NaN());
373 } else if (SrcLimits::is_signed) {
374 TEST_EXPECTED_VALUE(-1, checked_dst - static_cast<Src>(1));
375 TEST_EXPECTED_RANGE(RANGE_UNDERFLOW, SrcLimits::min());
376 TEST_EXPECTED_RANGE(RANGE_VALID, static_cast<Src>(-1));
377 } else {
378 TEST_EXPECTED_VALIDITY(RANGE_INVALID, checked_dst - static_cast<Src>(1));
379 TEST_EXPECTED_RANGE(RANGE_VALID, SrcLimits::min());
384 template <typename Dst, typename Src>
385 struct TestNumericConversion<Dst, Src, SIGN_TO_UNSIGN_WIDEN_OR_EQUAL> {
386 static void Test(const char *dst, const char *src, int line) {
387 typedef numeric_limits<Src> SrcLimits;
388 typedef numeric_limits<Dst> DstLimits;
389 static_assert(sizeof(Dst) >= sizeof(Src),
390 "Destination must be equal or wider than source.");
391 static_assert(SrcLimits::is_signed, "Source must be signed");
392 static_assert(!DstLimits::is_signed, "Destination must be unsigned");
394 const CheckedNumeric<Dst> checked_dst;
395 TEST_EXPECTED_VALUE(SrcLimits::max(), checked_dst + SrcLimits::max());
396 TEST_EXPECTED_VALIDITY(RANGE_UNDERFLOW, checked_dst + static_cast<Src>(-1));
397 TEST_EXPECTED_VALIDITY(RANGE_UNDERFLOW, checked_dst + -SrcLimits::max());
399 TEST_EXPECTED_RANGE(RANGE_UNDERFLOW, SrcLimits::min());
400 TEST_EXPECTED_RANGE(RANGE_VALID, SrcLimits::max());
401 TEST_EXPECTED_RANGE(RANGE_VALID, static_cast<Src>(1));
402 TEST_EXPECTED_RANGE(RANGE_UNDERFLOW, static_cast<Src>(-1));
406 template <typename Dst, typename Src>
407 struct TestNumericConversion<Dst, Src, SIGN_TO_UNSIGN_NARROW> {
408 static void Test(const char *dst, const char *src, int line) {
409 typedef numeric_limits<Src> SrcLimits;
410 typedef numeric_limits<Dst> DstLimits;
411 static_assert((DstLimits::is_integer && SrcLimits::is_iec559) ||
412 (sizeof(Dst) < sizeof(Src)),
413 "Destination must be narrower than source.");
414 static_assert(SrcLimits::is_signed, "Source must be signed.");
415 static_assert(!DstLimits::is_signed, "Destination must be unsigned.");
417 const CheckedNumeric<Dst> checked_dst;
418 TEST_EXPECTED_VALUE(1, checked_dst + static_cast<Src>(1));
419 TEST_EXPECTED_VALIDITY(RANGE_OVERFLOW, checked_dst + SrcLimits::max());
420 TEST_EXPECTED_VALIDITY(RANGE_UNDERFLOW, checked_dst + static_cast<Src>(-1));
421 TEST_EXPECTED_VALIDITY(RANGE_UNDERFLOW, checked_dst + -SrcLimits::max());
423 TEST_EXPECTED_RANGE(RANGE_OVERFLOW, SrcLimits::max());
424 TEST_EXPECTED_RANGE(RANGE_VALID, static_cast<Src>(1));
425 TEST_EXPECTED_RANGE(RANGE_UNDERFLOW, static_cast<Src>(-1));
426 if (SrcLimits::is_iec559) {
427 TEST_EXPECTED_RANGE(RANGE_UNDERFLOW, SrcLimits::max() * -1);
428 TEST_EXPECTED_RANGE(RANGE_OVERFLOW, SrcLimits::infinity());
429 TEST_EXPECTED_RANGE(RANGE_UNDERFLOW, SrcLimits::infinity() * -1);
430 TEST_EXPECTED_RANGE(RANGE_INVALID, SrcLimits::quiet_NaN());
431 } else {
432 TEST_EXPECTED_RANGE(RANGE_UNDERFLOW, SrcLimits::min());
437 template <typename Dst, typename Src>
438 struct TestNumericConversion<Dst, Src, UNSIGN_TO_SIGN_NARROW_OR_EQUAL> {
439 static void Test(const char *dst, const char *src, int line) {
440 typedef numeric_limits<Src> SrcLimits;
441 typedef numeric_limits<Dst> DstLimits;
442 static_assert(sizeof(Dst) <= sizeof(Src),
443 "Destination must be narrower or equal to source.");
444 static_assert(!SrcLimits::is_signed, "Source must be unsigned.");
445 static_assert(DstLimits::is_signed, "Destination must be signed.");
447 const CheckedNumeric<Dst> checked_dst;
448 TEST_EXPECTED_VALUE(1, checked_dst + static_cast<Src>(1));
449 TEST_EXPECTED_VALIDITY(RANGE_OVERFLOW, checked_dst + SrcLimits::max());
450 TEST_EXPECTED_VALUE(SrcLimits::min(), checked_dst + SrcLimits::min());
452 TEST_EXPECTED_RANGE(RANGE_VALID, SrcLimits::min());
453 TEST_EXPECTED_RANGE(RANGE_OVERFLOW, SrcLimits::max());
454 TEST_EXPECTED_RANGE(RANGE_VALID, static_cast<Src>(1));
458 // Helper macro to wrap displaying the conversion types and line numbers
459 #define TEST_NUMERIC_CONVERSION(d, s, t) \
460 TestNumericConversion<d, s, t>::Test(#d, #s, __LINE__)
462 TEST(SafeNumerics, IntMinOperations) {
463 TEST_NUMERIC_CONVERSION(int8_t, int8_t, SIGN_PRESERVING_VALUE_PRESERVING);
464 TEST_NUMERIC_CONVERSION(uint8_t, uint8_t, SIGN_PRESERVING_VALUE_PRESERVING);
466 TEST_NUMERIC_CONVERSION(int8_t, int, SIGN_PRESERVING_NARROW);
467 TEST_NUMERIC_CONVERSION(uint8_t, unsigned int, SIGN_PRESERVING_NARROW);
468 TEST_NUMERIC_CONVERSION(int8_t, float, SIGN_PRESERVING_NARROW);
470 TEST_NUMERIC_CONVERSION(uint8_t, int8_t, SIGN_TO_UNSIGN_WIDEN_OR_EQUAL);
472 TEST_NUMERIC_CONVERSION(uint8_t, int, SIGN_TO_UNSIGN_NARROW);
473 TEST_NUMERIC_CONVERSION(uint8_t, intmax_t, SIGN_TO_UNSIGN_NARROW);
474 TEST_NUMERIC_CONVERSION(uint8_t, float, SIGN_TO_UNSIGN_NARROW);
476 TEST_NUMERIC_CONVERSION(int8_t, unsigned int, UNSIGN_TO_SIGN_NARROW_OR_EQUAL);
477 TEST_NUMERIC_CONVERSION(int8_t, uintmax_t, UNSIGN_TO_SIGN_NARROW_OR_EQUAL);
480 TEST(SafeNumerics, IntOperations) {
481 TEST_NUMERIC_CONVERSION(int, int, SIGN_PRESERVING_VALUE_PRESERVING);
482 TEST_NUMERIC_CONVERSION(unsigned int, unsigned int,
483 SIGN_PRESERVING_VALUE_PRESERVING);
484 TEST_NUMERIC_CONVERSION(int, int8_t, SIGN_PRESERVING_VALUE_PRESERVING);
485 TEST_NUMERIC_CONVERSION(unsigned int, uint8_t,
486 SIGN_PRESERVING_VALUE_PRESERVING);
487 TEST_NUMERIC_CONVERSION(int, uint8_t, SIGN_PRESERVING_VALUE_PRESERVING);
489 TEST_NUMERIC_CONVERSION(int, intmax_t, SIGN_PRESERVING_NARROW);
490 TEST_NUMERIC_CONVERSION(unsigned int, uintmax_t, SIGN_PRESERVING_NARROW);
491 TEST_NUMERIC_CONVERSION(int, float, SIGN_PRESERVING_NARROW);
492 TEST_NUMERIC_CONVERSION(int, double, SIGN_PRESERVING_NARROW);
494 TEST_NUMERIC_CONVERSION(unsigned int, int, SIGN_TO_UNSIGN_WIDEN_OR_EQUAL);
495 TEST_NUMERIC_CONVERSION(unsigned int, int8_t, SIGN_TO_UNSIGN_WIDEN_OR_EQUAL);
497 TEST_NUMERIC_CONVERSION(unsigned int, intmax_t, SIGN_TO_UNSIGN_NARROW);
498 TEST_NUMERIC_CONVERSION(unsigned int, float, SIGN_TO_UNSIGN_NARROW);
499 TEST_NUMERIC_CONVERSION(unsigned int, double, SIGN_TO_UNSIGN_NARROW);
501 TEST_NUMERIC_CONVERSION(int, unsigned int, UNSIGN_TO_SIGN_NARROW_OR_EQUAL);
502 TEST_NUMERIC_CONVERSION(int, uintmax_t, UNSIGN_TO_SIGN_NARROW_OR_EQUAL);
505 TEST(SafeNumerics, IntMaxOperations) {
506 TEST_NUMERIC_CONVERSION(intmax_t, intmax_t, SIGN_PRESERVING_VALUE_PRESERVING);
507 TEST_NUMERIC_CONVERSION(uintmax_t, uintmax_t,
508 SIGN_PRESERVING_VALUE_PRESERVING);
509 TEST_NUMERIC_CONVERSION(intmax_t, int, SIGN_PRESERVING_VALUE_PRESERVING);
510 TEST_NUMERIC_CONVERSION(uintmax_t, unsigned int,
511 SIGN_PRESERVING_VALUE_PRESERVING);
512 TEST_NUMERIC_CONVERSION(intmax_t, unsigned int,
513 SIGN_PRESERVING_VALUE_PRESERVING);
514 TEST_NUMERIC_CONVERSION(intmax_t, uint8_t, SIGN_PRESERVING_VALUE_PRESERVING);
516 TEST_NUMERIC_CONVERSION(intmax_t, float, SIGN_PRESERVING_NARROW);
517 TEST_NUMERIC_CONVERSION(intmax_t, double, SIGN_PRESERVING_NARROW);
519 TEST_NUMERIC_CONVERSION(uintmax_t, int, SIGN_TO_UNSIGN_WIDEN_OR_EQUAL);
520 TEST_NUMERIC_CONVERSION(uintmax_t, int8_t, SIGN_TO_UNSIGN_WIDEN_OR_EQUAL);
522 TEST_NUMERIC_CONVERSION(uintmax_t, float, SIGN_TO_UNSIGN_NARROW);
523 TEST_NUMERIC_CONVERSION(uintmax_t, double, SIGN_TO_UNSIGN_NARROW);
525 TEST_NUMERIC_CONVERSION(intmax_t, uintmax_t, UNSIGN_TO_SIGN_NARROW_OR_EQUAL);
528 TEST(SafeNumerics, FloatOperations) {
529 TEST_NUMERIC_CONVERSION(float, intmax_t, SIGN_PRESERVING_VALUE_PRESERVING);
530 TEST_NUMERIC_CONVERSION(float, uintmax_t,
531 SIGN_PRESERVING_VALUE_PRESERVING);
532 TEST_NUMERIC_CONVERSION(float, int, SIGN_PRESERVING_VALUE_PRESERVING);
533 TEST_NUMERIC_CONVERSION(float, unsigned int,
534 SIGN_PRESERVING_VALUE_PRESERVING);
536 TEST_NUMERIC_CONVERSION(float, double, SIGN_PRESERVING_NARROW);
539 TEST(SafeNumerics, DoubleOperations) {
540 TEST_NUMERIC_CONVERSION(double, intmax_t, SIGN_PRESERVING_VALUE_PRESERVING);
541 TEST_NUMERIC_CONVERSION(double, uintmax_t,
542 SIGN_PRESERVING_VALUE_PRESERVING);
543 TEST_NUMERIC_CONVERSION(double, int, SIGN_PRESERVING_VALUE_PRESERVING);
544 TEST_NUMERIC_CONVERSION(double, unsigned int,
545 SIGN_PRESERVING_VALUE_PRESERVING);
548 TEST(SafeNumerics, SizeTOperations) {
549 TEST_NUMERIC_CONVERSION(size_t, int, SIGN_TO_UNSIGN_WIDEN_OR_EQUAL);
550 TEST_NUMERIC_CONVERSION(int, size_t, UNSIGN_TO_SIGN_NARROW_OR_EQUAL);
553 TEST(SafeNumerics, CastTests) {
554 // MSVC catches and warns that we're forcing saturation in these tests.
555 // Since that's intentional, we need to shut this warning off.
556 #if defined(COMPILER_MSVC)
557 #pragma warning(disable : 4756)
558 #endif
560 int small_positive = 1;
561 int small_negative = -1;
562 double double_small = 1.0;
563 double double_large = numeric_limits<double>::max();
564 double double_infinity = numeric_limits<float>::infinity();
565 double double_large_int = numeric_limits<int>::max();
566 double double_small_int = numeric_limits<int>::min();
568 // Just test that the casts compile, since the other tests cover logic.
569 EXPECT_EQ(0, checked_cast<int>(static_cast<size_t>(0)));
570 EXPECT_EQ(0, strict_cast<int>(static_cast<char>(0)));
571 EXPECT_EQ(0, strict_cast<int>(static_cast<unsigned char>(0)));
572 EXPECT_EQ(0U, strict_cast<unsigned>(static_cast<unsigned char>(0)));
573 EXPECT_EQ(1ULL, static_cast<uint64_t>(StrictNumeric<size_t>(1U)));
574 EXPECT_EQ(1ULL, static_cast<uint64_t>(SizeT(1U)));
575 EXPECT_EQ(1U, static_cast<size_t>(StrictNumeric<unsigned>(1U)));
577 EXPECT_TRUE(CheckedNumeric<uint64_t>(StrictNumeric<unsigned>(1U)).IsValid());
578 EXPECT_TRUE(CheckedNumeric<int>(StrictNumeric<unsigned>(1U)).IsValid());
579 EXPECT_FALSE(CheckedNumeric<unsigned>(StrictNumeric<int>(-1)).IsValid());
581 // These casts and coercions will fail to compile:
582 // EXPECT_EQ(0, strict_cast<int>(static_cast<size_t>(0)));
583 // EXPECT_EQ(0, strict_cast<size_t>(static_cast<int>(0)));
584 // EXPECT_EQ(1ULL, StrictNumeric<size_t>(1));
585 // EXPECT_EQ(1, StrictNumeric<size_t>(1U));
587 // Test various saturation corner cases.
588 EXPECT_EQ(saturated_cast<int>(small_negative),
589 static_cast<int>(small_negative));
590 EXPECT_EQ(saturated_cast<int>(small_positive),
591 static_cast<int>(small_positive));
592 EXPECT_EQ(saturated_cast<unsigned>(small_negative),
593 static_cast<unsigned>(0));
594 EXPECT_EQ(saturated_cast<int>(double_small),
595 static_cast<int>(double_small));
596 EXPECT_EQ(saturated_cast<int>(double_large), numeric_limits<int>::max());
597 EXPECT_EQ(saturated_cast<float>(double_large), double_infinity);
598 EXPECT_EQ(saturated_cast<float>(-double_large), -double_infinity);
599 EXPECT_EQ(numeric_limits<int>::min(), saturated_cast<int>(double_small_int));
600 EXPECT_EQ(numeric_limits<int>::max(), saturated_cast<int>(double_large_int));