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Issue 328503003: Extend Range analysis to 64-bit range and mint operations (Closed) Base URL: https://dart.googlecode.com/svn/branches/bleeding_edge/dart
Patch Set: Created 6 years, 6 months ago
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1 // Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file 1 // Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
2 // for details. All rights reserved. Use of this source code is governed by a 2 // for details. All rights reserved. Use of this source code is governed by a
3 // BSD-style license that can be found in the LICENSE file. 3 // BSD-style license that can be found in the LICENSE file.
4 4
5 #include "vm/intermediate_language.h" 5 #include "vm/intermediate_language.h"
6 #include "vm/unit_test.h" 6 #include "vm/unit_test.h"
7 7
8 namespace dart { 8 namespace dart {
9 9
10 TEST_CASE(InstructionTests) { 10 TEST_CASE(InstructionTests) {
(...skipping 35 matching lines...) Expand 10 before | Expand all | Expand 10 after
46 RangeBoundary::FromConstant(0)); 46 RangeBoundary::FromConstant(0));
47 Range* positive = new Range( 47 Range* positive = new Range(
48 RangeBoundary::FromConstant(0), 48 RangeBoundary::FromConstant(0),
49 RangeBoundary::FromConstant(100)); 49 RangeBoundary::FromConstant(100));
50 Range* negative = new Range( 50 Range* negative = new Range(
51 RangeBoundary::FromConstant(-1), 51 RangeBoundary::FromConstant(-1),
52 RangeBoundary::FromConstant(-100)); 52 RangeBoundary::FromConstant(-100));
53 Range* range_x = new Range( 53 Range* range_x = new Range(
54 RangeBoundary::FromConstant(-15), 54 RangeBoundary::FromConstant(-15),
55 RangeBoundary::FromConstant(100)); 55 RangeBoundary::FromConstant(100));
56 EXPECT(negative->IsNegative());
57 EXPECT(positive->IsPositive()); 56 EXPECT(positive->IsPositive());
58 EXPECT(zero->Overlaps(0, 0)); 57 EXPECT(zero->Overlaps(0, 0));
59 EXPECT(positive->Overlaps(0, 0)); 58 EXPECT(positive->Overlaps(0, 0));
60 EXPECT(!negative->Overlaps(0, 0)); 59 EXPECT(!negative->Overlaps(0, 0));
61 EXPECT(range_x->Overlaps(0, 0)); 60 EXPECT(range_x->Overlaps(0, 0));
62 EXPECT(range_x->IsWithin(-15, 100)); 61 EXPECT(range_x->IsWithin(-15, 100));
63 EXPECT(!range_x->IsWithin(-15, 99)); 62 EXPECT(!range_x->IsWithin(-15, 99));
64 EXPECT(!range_x->IsWithin(-14, 100)); 63 EXPECT(!range_x->IsWithin(-14, 100));
65 64
66 #define TEST_RANGE_OP(Op, l_min, l_max, r_min, r_max, result_min, result_max) \ 65 #define TEST_RANGE_OP(Op, l_min, l_max, r_min, r_max, result_min, result_max) \
(...skipping 45 matching lines...) Expand 10 before | Expand all | Expand 10 after
112 RangeBoundary(0), RangeBoundary::PositiveInfinity()); 111 RangeBoundary(0), RangeBoundary::PositiveInfinity());
113 TEST_RANGE_OP(Range::Shl, -100, 0, 0, 64, 112 TEST_RANGE_OP(Range::Shl, -100, 0, 0, 64,
114 RangeBoundary::NegativeInfinity(), RangeBoundary(0)); 113 RangeBoundary::NegativeInfinity(), RangeBoundary(0));
115 114
116 #undef TEST_RANGE_OP 115 #undef TEST_RANGE_OP
117 } 116 }
118 117
119 118
120 TEST_CASE(RangeTestsInfinity) { 119 TEST_CASE(RangeTestsInfinity) {
121 // +/- inf overflowed. 120 // +/- inf overflowed.
122 EXPECT(RangeBoundary::NegativeInfinity().Overflowed()); 121 EXPECT(RangeBoundary::NegativeInfinity().OverflowedSmi());
123 EXPECT(RangeBoundary::PositiveInfinity().Overflowed()); 122 EXPECT(RangeBoundary::PositiveInfinity().OverflowedSmi());
123
124 EXPECT(RangeBoundary::NegativeInfinity().OverflowedMint());
125 EXPECT(RangeBoundary::PositiveInfinity().OverflowedMint());
124 126
125 Range* all = new Range(RangeBoundary::NegativeInfinity(), 127 Range* all = new Range(RangeBoundary::NegativeInfinity(),
126 RangeBoundary::PositiveInfinity()); 128 RangeBoundary::PositiveInfinity());
127 EXPECT(all->Overlaps(0, 0)); 129 EXPECT(all->Overlaps(0, 0));
128 EXPECT(all->Overlaps(-1, 1)); 130 EXPECT(all->Overlaps(-1, 1));
129 EXPECT(!all->IsWithin(0, 100)); 131 EXPECT(!all->IsWithin(0, 100));
130 Range* positive = new Range(RangeBoundary::FromConstant(0), 132 Range* positive = new Range(RangeBoundary::FromConstant(0),
131 RangeBoundary::PositiveInfinity()); 133 RangeBoundary::PositiveInfinity());
132 EXPECT(positive->IsPositive()); 134 EXPECT(positive->IsPositive());
133 EXPECT(!positive->IsNegative());
134 EXPECT(positive->Overlaps(0, 1)); 135 EXPECT(positive->Overlaps(0, 1));
135 EXPECT(positive->Overlaps(1, 100)); 136 EXPECT(positive->Overlaps(1, 100));
136 EXPECT(positive->Overlaps(-1, 0)); 137 EXPECT(positive->Overlaps(-1, 0));
137 EXPECT(!positive->Overlaps(-2, -1)); 138 EXPECT(!positive->Overlaps(-2, -1));
138 Range* negative = new Range(RangeBoundary::NegativeInfinity(), 139 Range* negative = new Range(RangeBoundary::NegativeInfinity(),
139 RangeBoundary::FromConstant(-1)); 140 RangeBoundary::FromConstant(-1));
140 EXPECT(negative->IsNegative());
141 EXPECT(!negative->IsPositive()); 141 EXPECT(!negative->IsPositive());
142 EXPECT(!negative->Overlaps(0, 1)); 142 EXPECT(!negative->Overlaps(0, 1));
143 EXPECT(!negative->Overlaps(1, 100)); 143 EXPECT(!negative->Overlaps(1, 100));
144 EXPECT(negative->Overlaps(-1, 0)); 144 EXPECT(negative->Overlaps(-1, 0));
145 EXPECT(negative->Overlaps(-2, -1)); 145 EXPECT(negative->Overlaps(-2, -1));
146 Range* negpos = new Range(RangeBoundary::NegativeInfinity(), 146 Range* negpos = new Range(RangeBoundary::NegativeInfinity(),
147 RangeBoundary::FromConstant(0)); 147 RangeBoundary::FromConstant(0));
148 EXPECT(!negpos->IsNegative());
149 EXPECT(!negpos->IsPositive()); 148 EXPECT(!negpos->IsPositive());
150 149
151 Range* a = new Range(RangeBoundary::NegativeInfinity(), 150 Range* a = new Range(RangeBoundary::NegativeInfinity(),
152 RangeBoundary::FromConstant(1)); 151 RangeBoundary::FromConstant(1));
153 152
154 Range* b = new Range(RangeBoundary::NegativeInfinity(), 153 Range* b = new Range(RangeBoundary::NegativeInfinity(),
155 RangeBoundary::FromConstant(31)); 154 RangeBoundary::FromConstant(31));
156 155
157 Range* c = new Range(RangeBoundary::NegativeInfinity(), 156 Range* c = new Range(RangeBoundary::NegativeInfinity(),
158 RangeBoundary::FromConstant(32)); 157 RangeBoundary::FromConstant(32));
159 158
160 EXPECT(a->OnlyLessThanOrEqualTo(31)); 159 EXPECT(a->OnlyLessThanOrEqualTo(31));
161 EXPECT(b->OnlyLessThanOrEqualTo(31)); 160 EXPECT(b->OnlyLessThanOrEqualTo(31));
162 EXPECT(!c->OnlyLessThanOrEqualTo(31)); 161 EXPECT(!c->OnlyLessThanOrEqualTo(31));
163 162
164 Range* unsatisfiable = new Range(RangeBoundary::PositiveInfinity(), 163 Range* unsatisfiable = new Range(RangeBoundary::PositiveInfinity(),
165 RangeBoundary::NegativeInfinity()); 164 RangeBoundary::NegativeInfinity());
166 EXPECT(unsatisfiable->IsUnsatisfiable()); 165 EXPECT(unsatisfiable->IsUnsatisfiable());
167 166
168 Range* unsatisfiable_right = new Range(RangeBoundary::PositiveInfinity(), 167 Range* unsatisfiable_right = new Range(RangeBoundary::PositiveInfinity(),
169 RangeBoundary::FromConstant(0)); 168 RangeBoundary::FromConstant(0));
170 EXPECT(unsatisfiable_right->IsUnsatisfiable()); 169 EXPECT(unsatisfiable_right->IsUnsatisfiable());
171 170
172 Range* unsatisfiable_left = new Range(RangeBoundary::FromConstant(0), 171 Range* unsatisfiable_left = new Range(RangeBoundary::FromConstant(0),
173 RangeBoundary::NegativeInfinity()); 172 RangeBoundary::NegativeInfinity());
174 EXPECT(unsatisfiable_left->IsUnsatisfiable()); 173 EXPECT(unsatisfiable_left->IsUnsatisfiable());
175 } 174 }
176 175
176
177 TEST_CASE(RangeUtils) {
178 // [-inf, +inf].
179 const Range& range_0 = *(new Range(RangeBoundary::NegativeInfinity(),
180 RangeBoundary::PositiveInfinity()));
181 // [-inf, -1].
182 const Range& range_a = *(new Range(RangeBoundary::NegativeInfinity(),
183 RangeBoundary::FromConstant(-1)));
184 // [-inf, 0].
185 const Range& range_b = *(new Range(RangeBoundary::NegativeInfinity(),
186 RangeBoundary::FromConstant(0)));
187 // [-inf, 1].
188 const Range& range_c = *(new Range(RangeBoundary::NegativeInfinity(),
189 RangeBoundary::FromConstant(1)));
190 // [-1, +inf]
191 const Range& range_d = *(new Range(RangeBoundary::FromConstant(-1),
192 RangeBoundary::PositiveInfinity()));
193 // [0, +inf]
194 const Range& range_e = *(new Range(RangeBoundary::FromConstant(0),
195 RangeBoundary::PositiveInfinity()));
196 // [1, +inf].
197 const Range& range_f = *(new Range(RangeBoundary::FromConstant(1),
198 RangeBoundary::PositiveInfinity()));
199 // [1, 2].
200 const Range& range_g = *(new Range(RangeBoundary::FromConstant(1),
201 RangeBoundary::FromConstant(2)));
202 // [-1, -2].
203 const Range& range_h = *(new Range(RangeBoundary::FromConstant(-1),
204 RangeBoundary::FromConstant(-2)));
205 // [-1, 1].
206 const Range& range_i = *(new Range(RangeBoundary::FromConstant(-1),
207 RangeBoundary::FromConstant(1)));
208
209 // OnlyPositiveOrZero.
210 EXPECT(!Range::OnlyPositiveOrZero(range_a, range_b));
211 EXPECT(!Range::OnlyPositiveOrZero(range_b, range_c));
212 EXPECT(!Range::OnlyPositiveOrZero(range_c, range_d));
213 EXPECT(!Range::OnlyPositiveOrZero(range_d, range_e));
214 EXPECT(Range::OnlyPositiveOrZero(range_e, range_f));
215 EXPECT(!Range::OnlyPositiveOrZero(range_d, range_d));
216 EXPECT(Range::OnlyPositiveOrZero(range_e, range_e));
217 EXPECT(Range::OnlyPositiveOrZero(range_f, range_g));
218 EXPECT(!Range::OnlyPositiveOrZero(range_g, range_h));
219 EXPECT(!Range::OnlyPositiveOrZero(range_i, range_i));
220
221 // OnlyNegativeOrZero.
222 EXPECT(Range::OnlyNegativeOrZero(range_a, range_b));
223 EXPECT(!Range::OnlyNegativeOrZero(range_b, range_c));
224 EXPECT(Range::OnlyNegativeOrZero(range_b, range_b));
225 EXPECT(!Range::OnlyNegativeOrZero(range_c, range_c));
226 EXPECT(!Range::OnlyNegativeOrZero(range_c, range_d));
227 EXPECT(!Range::OnlyNegativeOrZero(range_d, range_e));
228 EXPECT(!Range::OnlyNegativeOrZero(range_e, range_f));
229 EXPECT(!Range::OnlyNegativeOrZero(range_f, range_g));
230 EXPECT(!Range::OnlyNegativeOrZero(range_g, range_h));
231 EXPECT(Range::OnlyNegativeOrZero(range_h, range_h));
232 EXPECT(!Range::OnlyNegativeOrZero(range_i, range_i));
233
234 // [-inf, +inf].
235 EXPECT(!Range::OnlyNegativeOrZero(range_0, range_0));
236 EXPECT(!Range::OnlyPositiveOrZero(range_0, range_0));
237
238 EXPECT(Range::ConstantAbsMax(&range_0) == RangeBoundary::kMax);
239 EXPECT(Range::ConstantAbsMax(&range_h) == 2);
240 EXPECT(Range::ConstantAbsMax(&range_i) == 1);
241
242 // RangeBOundary.Equals.
243 EXPECT(RangeBoundary::FromConstant(1).Equals(
244 RangeBoundary::FromConstant(1)));
245 EXPECT(!RangeBoundary::FromConstant(2).Equals(
246 RangeBoundary::FromConstant(1)));
247 EXPECT(RangeBoundary::PositiveInfinity().Equals(
248 RangeBoundary::PositiveInfinity()));
249 EXPECT(!RangeBoundary::PositiveInfinity().Equals(
250 RangeBoundary::NegativeInfinity()));
251 EXPECT(RangeBoundary::NegativeInfinity().Equals(
252 RangeBoundary::NegativeInfinity()));
253 EXPECT(!RangeBoundary::NegativeInfinity().Equals(
254 RangeBoundary::PositiveInfinity()));
255 EXPECT(!RangeBoundary::FromConstant(1).Equals(
256 RangeBoundary::NegativeInfinity()));
257 EXPECT(!RangeBoundary::FromConstant(1).Equals(
258 RangeBoundary::NegativeInfinity()));
259 EXPECT(!RangeBoundary::FromConstant(2).Equals(
260 RangeBoundary::PositiveInfinity()));
261 }
262
263
264 TEST_CASE(RangeBinaryOp) {
265 Range* range_a = new Range(RangeBoundary::FromConstant(-1),
266 RangeBoundary::PositiveInfinity());
267 range_a->Clamp(RangeBoundary::kRangeBoundaryInt64);
268 EXPECT(range_a->min().ConstantValue() == -1);
269 EXPECT(range_a->max().ConstantValue() == RangeBoundary::kMax);
270 Range* range_b = new Range(RangeBoundary::NegativeInfinity(),
271 RangeBoundary::FromConstant(1));
272 range_b->Clamp(RangeBoundary::kRangeBoundaryInt64);
273 EXPECT(range_b->min().ConstantValue() == RangeBoundary::kMin);
274 EXPECT(range_b->max().ConstantValue() == 1);
275 Range* result = Range::BinaryOp(Token::kADD,
276 range_a,
277 range_b,
278 NULL);
279 ASSERT(result != NULL);
280 EXPECT(result->min().IsNegativeInfinity());
281 EXPECT(result->max().IsPositiveInfinity());
282
283 // Test that [5, 10] + [0, 5] = [5, 15].
284 Range* range_c = new Range(RangeBoundary::FromConstant(5),
285 RangeBoundary::FromConstant(10));
286 Range* range_d = new Range(RangeBoundary::FromConstant(0),
287 RangeBoundary::FromConstant(5));
288 result = Range::BinaryOp(Token::kADD,
289 range_c,
290 range_d,
291 NULL);
292 ASSERT(result != NULL);
293 EXPECT(result->min().ConstantValue() == 5);
294 EXPECT(result->max().ConstantValue() == 15);
295
296
297 // Test that [0xff, 0xfff] & [0xf, 0xf] = [0x0, 0xf].
298 Range* range_e = new Range(RangeBoundary::FromConstant(0xff),
299 RangeBoundary::FromConstant(0xfff));
300 Range* range_f = new Range(RangeBoundary::FromConstant(0xf),
301 RangeBoundary::FromConstant(0xf));
302 result = Range::BinaryOp(Token::kBIT_AND,
303 range_e,
304 range_f,
305 NULL);
306 ASSERT(result != NULL);
307 EXPECT(result->min().ConstantValue() == 0x0);
308 EXPECT(result->max().ConstantValue() == 0xf);
309 }
310
311
312 TEST_CASE(RangeAdd) {
313 #define TEST_RANGE_ADD(l_min, l_max, r_min, r_max, result_min, result_max) \
314 { \
315 RangeBoundary min, max; \
316 Range* left_range = new Range( \
317 RangeBoundary::FromConstant(l_min), \
318 RangeBoundary::FromConstant(l_max)); \
319 Range* right_range = new Range( \
320 RangeBoundary::FromConstant(r_min), \
321 RangeBoundary::FromConstant(r_max)); \
322 EXPECT(left_range->min().ConstantValue() == l_min); \
323 EXPECT(left_range->max().ConstantValue() == l_max); \
324 EXPECT(right_range->min().ConstantValue() == r_min); \
325 EXPECT(right_range->max().ConstantValue() == r_max); \
326 Range::Add(left_range, right_range, &min, &max, NULL); \
327 EXPECT(min.Equals(result_min)); \
328 if (!min.Equals(result_min)) { \
329 OS::Print("%s != %s\n", min.ToCString(), result_min.ToCString()); \
330 } \
331 EXPECT(max.Equals(result_max)); \
332 if (!max.Equals(result_max)) { \
333 OS::Print("%s != %s\n", max.ToCString(), result_max.ToCString()); \
334 } \
335 }
336
337 // [kMaxInt32, kMaxInt32 + 15] + [10, 20] = [kMaxInt32 + 10, kMaxInt32 + 35].
338 TEST_RANGE_ADD(static_cast<int64_t>(kMaxInt32),
339 static_cast<int64_t>(kMaxInt32) + 15,
340 static_cast<int64_t>(10),
341 static_cast<int64_t>(20),
342 RangeBoundary(static_cast<int64_t>(kMaxInt32) + 10),
343 RangeBoundary(static_cast<int64_t>(kMaxInt32) + 35));
344
345 // [kMaxInt32 - 15, kMaxInt32 + 15] + [15, -15] = [kMaxInt32, kMaxInt32].
346 TEST_RANGE_ADD(static_cast<int64_t>(kMaxInt32) - 15,
347 static_cast<int64_t>(kMaxInt32) + 15,
348 static_cast<int64_t>(15),
349 static_cast<int64_t>(-15),
350 RangeBoundary(static_cast<int64_t>(kMaxInt32)),
351 RangeBoundary(static_cast<int64_t>(kMaxInt32)));
352
353 // [kMaxInt32, kMaxInt32 + 15] + [10, kMaxInt64] = [kMaxInt32 + 10, +inf].
354 TEST_RANGE_ADD(static_cast<int64_t>(kMaxInt32),
355 static_cast<int64_t>(kMaxInt32) + 15,
356 static_cast<int64_t>(10),
357 static_cast<int64_t>(kMaxInt64),
358 RangeBoundary(static_cast<int64_t>(kMaxInt32) + 10),
359 RangeBoundary::PositiveInfinity());
360
361 // [kMinInt64, kMaxInt32 + 15] + [10, 20] = [kMinInt64 + 10, kMaxInt32 + 35].
362 TEST_RANGE_ADD(static_cast<int64_t>(kMinInt64),
363 static_cast<int64_t>(kMaxInt32) + 15,
364 static_cast<int64_t>(10),
365 static_cast<int64_t>(20),
366 RangeBoundary(static_cast<int64_t>(kMinInt64) + 10),
367 RangeBoundary(static_cast<int64_t>(kMaxInt32) + 35));
368
369 // [0, 0] + [kMinInt64, kMaxInt64] = [kMinInt64, kMaxInt64].
370 TEST_RANGE_ADD(static_cast<int64_t>(0),
371 static_cast<int64_t>(0),
372 static_cast<int64_t>(kMinInt64),
373 static_cast<int64_t>(kMaxInt64),
374 RangeBoundary(kMinInt64),
375 RangeBoundary(kMaxInt64));
376
377
378 // [-1, 1] + [kMinInt64, kMaxInt64] = [-inf, +inf].
379 TEST_RANGE_ADD(static_cast<int64_t>(-1),
380 static_cast<int64_t>(1),
381 static_cast<int64_t>(kMinInt64),
382 static_cast<int64_t>(kMaxInt64),
383 RangeBoundary::NegativeInfinity(),
384 RangeBoundary::PositiveInfinity());
385
386 #undef TEST_RANGE_ADD
387 }
388
389
390 TEST_CASE(RangeSub) {
391 #define TEST_RANGE_SUB(l_min, l_max, r_min, r_max, result_min, result_max) \
392 { \
393 RangeBoundary min, max; \
394 Range* left_range = new Range( \
395 RangeBoundary::FromConstant(l_min), \
396 RangeBoundary::FromConstant(l_max)); \
397 Range* right_range = new Range( \
398 RangeBoundary::FromConstant(r_min), \
399 RangeBoundary::FromConstant(r_max)); \
400 EXPECT(left_range->min().ConstantValue() == l_min); \
401 EXPECT(left_range->max().ConstantValue() == l_max); \
402 EXPECT(right_range->min().ConstantValue() == r_min); \
403 EXPECT(right_range->max().ConstantValue() == r_max); \
404 Range::Sub(left_range, right_range, &min, &max, NULL); \
405 EXPECT(min.Equals(result_min)); \
406 if (!min.Equals(result_min)) { \
407 OS::Print("%s != %s\n", min.ToCString(), result_min.ToCString()); \
408 } \
409 EXPECT(max.Equals(result_max)); \
410 if (!max.Equals(result_max)) { \
411 OS::Print("%s != %s\n", max.ToCString(), result_max.ToCString()); \
412 } \
413 }
414
415 // [kMaxInt32, kMaxInt32 + 15] - [10, 20] = [kMaxInt32 - 20, kMaxInt32 + 5].
416 TEST_RANGE_SUB(static_cast<int64_t>(kMaxInt32),
417 static_cast<int64_t>(kMaxInt32) + 15,
418 static_cast<int64_t>(10),
419 static_cast<int64_t>(20),
420 RangeBoundary(static_cast<int64_t>(kMaxInt32) - 20),
421 RangeBoundary(static_cast<int64_t>(kMaxInt32) + 5));
422
423 // [kMintInt64, kMintInt64] - [1, 1] = [-inf, +inf].
424 TEST_RANGE_SUB(static_cast<int64_t>(kMinInt64),
425 static_cast<int64_t>(kMinInt64),
426 static_cast<int64_t>(1),
427 static_cast<int64_t>(1),
428 RangeBoundary::NegativeInfinity(),
429 RangeBoundary::PositiveInfinity());
430
431 // [1, 1] - [kMintInt64, kMintInt64] = [-inf, +inf].
432 TEST_RANGE_SUB(static_cast<int64_t>(1),
433 static_cast<int64_t>(1),
434 static_cast<int64_t>(kMinInt64),
435 static_cast<int64_t>(kMinInt64),
436 RangeBoundary::NegativeInfinity(),
437 RangeBoundary::PositiveInfinity());
438
439 // [kMaxInt32 + 10, kMaxInt32 + 20] - [-20, -20] =
440 // [kMaxInt32 + 30, kMaxInt32 + 40].
441 TEST_RANGE_SUB(static_cast<int64_t>(kMaxInt32) + 10,
442 static_cast<int64_t>(kMaxInt32) + 20,
443 static_cast<int64_t>(-20),
444 static_cast<int64_t>(-20),
445 RangeBoundary(static_cast<int64_t>(kMaxInt32) + 30),
446 RangeBoundary(static_cast<int64_t>(kMaxInt32) + 40));
447
448
449 #undef TEST_RANGE_SUB
450 }
451
452
453 TEST_CASE(RangeAnd) {
454 #define TEST_RANGE_AND(l_min, l_max, r_min, r_max, result_min, result_max) \
455 { \
456 RangeBoundary min, max; \
457 Range* left_range = new Range( \
458 RangeBoundary::FromConstant(l_min), \
459 RangeBoundary::FromConstant(l_max)); \
460 Range* right_range = new Range( \
461 RangeBoundary::FromConstant(r_min), \
462 RangeBoundary::FromConstant(r_max)); \
463 EXPECT(left_range->min().ConstantValue() == l_min); \
464 EXPECT(left_range->max().ConstantValue() == l_max); \
465 EXPECT(right_range->min().ConstantValue() == r_min); \
466 EXPECT(right_range->max().ConstantValue() == r_max); \
467 Range::And(left_range, right_range, &min, &max); \
468 EXPECT(min.Equals(result_min)); \
469 if (!min.Equals(result_min)) { \
470 OS::Print("%s != %s\n", min.ToCString(), result_min.ToCString()); \
471 } \
472 EXPECT(max.Equals(result_max)); \
473 if (!max.Equals(result_max)) { \
474 OS::Print("%s != %s\n", max.ToCString(), result_max.ToCString()); \
475 } \
476 }
477
478 // [0xff, 0xfff] & [0xf, 0xf] = [0x0, 0xf].
479 TEST_RANGE_AND(static_cast<int64_t>(0xff),
480 static_cast<int64_t>(0xfff),
481 static_cast<int64_t>(0xf),
482 static_cast<int64_t>(0xf),
483 RangeBoundary(0),
484 RangeBoundary(0xf));
485
486 // [0xffffffff, 0xffffffff] & [0xfffffffff, 0xfffffffff] = [0x0, 0xfffffffff].
487 TEST_RANGE_AND(static_cast<int64_t>(0xffffffff),
488 static_cast<int64_t>(0xffffffff),
489 static_cast<int64_t>(0xfffffffff),
490 static_cast<int64_t>(0xfffffffff),
491 RangeBoundary(0),
492 RangeBoundary(static_cast<int64_t>(0xfffffffff)));
493
494 // [0xffffffff, 0xffffffff] & [-20, 20] = [0x0, 0xffffffff].
495 TEST_RANGE_AND(static_cast<int64_t>(0xffffffff),
496 static_cast<int64_t>(0xffffffff),
497 static_cast<int64_t>(-20),
498 static_cast<int64_t>(20),
499 RangeBoundary(0),
500 RangeBoundary(static_cast<int64_t>(0xffffffff)));
501
502 // [-20, 20] & [0xffffffff, 0xffffffff] = [0x0, 0xffffffff].
503 TEST_RANGE_AND(static_cast<int64_t>(-20),
504 static_cast<int64_t>(20),
505 static_cast<int64_t>(0xffffffff),
506 static_cast<int64_t>(0xffffffff),
507 RangeBoundary(0),
508 RangeBoundary(static_cast<int64_t>(0xffffffff)));
509
510 // Test that [-20, 20] & [-20, 20] = [Unknown, Unknown].
511 TEST_RANGE_AND(static_cast<int64_t>(-20),
512 static_cast<int64_t>(20),
513 static_cast<int64_t>(-20),
514 static_cast<int64_t>(20),
515 RangeBoundary(),
516 RangeBoundary());
517
518 #undef TEST_RANGE_AND
519 }
520
521
522 TEST_CASE(RangeMinMax) {
523 // Constants.
524 // MIN(0, 1) == 0
525 EXPECT(RangeBoundary::Min(
526 RangeBoundary::FromConstant(0),
527 RangeBoundary::FromConstant(1),
528 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == 0);
529 // MIN(0, -1) == -1
530 EXPECT(RangeBoundary::Min(
531 RangeBoundary::FromConstant(0),
532 RangeBoundary::FromConstant(-1),
533 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == -1);
534
535 // MIN(1, 0) == 0
536 EXPECT(RangeBoundary::Min(
537 RangeBoundary::FromConstant(1),
538 RangeBoundary::FromConstant(0),
539 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == 0);
540 // MIN(-1, 0) == -1
541 EXPECT(RangeBoundary::Min(
542 RangeBoundary::FromConstant(-1),
543 RangeBoundary::FromConstant(0),
544 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == -1);
545
546 // MAX(0, 1) == 1
547 EXPECT(RangeBoundary::Max(
548 RangeBoundary::FromConstant(0),
549 RangeBoundary::FromConstant(1),
550 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == 1);
551
552 // MAX(0, -1) == 0
553 EXPECT(RangeBoundary::Max(
554 RangeBoundary::FromConstant(0),
555 RangeBoundary::FromConstant(-1),
556 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == 0);
557
558 // MAX(1, 0) == 1
559 EXPECT(RangeBoundary::Max(
560 RangeBoundary::FromConstant(1),
561 RangeBoundary::FromConstant(0),
562 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == 1);
563 // MAX(-1, 0) == 0
564 EXPECT(RangeBoundary::Max(
565 RangeBoundary::FromConstant(-1),
566 RangeBoundary::FromConstant(0),
567 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == 0);
568
569 RangeBoundary n_infinity = RangeBoundary::NegativeInfinity();
570 RangeBoundary p_infinity = RangeBoundary::PositiveInfinity();
571
572 // Constants vs. infinity.
573 EXPECT(RangeBoundary::Max(
574 n_infinity,
575 RangeBoundary::FromConstant(-1),
576 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == -1);
577
578 EXPECT(RangeBoundary::Max(
579 RangeBoundary::FromConstant(-1),
580 n_infinity,
581 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == -1);
582
583 EXPECT(RangeBoundary::Max(
584 RangeBoundary::FromConstant(1),
585 n_infinity,
586 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == 1);
587
588 EXPECT(RangeBoundary::Max(
589 n_infinity,
590 RangeBoundary::FromConstant(1),
591 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == 1);
592
593 EXPECT(RangeBoundary::Min(
594 p_infinity,
595 RangeBoundary::FromConstant(-1),
596 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == -1);
597
598 EXPECT(RangeBoundary::Min(
599 RangeBoundary::FromConstant(-1),
600 p_infinity,
601 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == -1);
602
603 EXPECT(RangeBoundary::Min(
604 RangeBoundary::FromConstant(1),
605 p_infinity,
606 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == 1);
607
608 EXPECT(RangeBoundary::Min(
609 p_infinity,
610 RangeBoundary::FromConstant(1),
611 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == 1);
612
613 // 64-bit values.
614 EXPECT(RangeBoundary::Min(
615 RangeBoundary(static_cast<int64_t>(kMinInt64)),
616 RangeBoundary(static_cast<int64_t>(kMinInt32)),
617 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == kMinInt64);
618
619 EXPECT(RangeBoundary::Max(
620 RangeBoundary(static_cast<int64_t>(kMinInt64)),
621 RangeBoundary(static_cast<int64_t>(kMinInt32)),
622 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == kMinInt32);
623
624 EXPECT(RangeBoundary::Min(
625 RangeBoundary(static_cast<int64_t>(kMaxInt64)),
626 RangeBoundary(static_cast<int64_t>(kMaxInt32)),
627 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == kMaxInt32);
628
629 EXPECT(RangeBoundary::Max(
630 RangeBoundary(static_cast<int64_t>(kMaxInt64)),
631 RangeBoundary(static_cast<int64_t>(kMaxInt32)),
632 RangeBoundary::kRangeBoundaryInt64).ConstantValue() == kMaxInt64);
633 }
634
177 } // namespace dart 635 } // namespace dart
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