[llvm] [cmake] Add possibility to use ChooseMSVCCRT.cmake when include LLVM library
[llvm-core.git] / unittests / Support / ScaledNumberTest.cpp
blob3fa63b7bf3c72b84d069de0adb2b393b56c0a23b
1 //===- llvm/unittest/Support/ScaledNumberTest.cpp - ScaledPair tests -----==//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
9 #include "llvm/Support/ScaledNumber.h"
10 #include "llvm/Support/DataTypes.h"
11 #include "gtest/gtest.h"
13 using namespace llvm;
14 using namespace llvm::ScaledNumbers;
16 namespace {
18 template <class UIntT> struct ScaledPair {
19 UIntT D;
20 int S;
21 ScaledPair(const std::pair<UIntT, int16_t> &F) : D(F.first), S(F.second) {}
22 ScaledPair(UIntT D, int S) : D(D), S(S) {}
24 bool operator==(const ScaledPair<UIntT> &X) const {
25 return D == X.D && S == X.S;
28 template <class UIntT>
29 bool operator==(const std::pair<UIntT, int16_t> &L,
30 const ScaledPair<UIntT> &R) {
31 return ScaledPair<UIntT>(L) == R;
33 template <class UIntT>
34 void PrintTo(const ScaledPair<UIntT> &F, ::std::ostream *os) {
35 *os << F.D << "*2^" << F.S;
38 typedef ScaledPair<uint32_t> SP32;
39 typedef ScaledPair<uint64_t> SP64;
41 TEST(ScaledNumberHelpersTest, getRounded) {
42 EXPECT_EQ(getRounded32(0, 0, false), SP32(0, 0));
43 EXPECT_EQ(getRounded32(0, 0, true), SP32(1, 0));
44 EXPECT_EQ(getRounded32(20, 21, true), SP32(21, 21));
45 EXPECT_EQ(getRounded32(UINT32_MAX, 0, false), SP32(UINT32_MAX, 0));
46 EXPECT_EQ(getRounded32(UINT32_MAX, 0, true), SP32(1 << 31, 1));
48 EXPECT_EQ(getRounded64(0, 0, false), SP64(0, 0));
49 EXPECT_EQ(getRounded64(0, 0, true), SP64(1, 0));
50 EXPECT_EQ(getRounded64(20, 21, true), SP64(21, 21));
51 EXPECT_EQ(getRounded64(UINT32_MAX, 0, false), SP64(UINT32_MAX, 0));
52 EXPECT_EQ(getRounded64(UINT32_MAX, 0, true), SP64(UINT64_C(1) << 32, 0));
53 EXPECT_EQ(getRounded64(UINT64_MAX, 0, false), SP64(UINT64_MAX, 0));
54 EXPECT_EQ(getRounded64(UINT64_MAX, 0, true), SP64(UINT64_C(1) << 63, 1));
57 TEST(ScaledNumberHelpersTest, getAdjusted) {
58 const uint64_t Max32In64 = UINT32_MAX;
59 EXPECT_EQ(getAdjusted32(0), SP32(0, 0));
60 EXPECT_EQ(getAdjusted32(0, 5), SP32(0, 5));
61 EXPECT_EQ(getAdjusted32(UINT32_MAX), SP32(UINT32_MAX, 0));
62 EXPECT_EQ(getAdjusted32(Max32In64 << 1), SP32(UINT32_MAX, 1));
63 EXPECT_EQ(getAdjusted32(Max32In64 << 1, 1), SP32(UINT32_MAX, 2));
64 EXPECT_EQ(getAdjusted32(Max32In64 << 31), SP32(UINT32_MAX, 31));
65 EXPECT_EQ(getAdjusted32(Max32In64 << 32), SP32(UINT32_MAX, 32));
66 EXPECT_EQ(getAdjusted32(Max32In64 + 1), SP32(1u << 31, 1));
67 EXPECT_EQ(getAdjusted32(UINT64_MAX), SP32(1u << 31, 33));
69 EXPECT_EQ(getAdjusted64(0), SP64(0, 0));
70 EXPECT_EQ(getAdjusted64(0, 5), SP64(0, 5));
71 EXPECT_EQ(getAdjusted64(UINT32_MAX), SP64(UINT32_MAX, 0));
72 EXPECT_EQ(getAdjusted64(Max32In64 << 1), SP64(Max32In64 << 1, 0));
73 EXPECT_EQ(getAdjusted64(Max32In64 << 1, 1), SP64(Max32In64 << 1, 1));
74 EXPECT_EQ(getAdjusted64(Max32In64 << 31), SP64(Max32In64 << 31, 0));
75 EXPECT_EQ(getAdjusted64(Max32In64 << 32), SP64(Max32In64 << 32, 0));
76 EXPECT_EQ(getAdjusted64(Max32In64 + 1), SP64(Max32In64 + 1, 0));
77 EXPECT_EQ(getAdjusted64(UINT64_MAX), SP64(UINT64_MAX, 0));
80 TEST(ScaledNumberHelpersTest, getProduct) {
81 // Zero.
82 EXPECT_EQ(SP32(0, 0), getProduct32(0, 0));
83 EXPECT_EQ(SP32(0, 0), getProduct32(0, 1));
84 EXPECT_EQ(SP32(0, 0), getProduct32(0, 33));
86 // Basic.
87 EXPECT_EQ(SP32(6, 0), getProduct32(2, 3));
88 EXPECT_EQ(SP32(UINT16_MAX / 3 * UINT16_MAX / 5 * 2, 0),
89 getProduct32(UINT16_MAX / 3, UINT16_MAX / 5 * 2));
91 // Overflow, no loss of precision.
92 // ==> 0xf00010 * 0x1001
93 // ==> 0xf00f00000 + 0x10010
94 // ==> 0xf00f10010
95 // ==> 0xf00f1001 * 2^4
96 EXPECT_EQ(SP32(0xf00f1001, 4), getProduct32(0xf00010, 0x1001));
98 // Overflow, loss of precision, rounds down.
99 // ==> 0xf000070 * 0x1001
100 // ==> 0xf00f000000 + 0x70070
101 // ==> 0xf00f070070
102 // ==> 0xf00f0700 * 2^8
103 EXPECT_EQ(SP32(0xf00f0700, 8), getProduct32(0xf000070, 0x1001));
105 // Overflow, loss of precision, rounds up.
106 // ==> 0xf000080 * 0x1001
107 // ==> 0xf00f000000 + 0x80080
108 // ==> 0xf00f080080
109 // ==> 0xf00f0801 * 2^8
110 EXPECT_EQ(SP32(0xf00f0801, 8), getProduct32(0xf000080, 0x1001));
112 // Reverse operand order.
113 EXPECT_EQ(SP32(0, 0), getProduct32(1, 0));
114 EXPECT_EQ(SP32(0, 0), getProduct32(33, 0));
115 EXPECT_EQ(SP32(6, 0), getProduct32(3, 2));
116 EXPECT_EQ(SP32(UINT16_MAX / 3 * UINT16_MAX / 5 * 2, 0),
117 getProduct32(UINT16_MAX / 5 * 2, UINT16_MAX / 3));
118 EXPECT_EQ(SP32(0xf00f1001, 4), getProduct32(0x1001, 0xf00010));
119 EXPECT_EQ(SP32(0xf00f0700, 8), getProduct32(0x1001, 0xf000070));
120 EXPECT_EQ(SP32(0xf00f0801, 8), getProduct32(0x1001, 0xf000080));
122 // Round to overflow.
123 EXPECT_EQ(SP64(UINT64_C(1) << 63, 64),
124 getProduct64(UINT64_C(10376293541461622786),
125 UINT64_C(16397105843297379211)));
127 // Big number with rounding.
128 EXPECT_EQ(SP64(UINT64_C(9223372036854775810), 64),
129 getProduct64(UINT64_C(18446744073709551556),
130 UINT64_C(9223372036854775840)));
133 TEST(ScaledNumberHelpersTest, getQuotient) {
134 // Zero.
135 EXPECT_EQ(SP32(0, 0), getQuotient32(0, 0));
136 EXPECT_EQ(SP32(0, 0), getQuotient32(0, 1));
137 EXPECT_EQ(SP32(0, 0), getQuotient32(0, 73));
138 EXPECT_EQ(SP32(UINT32_MAX, MaxScale), getQuotient32(1, 0));
139 EXPECT_EQ(SP32(UINT32_MAX, MaxScale), getQuotient32(6, 0));
141 // Powers of two.
142 EXPECT_EQ(SP32(1u << 31, -31), getQuotient32(1, 1));
143 EXPECT_EQ(SP32(1u << 31, -30), getQuotient32(2, 1));
144 EXPECT_EQ(SP32(1u << 31, -33), getQuotient32(4, 16));
145 EXPECT_EQ(SP32(7u << 29, -29), getQuotient32(7, 1));
146 EXPECT_EQ(SP32(7u << 29, -30), getQuotient32(7, 2));
147 EXPECT_EQ(SP32(7u << 29, -33), getQuotient32(7, 16));
149 // Divide evenly.
150 EXPECT_EQ(SP32(3u << 30, -30), getQuotient32(9, 3));
151 EXPECT_EQ(SP32(9u << 28, -28), getQuotient32(63, 7));
153 // Divide unevenly.
154 EXPECT_EQ(SP32(0xaaaaaaab, -33), getQuotient32(1, 3));
155 EXPECT_EQ(SP32(0xd5555555, -31), getQuotient32(5, 3));
157 // 64-bit division is hard to test, since divide64 doesn't canonicalize its
158 // output. However, this is the algorithm the implementation uses:
160 // - Shift divisor right.
161 // - If we have 1 (power of 2), return early -- not canonicalized.
162 // - Shift dividend left.
163 // - 64-bit integer divide.
164 // - If there's a remainder, continue with long division.
166 // TODO: require less knowledge about the implementation in the test.
168 // Zero.
169 EXPECT_EQ(SP64(0, 0), getQuotient64(0, 0));
170 EXPECT_EQ(SP64(0, 0), getQuotient64(0, 1));
171 EXPECT_EQ(SP64(0, 0), getQuotient64(0, 73));
172 EXPECT_EQ(SP64(UINT64_MAX, MaxScale), getQuotient64(1, 0));
173 EXPECT_EQ(SP64(UINT64_MAX, MaxScale), getQuotient64(6, 0));
175 // Powers of two.
176 EXPECT_EQ(SP64(1, 0), getQuotient64(1, 1));
177 EXPECT_EQ(SP64(2, 0), getQuotient64(2, 1));
178 EXPECT_EQ(SP64(4, -4), getQuotient64(4, 16));
179 EXPECT_EQ(SP64(7, 0), getQuotient64(7, 1));
180 EXPECT_EQ(SP64(7, -1), getQuotient64(7, 2));
181 EXPECT_EQ(SP64(7, -4), getQuotient64(7, 16));
183 // Divide evenly.
184 EXPECT_EQ(SP64(UINT64_C(3) << 60, -60), getQuotient64(9, 3));
185 EXPECT_EQ(SP64(UINT64_C(9) << 58, -58), getQuotient64(63, 7));
187 // Divide unevenly.
188 EXPECT_EQ(SP64(0xaaaaaaaaaaaaaaab, -65), getQuotient64(1, 3));
189 EXPECT_EQ(SP64(0xd555555555555555, -63), getQuotient64(5, 3));
192 TEST(ScaledNumberHelpersTest, getLg) {
193 EXPECT_EQ(0, getLg(UINT32_C(1), 0));
194 EXPECT_EQ(1, getLg(UINT32_C(1), 1));
195 EXPECT_EQ(1, getLg(UINT32_C(2), 0));
196 EXPECT_EQ(3, getLg(UINT32_C(1), 3));
197 EXPECT_EQ(3, getLg(UINT32_C(7), 0));
198 EXPECT_EQ(3, getLg(UINT32_C(8), 0));
199 EXPECT_EQ(3, getLg(UINT32_C(9), 0));
200 EXPECT_EQ(3, getLg(UINT32_C(64), -3));
201 EXPECT_EQ(31, getLg((UINT32_MAX >> 1) + 2, 0));
202 EXPECT_EQ(32, getLg(UINT32_MAX, 0));
203 EXPECT_EQ(-1, getLg(UINT32_C(1), -1));
204 EXPECT_EQ(-1, getLg(UINT32_C(2), -2));
205 EXPECT_EQ(INT32_MIN, getLg(UINT32_C(0), -1));
206 EXPECT_EQ(INT32_MIN, getLg(UINT32_C(0), 0));
207 EXPECT_EQ(INT32_MIN, getLg(UINT32_C(0), 1));
209 EXPECT_EQ(0, getLg(UINT64_C(1), 0));
210 EXPECT_EQ(1, getLg(UINT64_C(1), 1));
211 EXPECT_EQ(1, getLg(UINT64_C(2), 0));
212 EXPECT_EQ(3, getLg(UINT64_C(1), 3));
213 EXPECT_EQ(3, getLg(UINT64_C(7), 0));
214 EXPECT_EQ(3, getLg(UINT64_C(8), 0));
215 EXPECT_EQ(3, getLg(UINT64_C(9), 0));
216 EXPECT_EQ(3, getLg(UINT64_C(64), -3));
217 EXPECT_EQ(63, getLg((UINT64_MAX >> 1) + 2, 0));
218 EXPECT_EQ(64, getLg(UINT64_MAX, 0));
219 EXPECT_EQ(-1, getLg(UINT64_C(1), -1));
220 EXPECT_EQ(-1, getLg(UINT64_C(2), -2));
221 EXPECT_EQ(INT32_MIN, getLg(UINT64_C(0), -1));
222 EXPECT_EQ(INT32_MIN, getLg(UINT64_C(0), 0));
223 EXPECT_EQ(INT32_MIN, getLg(UINT64_C(0), 1));
226 TEST(ScaledNumberHelpersTest, getLgFloor) {
227 EXPECT_EQ(0, getLgFloor(UINT32_C(1), 0));
228 EXPECT_EQ(1, getLgFloor(UINT32_C(1), 1));
229 EXPECT_EQ(1, getLgFloor(UINT32_C(2), 0));
230 EXPECT_EQ(2, getLgFloor(UINT32_C(7), 0));
231 EXPECT_EQ(3, getLgFloor(UINT32_C(1), 3));
232 EXPECT_EQ(3, getLgFloor(UINT32_C(8), 0));
233 EXPECT_EQ(3, getLgFloor(UINT32_C(9), 0));
234 EXPECT_EQ(3, getLgFloor(UINT32_C(64), -3));
235 EXPECT_EQ(31, getLgFloor((UINT32_MAX >> 1) + 2, 0));
236 EXPECT_EQ(31, getLgFloor(UINT32_MAX, 0));
237 EXPECT_EQ(INT32_MIN, getLgFloor(UINT32_C(0), -1));
238 EXPECT_EQ(INT32_MIN, getLgFloor(UINT32_C(0), 0));
239 EXPECT_EQ(INT32_MIN, getLgFloor(UINT32_C(0), 1));
241 EXPECT_EQ(0, getLgFloor(UINT64_C(1), 0));
242 EXPECT_EQ(1, getLgFloor(UINT64_C(1), 1));
243 EXPECT_EQ(1, getLgFloor(UINT64_C(2), 0));
244 EXPECT_EQ(2, getLgFloor(UINT64_C(7), 0));
245 EXPECT_EQ(3, getLgFloor(UINT64_C(1), 3));
246 EXPECT_EQ(3, getLgFloor(UINT64_C(8), 0));
247 EXPECT_EQ(3, getLgFloor(UINT64_C(9), 0));
248 EXPECT_EQ(3, getLgFloor(UINT64_C(64), -3));
249 EXPECT_EQ(63, getLgFloor((UINT64_MAX >> 1) + 2, 0));
250 EXPECT_EQ(63, getLgFloor(UINT64_MAX, 0));
251 EXPECT_EQ(INT32_MIN, getLgFloor(UINT64_C(0), -1));
252 EXPECT_EQ(INT32_MIN, getLgFloor(UINT64_C(0), 0));
253 EXPECT_EQ(INT32_MIN, getLgFloor(UINT64_C(0), 1));
256 TEST(ScaledNumberHelpersTest, getLgCeiling) {
257 EXPECT_EQ(0, getLgCeiling(UINT32_C(1), 0));
258 EXPECT_EQ(1, getLgCeiling(UINT32_C(1), 1));
259 EXPECT_EQ(1, getLgCeiling(UINT32_C(2), 0));
260 EXPECT_EQ(3, getLgCeiling(UINT32_C(1), 3));
261 EXPECT_EQ(3, getLgCeiling(UINT32_C(7), 0));
262 EXPECT_EQ(3, getLgCeiling(UINT32_C(8), 0));
263 EXPECT_EQ(3, getLgCeiling(UINT32_C(64), -3));
264 EXPECT_EQ(4, getLgCeiling(UINT32_C(9), 0));
265 EXPECT_EQ(32, getLgCeiling(UINT32_MAX, 0));
266 EXPECT_EQ(32, getLgCeiling((UINT32_MAX >> 1) + 2, 0));
267 EXPECT_EQ(INT32_MIN, getLgCeiling(UINT32_C(0), -1));
268 EXPECT_EQ(INT32_MIN, getLgCeiling(UINT32_C(0), 0));
269 EXPECT_EQ(INT32_MIN, getLgCeiling(UINT32_C(0), 1));
271 EXPECT_EQ(0, getLgCeiling(UINT64_C(1), 0));
272 EXPECT_EQ(1, getLgCeiling(UINT64_C(1), 1));
273 EXPECT_EQ(1, getLgCeiling(UINT64_C(2), 0));
274 EXPECT_EQ(3, getLgCeiling(UINT64_C(1), 3));
275 EXPECT_EQ(3, getLgCeiling(UINT64_C(7), 0));
276 EXPECT_EQ(3, getLgCeiling(UINT64_C(8), 0));
277 EXPECT_EQ(3, getLgCeiling(UINT64_C(64), -3));
278 EXPECT_EQ(4, getLgCeiling(UINT64_C(9), 0));
279 EXPECT_EQ(64, getLgCeiling((UINT64_MAX >> 1) + 2, 0));
280 EXPECT_EQ(64, getLgCeiling(UINT64_MAX, 0));
281 EXPECT_EQ(INT32_MIN, getLgCeiling(UINT64_C(0), -1));
282 EXPECT_EQ(INT32_MIN, getLgCeiling(UINT64_C(0), 0));
283 EXPECT_EQ(INT32_MIN, getLgCeiling(UINT64_C(0), 1));
286 TEST(ScaledNumberHelpersTest, compare) {
287 EXPECT_EQ(0, compare(UINT32_C(0), 0, UINT32_C(0), 1));
288 EXPECT_EQ(0, compare(UINT32_C(0), 0, UINT32_C(0), -10));
289 EXPECT_EQ(0, compare(UINT32_C(0), 0, UINT32_C(0), 20));
290 EXPECT_EQ(0, compare(UINT32_C(8), 0, UINT32_C(64), -3));
291 EXPECT_EQ(0, compare(UINT32_C(8), 0, UINT32_C(32), -2));
292 EXPECT_EQ(0, compare(UINT32_C(8), 0, UINT32_C(16), -1));
293 EXPECT_EQ(0, compare(UINT32_C(8), 0, UINT32_C(8), 0));
294 EXPECT_EQ(0, compare(UINT32_C(8), 0, UINT32_C(4), 1));
295 EXPECT_EQ(0, compare(UINT32_C(8), 0, UINT32_C(2), 2));
296 EXPECT_EQ(0, compare(UINT32_C(8), 0, UINT32_C(1), 3));
297 EXPECT_EQ(-1, compare(UINT32_C(0), 0, UINT32_C(1), 3));
298 EXPECT_EQ(-1, compare(UINT32_C(7), 0, UINT32_C(1), 3));
299 EXPECT_EQ(-1, compare(UINT32_C(7), 0, UINT32_C(64), -3));
300 EXPECT_EQ(1, compare(UINT32_C(9), 0, UINT32_C(1), 3));
301 EXPECT_EQ(1, compare(UINT32_C(9), 0, UINT32_C(64), -3));
302 EXPECT_EQ(1, compare(UINT32_C(9), 0, UINT32_C(0), 0));
304 EXPECT_EQ(0, compare(UINT64_C(0), 0, UINT64_C(0), 1));
305 EXPECT_EQ(0, compare(UINT64_C(0), 0, UINT64_C(0), -10));
306 EXPECT_EQ(0, compare(UINT64_C(0), 0, UINT64_C(0), 20));
307 EXPECT_EQ(0, compare(UINT64_C(8), 0, UINT64_C(64), -3));
308 EXPECT_EQ(0, compare(UINT64_C(8), 0, UINT64_C(32), -2));
309 EXPECT_EQ(0, compare(UINT64_C(8), 0, UINT64_C(16), -1));
310 EXPECT_EQ(0, compare(UINT64_C(8), 0, UINT64_C(8), 0));
311 EXPECT_EQ(0, compare(UINT64_C(8), 0, UINT64_C(4), 1));
312 EXPECT_EQ(0, compare(UINT64_C(8), 0, UINT64_C(2), 2));
313 EXPECT_EQ(0, compare(UINT64_C(8), 0, UINT64_C(1), 3));
314 EXPECT_EQ(-1, compare(UINT64_C(0), 0, UINT64_C(1), 3));
315 EXPECT_EQ(-1, compare(UINT64_C(7), 0, UINT64_C(1), 3));
316 EXPECT_EQ(-1, compare(UINT64_C(7), 0, UINT64_C(64), -3));
317 EXPECT_EQ(1, compare(UINT64_C(9), 0, UINT64_C(1), 3));
318 EXPECT_EQ(1, compare(UINT64_C(9), 0, UINT64_C(64), -3));
319 EXPECT_EQ(1, compare(UINT64_C(9), 0, UINT64_C(0), 0));
320 EXPECT_EQ(-1, compare(UINT64_MAX, 0, UINT64_C(1), 64));
323 TEST(ScaledNumberHelpersTest, matchScales) {
324 #define MATCH_SCALES(T, LDIn, LSIn, RDIn, RSIn, LDOut, RDOut, SOut) \
325 do { \
326 T LDx = LDIn; \
327 T RDx = RDIn; \
328 T LDy = LDOut; \
329 T RDy = RDOut; \
330 int16_t LSx = LSIn; \
331 int16_t RSx = RSIn; \
332 int16_t Sy = SOut; \
334 EXPECT_EQ(SOut, matchScales(LDx, LSx, RDx, RSx)); \
335 EXPECT_EQ(LDy, LDx); \
336 EXPECT_EQ(RDy, RDx); \
337 if (LDy) { \
338 EXPECT_EQ(Sy, LSx); \
340 if (RDy) { \
341 EXPECT_EQ(Sy, RSx); \
343 } while (false)
345 MATCH_SCALES(uint32_t, 0, 0, 0, 0, 0, 0, 0);
346 MATCH_SCALES(uint32_t, 0, 50, 7, 1, 0, 7, 1);
347 MATCH_SCALES(uint32_t, UINT32_C(1) << 31, 1, 9, 0, UINT32_C(1) << 31, 4, 1);
348 MATCH_SCALES(uint32_t, UINT32_C(1) << 31, 2, 9, 0, UINT32_C(1) << 31, 2, 2);
349 MATCH_SCALES(uint32_t, UINT32_C(1) << 31, 3, 9, 0, UINT32_C(1) << 31, 1, 3);
350 MATCH_SCALES(uint32_t, UINT32_C(1) << 31, 4, 9, 0, UINT32_C(1) << 31, 0, 4);
351 MATCH_SCALES(uint32_t, UINT32_C(1) << 30, 4, 9, 0, UINT32_C(1) << 31, 1, 3);
352 MATCH_SCALES(uint32_t, UINT32_C(1) << 29, 4, 9, 0, UINT32_C(1) << 31, 2, 2);
353 MATCH_SCALES(uint32_t, UINT32_C(1) << 28, 4, 9, 0, UINT32_C(1) << 31, 4, 1);
354 MATCH_SCALES(uint32_t, UINT32_C(1) << 27, 4, 9, 0, UINT32_C(1) << 31, 9, 0);
355 MATCH_SCALES(uint32_t, 7, 1, 0, 50, 7, 0, 1);
356 MATCH_SCALES(uint32_t, 9, 0, UINT32_C(1) << 31, 1, 4, UINT32_C(1) << 31, 1);
357 MATCH_SCALES(uint32_t, 9, 0, UINT32_C(1) << 31, 2, 2, UINT32_C(1) << 31, 2);
358 MATCH_SCALES(uint32_t, 9, 0, UINT32_C(1) << 31, 3, 1, UINT32_C(1) << 31, 3);
359 MATCH_SCALES(uint32_t, 9, 0, UINT32_C(1) << 31, 4, 0, UINT32_C(1) << 31, 4);
360 MATCH_SCALES(uint32_t, 9, 0, UINT32_C(1) << 30, 4, 1, UINT32_C(1) << 31, 3);
361 MATCH_SCALES(uint32_t, 9, 0, UINT32_C(1) << 29, 4, 2, UINT32_C(1) << 31, 2);
362 MATCH_SCALES(uint32_t, 9, 0, UINT32_C(1) << 28, 4, 4, UINT32_C(1) << 31, 1);
363 MATCH_SCALES(uint32_t, 9, 0, UINT32_C(1) << 27, 4, 9, UINT32_C(1) << 31, 0);
365 MATCH_SCALES(uint64_t, 0, 0, 0, 0, 0, 0, 0);
366 MATCH_SCALES(uint64_t, 0, 100, 7, 1, 0, 7, 1);
367 MATCH_SCALES(uint64_t, UINT64_C(1) << 63, 1, 9, 0, UINT64_C(1) << 63, 4, 1);
368 MATCH_SCALES(uint64_t, UINT64_C(1) << 63, 2, 9, 0, UINT64_C(1) << 63, 2, 2);
369 MATCH_SCALES(uint64_t, UINT64_C(1) << 63, 3, 9, 0, UINT64_C(1) << 63, 1, 3);
370 MATCH_SCALES(uint64_t, UINT64_C(1) << 63, 4, 9, 0, UINT64_C(1) << 63, 0, 4);
371 MATCH_SCALES(uint64_t, UINT64_C(1) << 62, 4, 9, 0, UINT64_C(1) << 63, 1, 3);
372 MATCH_SCALES(uint64_t, UINT64_C(1) << 61, 4, 9, 0, UINT64_C(1) << 63, 2, 2);
373 MATCH_SCALES(uint64_t, UINT64_C(1) << 60, 4, 9, 0, UINT64_C(1) << 63, 4, 1);
374 MATCH_SCALES(uint64_t, UINT64_C(1) << 59, 4, 9, 0, UINT64_C(1) << 63, 9, 0);
375 MATCH_SCALES(uint64_t, 7, 1, 0, 100, 7, 0, 1);
376 MATCH_SCALES(uint64_t, 9, 0, UINT64_C(1) << 63, 1, 4, UINT64_C(1) << 63, 1);
377 MATCH_SCALES(uint64_t, 9, 0, UINT64_C(1) << 63, 2, 2, UINT64_C(1) << 63, 2);
378 MATCH_SCALES(uint64_t, 9, 0, UINT64_C(1) << 63, 3, 1, UINT64_C(1) << 63, 3);
379 MATCH_SCALES(uint64_t, 9, 0, UINT64_C(1) << 63, 4, 0, UINT64_C(1) << 63, 4);
380 MATCH_SCALES(uint64_t, 9, 0, UINT64_C(1) << 62, 4, 1, UINT64_C(1) << 63, 3);
381 MATCH_SCALES(uint64_t, 9, 0, UINT64_C(1) << 61, 4, 2, UINT64_C(1) << 63, 2);
382 MATCH_SCALES(uint64_t, 9, 0, UINT64_C(1) << 60, 4, 4, UINT64_C(1) << 63, 1);
383 MATCH_SCALES(uint64_t, 9, 0, UINT64_C(1) << 59, 4, 9, UINT64_C(1) << 63, 0);
386 TEST(ScaledNumberHelpersTest, getSum) {
387 // Zero.
388 EXPECT_EQ(SP32(1, 0), getSum32(0, 0, 1, 0));
389 EXPECT_EQ(SP32(8, -3), getSum32(0, 0, 8, -3));
390 EXPECT_EQ(SP32(UINT32_MAX, 0), getSum32(0, 0, UINT32_MAX, 0));
392 // Basic.
393 EXPECT_EQ(SP32(2, 0), getSum32(1, 0, 1, 0));
394 EXPECT_EQ(SP32(3, 0), getSum32(1, 0, 2, 0));
395 EXPECT_EQ(SP32(67, 0), getSum32(7, 0, 60, 0));
397 // Different scales.
398 EXPECT_EQ(SP32(3, 0), getSum32(1, 0, 1, 1));
399 EXPECT_EQ(SP32(4, 0), getSum32(2, 0, 1, 1));
401 // Loss of precision.
402 EXPECT_EQ(SP32(UINT32_C(1) << 31, 1), getSum32(1, 32, 1, 0));
403 EXPECT_EQ(SP32(UINT32_C(1) << 31, -31), getSum32(1, -32, 1, 0));
405 // Not quite loss of precision.
406 EXPECT_EQ(SP32((UINT32_C(1) << 31) + 1, 1), getSum32(1, 32, 1, 1));
407 EXPECT_EQ(SP32((UINT32_C(1) << 31) + 1, -32), getSum32(1, -32, 1, -1));
409 // Overflow.
410 EXPECT_EQ(SP32(UINT32_C(1) << 31, 1), getSum32(1, 0, UINT32_MAX, 0));
412 // Reverse operand order.
413 EXPECT_EQ(SP32(1, 0), getSum32(1, 0, 0, 0));
414 EXPECT_EQ(SP32(8, -3), getSum32(8, -3, 0, 0));
415 EXPECT_EQ(SP32(UINT32_MAX, 0), getSum32(UINT32_MAX, 0, 0, 0));
416 EXPECT_EQ(SP32(3, 0), getSum32(2, 0, 1, 0));
417 EXPECT_EQ(SP32(67, 0), getSum32(60, 0, 7, 0));
418 EXPECT_EQ(SP32(3, 0), getSum32(1, 1, 1, 0));
419 EXPECT_EQ(SP32(4, 0), getSum32(1, 1, 2, 0));
420 EXPECT_EQ(SP32(UINT32_C(1) << 31, 1), getSum32(1, 0, 1, 32));
421 EXPECT_EQ(SP32(UINT32_C(1) << 31, -31), getSum32(1, 0, 1, -32));
422 EXPECT_EQ(SP32((UINT32_C(1) << 31) + 1, 1), getSum32(1, 1, 1, 32));
423 EXPECT_EQ(SP32((UINT32_C(1) << 31) + 1, -32), getSum32(1, -1, 1, -32));
424 EXPECT_EQ(SP32(UINT32_C(1) << 31, 1), getSum32(UINT32_MAX, 0, 1, 0));
426 // Zero.
427 EXPECT_EQ(SP64(1, 0), getSum64(0, 0, 1, 0));
428 EXPECT_EQ(SP64(8, -3), getSum64(0, 0, 8, -3));
429 EXPECT_EQ(SP64(UINT64_MAX, 0), getSum64(0, 0, UINT64_MAX, 0));
431 // Basic.
432 EXPECT_EQ(SP64(2, 0), getSum64(1, 0, 1, 0));
433 EXPECT_EQ(SP64(3, 0), getSum64(1, 0, 2, 0));
434 EXPECT_EQ(SP64(67, 0), getSum64(7, 0, 60, 0));
436 // Different scales.
437 EXPECT_EQ(SP64(3, 0), getSum64(1, 0, 1, 1));
438 EXPECT_EQ(SP64(4, 0), getSum64(2, 0, 1, 1));
440 // Loss of precision.
441 EXPECT_EQ(SP64(UINT64_C(1) << 63, 1), getSum64(1, 64, 1, 0));
442 EXPECT_EQ(SP64(UINT64_C(1) << 63, -63), getSum64(1, -64, 1, 0));
444 // Not quite loss of precision.
445 EXPECT_EQ(SP64((UINT64_C(1) << 63) + 1, 1), getSum64(1, 64, 1, 1));
446 EXPECT_EQ(SP64((UINT64_C(1) << 63) + 1, -64), getSum64(1, -64, 1, -1));
448 // Overflow.
449 EXPECT_EQ(SP64(UINT64_C(1) << 63, 1), getSum64(1, 0, UINT64_MAX, 0));
451 // Reverse operand order.
452 EXPECT_EQ(SP64(1, 0), getSum64(1, 0, 0, 0));
453 EXPECT_EQ(SP64(8, -3), getSum64(8, -3, 0, 0));
454 EXPECT_EQ(SP64(UINT64_MAX, 0), getSum64(UINT64_MAX, 0, 0, 0));
455 EXPECT_EQ(SP64(3, 0), getSum64(2, 0, 1, 0));
456 EXPECT_EQ(SP64(67, 0), getSum64(60, 0, 7, 0));
457 EXPECT_EQ(SP64(3, 0), getSum64(1, 1, 1, 0));
458 EXPECT_EQ(SP64(4, 0), getSum64(1, 1, 2, 0));
459 EXPECT_EQ(SP64(UINT64_C(1) << 63, 1), getSum64(1, 0, 1, 64));
460 EXPECT_EQ(SP64(UINT64_C(1) << 63, -63), getSum64(1, 0, 1, -64));
461 EXPECT_EQ(SP64((UINT64_C(1) << 63) + 1, 1), getSum64(1, 1, 1, 64));
462 EXPECT_EQ(SP64((UINT64_C(1) << 63) + 1, -64), getSum64(1, -1, 1, -64));
463 EXPECT_EQ(SP64(UINT64_C(1) << 63, 1), getSum64(UINT64_MAX, 0, 1, 0));
466 TEST(ScaledNumberHelpersTest, getDifference) {
467 // Basic.
468 EXPECT_EQ(SP32(0, 0), getDifference32(1, 0, 1, 0));
469 EXPECT_EQ(SP32(1, 0), getDifference32(2, 0, 1, 0));
470 EXPECT_EQ(SP32(53, 0), getDifference32(60, 0, 7, 0));
472 // Equals "0", different scales.
473 EXPECT_EQ(SP32(0, 0), getDifference32(2, 0, 1, 1));
475 // Subtract "0".
476 EXPECT_EQ(SP32(1, 0), getDifference32(1, 0, 0, 0));
477 EXPECT_EQ(SP32(8, -3), getDifference32(8, -3, 0, 0));
478 EXPECT_EQ(SP32(UINT32_MAX, 0), getDifference32(UINT32_MAX, 0, 0, 0));
480 // Loss of precision.
481 EXPECT_EQ(SP32((UINT32_C(1) << 31) + 1, 1),
482 getDifference32((UINT32_C(1) << 31) + 1, 1, 1, 0));
483 EXPECT_EQ(SP32((UINT32_C(1) << 31) + 1, -31),
484 getDifference32((UINT32_C(1) << 31) + 1, -31, 1, -32));
486 // Not quite loss of precision.
487 EXPECT_EQ(SP32(UINT32_MAX, 0), getDifference32(1, 32, 1, 0));
488 EXPECT_EQ(SP32(UINT32_MAX, -32), getDifference32(1, 0, 1, -32));
490 // Saturate to "0".
491 EXPECT_EQ(SP32(0, 0), getDifference32(0, 0, 1, 0));
492 EXPECT_EQ(SP32(0, 0), getDifference32(0, 0, 8, -3));
493 EXPECT_EQ(SP32(0, 0), getDifference32(0, 0, UINT32_MAX, 0));
494 EXPECT_EQ(SP32(0, 0), getDifference32(7, 0, 60, 0));
495 EXPECT_EQ(SP32(0, 0), getDifference32(1, 0, 1, 1));
496 EXPECT_EQ(SP32(0, 0), getDifference32(1, -32, 1, 0));
497 EXPECT_EQ(SP32(0, 0), getDifference32(1, -32, 1, -1));
499 // Regression tests for cases that failed during bringup.
500 EXPECT_EQ(SP32(UINT32_C(1) << 26, -31),
501 getDifference32(1, 0, UINT32_C(31) << 27, -32));
503 // Basic.
504 EXPECT_EQ(SP64(0, 0), getDifference64(1, 0, 1, 0));
505 EXPECT_EQ(SP64(1, 0), getDifference64(2, 0, 1, 0));
506 EXPECT_EQ(SP64(53, 0), getDifference64(60, 0, 7, 0));
508 // Equals "0", different scales.
509 EXPECT_EQ(SP64(0, 0), getDifference64(2, 0, 1, 1));
511 // Subtract "0".
512 EXPECT_EQ(SP64(1, 0), getDifference64(1, 0, 0, 0));
513 EXPECT_EQ(SP64(8, -3), getDifference64(8, -3, 0, 0));
514 EXPECT_EQ(SP64(UINT64_MAX, 0), getDifference64(UINT64_MAX, 0, 0, 0));
516 // Loss of precision.
517 EXPECT_EQ(SP64((UINT64_C(1) << 63) + 1, 1),
518 getDifference64((UINT64_C(1) << 63) + 1, 1, 1, 0));
519 EXPECT_EQ(SP64((UINT64_C(1) << 63) + 1, -63),
520 getDifference64((UINT64_C(1) << 63) + 1, -63, 1, -64));
522 // Not quite loss of precision.
523 EXPECT_EQ(SP64(UINT64_MAX, 0), getDifference64(1, 64, 1, 0));
524 EXPECT_EQ(SP64(UINT64_MAX, -64), getDifference64(1, 0, 1, -64));
526 // Saturate to "0".
527 EXPECT_EQ(SP64(0, 0), getDifference64(0, 0, 1, 0));
528 EXPECT_EQ(SP64(0, 0), getDifference64(0, 0, 8, -3));
529 EXPECT_EQ(SP64(0, 0), getDifference64(0, 0, UINT64_MAX, 0));
530 EXPECT_EQ(SP64(0, 0), getDifference64(7, 0, 60, 0));
531 EXPECT_EQ(SP64(0, 0), getDifference64(1, 0, 1, 1));
532 EXPECT_EQ(SP64(0, 0), getDifference64(1, -64, 1, 0));
533 EXPECT_EQ(SP64(0, 0), getDifference64(1, -64, 1, -1));
536 TEST(ScaledNumberHelpersTest, arithmeticOperators) {
537 EXPECT_EQ(ScaledNumber<uint32_t>(10, 0),
538 ScaledNumber<uint32_t>(1, 3) + ScaledNumber<uint32_t>(1, 1));
539 EXPECT_EQ(ScaledNumber<uint32_t>(6, 0),
540 ScaledNumber<uint32_t>(1, 3) - ScaledNumber<uint32_t>(1, 1));
541 EXPECT_EQ(ScaledNumber<uint32_t>(2, 3),
542 ScaledNumber<uint32_t>(1, 3) * ScaledNumber<uint32_t>(1, 1));
543 EXPECT_EQ(ScaledNumber<uint32_t>(1, 2),
544 ScaledNumber<uint32_t>(1, 3) / ScaledNumber<uint32_t>(1, 1));
545 EXPECT_EQ(ScaledNumber<uint32_t>(1, 2), ScaledNumber<uint32_t>(1, 3) >> 1);
546 EXPECT_EQ(ScaledNumber<uint32_t>(1, 4), ScaledNumber<uint32_t>(1, 3) << 1);
548 EXPECT_EQ(ScaledNumber<uint64_t>(10, 0),
549 ScaledNumber<uint64_t>(1, 3) + ScaledNumber<uint64_t>(1, 1));
550 EXPECT_EQ(ScaledNumber<uint64_t>(6, 0),
551 ScaledNumber<uint64_t>(1, 3) - ScaledNumber<uint64_t>(1, 1));
552 EXPECT_EQ(ScaledNumber<uint64_t>(2, 3),
553 ScaledNumber<uint64_t>(1, 3) * ScaledNumber<uint64_t>(1, 1));
554 EXPECT_EQ(ScaledNumber<uint64_t>(1, 2),
555 ScaledNumber<uint64_t>(1, 3) / ScaledNumber<uint64_t>(1, 1));
556 EXPECT_EQ(ScaledNumber<uint64_t>(1, 2), ScaledNumber<uint64_t>(1, 3) >> 1);
557 EXPECT_EQ(ScaledNumber<uint64_t>(1, 4), ScaledNumber<uint64_t>(1, 3) << 1);
560 TEST(ScaledNumberHelpersTest, toIntBug) {
561 ScaledNumber<uint32_t> n(1, 0);
562 EXPECT_EQ(1u, (n * n).toInt<uint32_t>());
565 static_assert(is_trivially_copyable<ScaledNumber<uint32_t>>::value,
566 "trivially copyable");
568 } // end namespace