| /third_party/musl/libc-test/src/regression/ |
| H A D | malloc-uaf-check.c | 38 char *divide[MALLOC_TIME]; in child() local
46 divide[j] = (char *)malloc(ALIGNED_SIZE - 1); in child()
47 if (!divide[j]) { in child()
48 t_error("Malloc divide failed:%s\n", strerror(errno)); in child()
68 free(divide[j]); in child()
69 divide[j][POINTER_USAGE] = (char)(UAF_VAL - j); in child()
|
| /third_party/protobuf/java/util/src/main/java/com/google/protobuf/util/ |
| H A D | TimeUtil.java | 340 public static Duration divide(Duration duration, double value) { in divide() method in TimeUtil
350 public static Duration divide(Duration duration, long times) { in divide() method in TimeUtil
351 return createDurationFromBigInteger(toBigInteger(duration).divide(toBigInteger(times))); in divide()
355 public static long divide(Duration d1, Duration d2) { in divide() method in TimeUtil
356 return toBigInteger(d1).divide(toBigInteger(d2)).longValue(); in divide()
378 long seconds = value.divide(new BigInteger(String.valueOf(NANOS_PER_SECOND))).longValue(); in createDurationFromBigInteger()
|
| /third_party/protobuf/java/util/src/test/java/com/google/protobuf/util/ |
| H A D | TimeUtilTest.java | 448 duration = TimeUtil.divide(duration, 2.0); in testTimeOperations()
472 assertEquals(1, TimeUtil.divide(d1, d2)); in testTimeOperations()
473 assertEquals(0, TimeUtil.divide(d2, d1)); in testTimeOperations()
482 assertEquals(-2, TimeUtil.divide(d1, d2)); in testTimeOperations()
483 assertEquals(-2, TimeUtil.divide(d1, 2).getSeconds()); in testTimeOperations()
488 assertEquals(2, TimeUtil.divide(d1, d2)); in testTimeOperations()
489 assertEquals(2, TimeUtil.divide(d1, -2).getSeconds()); in testTimeOperations()
494 assertEquals(-2, TimeUtil.divide(d1, d2)); in testTimeOperations()
495 assertEquals(-2, TimeUtil.divide(d1, -2).getSeconds()); in testTimeOperations()
|
| /third_party/icu/ohos_icu4j/src/main/tests/ohos/global/icu/dev/test/bigdec/ |
| H A D | DiagBigDecimalTest.java | 58 /* 1998.07.07 Scaled divide */
1138 /** Test the {@link ohos.global.icu.math.BigDecimal#divide} method. */
1150 TestFmwk.assertTrue("div301", ((new ohos.global.icu.math.BigDecimal("1")).divide(new ohos.global.icu.math.BigDecimal("3"),mcdef).toString()).equals("0.333333333")); in diagdivide()
1151 TestFmwk.assertTrue("div302", ((new ohos.global.icu.math.BigDecimal("2")).divide(new ohos.global.icu.math.BigDecimal("3"),mcdef).toString()).equals("0.666666667")); in diagdivide()
1152 TestFmwk.assertTrue("div303", ((new ohos.global.icu.math.BigDecimal("2.4")).divide(new ohos.global.icu.math.BigDecimal("1"),mcdef).toString()).equals("2.4")); in diagdivide()
1153 TestFmwk.assertTrue("div304", ((new ohos.global.icu.math.BigDecimal("2.4")).divide(new ohos.global.icu.math.BigDecimal("-1"),mcdef).toString()).equals("-2.4")); in diagdivide()
1154 TestFmwk.assertTrue("div305", ((new ohos.global.icu.math.BigDecimal("-2.4")).divide(new ohos.global.icu.math.BigDecimal("1"),mcdef).toString()).equals("-2.4")); in diagdivide()
1155 TestFmwk.assertTrue("div306", ((new ohos.global.icu.math.BigDecimal("-2.4")).divide(new ohos.global.icu.math.BigDecimal("-1"),mcdef).toString()).equals("2.4")); in diagdivide()
1156 TestFmwk.assertTrue("div307", ((new ohos.global.icu.math.BigDecimal("2.40")).divide(new ohos.global.icu.math.BigDecimal("1"),mcdef).toString()).equals("2.4")); in diagdivide()
1157 TestFmwk.assertTrue("div308", ((new ohos.global.icu.math.BigDecimal("2.400")).divide(ne in diagdivide()
[all...] |
| /third_party/icu/icu4j/main/tests/core/src/com/ibm/icu/dev/test/bigdec/ |
| H A D | DiagBigDecimalTest.java | 56 /* 1998.07.07 Scaled divide */
1135 /** Test the {@link com.ibm.icu.math.BigDecimal#divide} method. */
1147 TestFmwk.assertTrue("div301", ((new com.ibm.icu.math.BigDecimal("1")).divide(new com.ibm.icu.math.BigDecimal("3"),mcdef).toString()).equals("0.333333333")); in diagdivide()
1148 TestFmwk.assertTrue("div302", ((new com.ibm.icu.math.BigDecimal("2")).divide(new com.ibm.icu.math.BigDecimal("3"),mcdef).toString()).equals("0.666666667")); in diagdivide()
1149 TestFmwk.assertTrue("div303", ((new com.ibm.icu.math.BigDecimal("2.4")).divide(new com.ibm.icu.math.BigDecimal("1"),mcdef).toString()).equals("2.4")); in diagdivide()
1150 TestFmwk.assertTrue("div304", ((new com.ibm.icu.math.BigDecimal("2.4")).divide(new com.ibm.icu.math.BigDecimal("-1"),mcdef).toString()).equals("-2.4")); in diagdivide()
1151 TestFmwk.assertTrue("div305", ((new com.ibm.icu.math.BigDecimal("-2.4")).divide(new com.ibm.icu.math.BigDecimal("1"),mcdef).toString()).equals("-2.4")); in diagdivide()
1152 TestFmwk.assertTrue("div306", ((new com.ibm.icu.math.BigDecimal("-2.4")).divide(new com.ibm.icu.math.BigDecimal("-1"),mcdef).toString()).equals("2.4")); in diagdivide()
1153 TestFmwk.assertTrue("div307", ((new com.ibm.icu.math.BigDecimal("2.40")).divide(new com.ibm.icu.math.BigDecimal("1"),mcdef).toString()).equals("2.4")); in diagdivide()
1154 TestFmwk.assertTrue("div308", ((new com.ibm.icu.math.BigDecimal("2.400")).divide(ne in diagdivide()
[all...] |
| /third_party/icu/icu4j/main/classes/core/src/com/ibm/icu/impl/units/ |
| H A D | UnitsConverter.java | 60 this.conversionRate = sourceToBase.divide(targetToBase).getConversionRate(); in UnitsConverter()
122 result = BigDecimal.ONE.divide(result, DECIMAL128); in convert()
136 result = BigDecimal.ONE.divide(result, DECIMAL128); in convertInverse()
138 result = result.subtract(offset).divide(this.conversionRate, DECIMAL128); in convertInverse()
220 return num.divide(den); in processFactor()
272 resultCollector.multiply(new BigDecimal("411557987.0").divide(new BigDecimal("131002976.0"), DECIMAL128), this.exponentPi); in getConversionRate()
283 return resultCollector.factorNum.divide(resultCollector.factorDen, DECIMAL128); in getConversionRate()
346 public Factor divide(Factor other) { in divide() method in UnitsConverter.Factor
|
| H A D | ConversionRates.java | 75 .divide(targetToBase.getConversionRate(), MathContext.DECIMAL128); in getOffset()
213 return new BigDecimal(numbers[0]).divide(new BigDecimal(numbers[1]), MathContext.DECIMAL128); in forNumberWithDivision()
|
| /third_party/gptfdisk/ |
| H A D | support.cc | 140 uint64_t response = def, bytesPerUnit, mult = 1, divide = 1; in IeeeToInt() local
187 divide = sSize / bytesPerUnit; in IeeeToInt()
196 } else if (divide > 1) { in IeeeToInt()
197 response /= divide; in IeeeToInt()
|
| /third_party/typescript/tests/baselines/reference/ |
| H A D | commentsCommentParsing.js | 137 /** this is divide function
142 function divide(a: number, b: number) { function
271 /** this is divide function
276 function divide(a, b) {
357 /** this is divide function
362 declare function divide(a: number, b: number): void;
|
| /third_party/decimal.js/ |
| H A D | decimal.js | 379 r = divide(t3plusx.plus(x).times(t), t3plusx.plus(t3), sd + 2, 1);
469 return divide(this, new this.constructor(y));
481 return finalise(divide(x, new Ctor(y), 0, 1, 1), Ctor.precision, Ctor.rounding);
702 return divide(x.sinh(), x.cosh(), Ctor.precision = pr, Ctor.rounding = rm);
875 x = divide(x.plus(1), new Ctor(1).minus(x), wpr + pr, 1);
1177 r = divide(num, denominator, sd, 1);
1199 r = divide(num, denominator, sd, 1);
1460 q = divide(x, y.abs(), 0, 3, 1);
1463 q = divide(x, y, 0, Ctor.modulo, 1);
1770 r = t.plus(divide(
[all...] |
| /third_party/icu/icu4j/main/classes/core/src/com/ibm/icu/util/ |
| H A D | UniversalTimeScale.java | 453 * Since this calculation requires a divide, we must round. The straight forward
525 return universal.divide(units, BigDecimal.ROUND_HALF_UP).subtract(epochOffset); in toBigDecimal()
544 return universalTime.divide(units, BigDecimal.ROUND_HALF_UP).subtract(epochOffset); in toBigDecimal()
660 return universalTime.divide(units, BigDecimal.ROUND_DOWN).subtract(epochOffset); in toBigDecimalTrunc()
|
| /third_party/icu/ohos_icu4j/src/main/java/ohos/global/icu/util/ |
| H A D | UniversalTimeScale.java | 409 * Since this calculation requires a divide, we must round. The straight forward
477 return universal.divide(units, BigDecimal.ROUND_HALF_UP).subtract(epochOffset); in toBigDecimal()
494 return universalTime.divide(units, BigDecimal.ROUND_HALF_UP).subtract(epochOffset); in toBigDecimal()
608 return universalTime.divide(units, BigDecimal.ROUND_DOWN).subtract(epochOffset); in toBigDecimalTrunc()
|
| /third_party/icu/icu4j/perf-tests/ |
| H A D | Dataset.pm | 72 sub divide { subroutine
|
| /third_party/ffmpeg/libavfilter/ |
| H A D | vf_signature.c | 93 sc->divide = (((uint64_t) inlink->w/32) * (inlink->w/32 + 1) * (inlink->h/32 * inlink->h/32 + 1) > INT64_MAX / (BLOCK_LCM * 255)); in config_input()
94 if (sc->divide) { in config_input()
176 int64_t precfactor = (sc->divide) ? 65536 : BLOCK_LCM; in filter_frame()
222 denom = (sc->divide) ? dh1 * (int64_t)dh2 * dw1 * dw2 : 1; in filter_frame()
248 denom = (sc->divide) ? 1 : dh1 * (int64_t)dh2 * dw1 * dw2; in filter_frame()
|
| /kernel/linux/linux-5.10/sound/pci/ |
| H A D | es1968.c | 800 int divide; in snd_es1968_bob_start() local
809 divide = 1; in snd_es1968_bob_start()
810 while ((prescale > 5) && (divide < 32)) { in snd_es1968_bob_start()
812 divide <<= 1; in snd_es1968_bob_start()
814 divide >>= 1; in snd_es1968_bob_start()
817 for (; divide < 31; divide++) in snd_es1968_bob_start()
819 ((ESS_SYSCLK >> (prescale + 9)) / (divide + 1))) break; in snd_es1968_bob_start()
821 /* divide = 0 is illegal, but don't let prescale = 4! */ in snd_es1968_bob_start()
822 if (divide in snd_es1968_bob_start()
[all...] |
| /kernel/linux/linux-6.6/sound/pci/ |
| H A D | es1968.c | 796 int divide; in snd_es1968_bob_start() local
805 divide = 1; in snd_es1968_bob_start()
806 while ((prescale > 5) && (divide < 32)) { in snd_es1968_bob_start()
808 divide <<= 1; in snd_es1968_bob_start()
810 divide >>= 1; in snd_es1968_bob_start()
813 for (; divide < 31; divide++) in snd_es1968_bob_start()
815 ((ESS_SYSCLK >> (prescale + 9)) / (divide + 1))) break; in snd_es1968_bob_start()
817 /* divide = 0 is illegal, but don't let prescale = 4! */ in snd_es1968_bob_start()
818 if (divide in snd_es1968_bob_start()
[all...] |
| /third_party/icu/icu4j/perf-tests/perldriver/ |
| H A D | Output.pm | 365 $ratio = $ratio->divide($perOperation);
382 $ratio = $ratio->divide($perOperation);
|
| /third_party/icu/icu4c/source/test/perf/perldriver/ |
| H A D | Output.pm | 365 $ratio = $ratio->divide($perOperation);
382 $ratio = $ratio->divide($perOperation);
|
| /third_party/skia/third_party/externals/swiftshader/third_party/llvm-10.0/llvm/include/llvm/ADT/ |
| H A D | APFloat.h | 71 /// multiply, divide, fused-multiply-add, conversion-to-float,
273 opStatus divide(const IEEEFloat &, roundingMode);
631 opStatus divide(const DoubleAPFloat &RHS, roundingMode RM);
988 opStatus divide(const APFloat &RHS, roundingMode RM) { in divide() function in llvm::APFloat
992 return U.IEEE.divide(RHS.U.IEEE, RM); in divide()
994 return U.Double.divide(RHS.U.Double, RM); in divide()
1066 (void)Result.divide(RHS, rmNearestTiesToEven); in operator /()
|
| /kernel/linux/linux-5.10/arch/m68k/ifpsp060/src/ |
| H A D | ilsp.S | 68 # 64-bit divide instruction. #
85 # sign info for later. Separate out special cases like divide-by-zero #
90 # zero, then perform a divide-by-zero using a 16-bit implemented #
91 # divide instruction. This way, the operating system can record that #
141 # separate signed and unsigned divide
143 beq.b ldspecialcases # use positive divide
174 bls.b ld32bitdivide # yes, so use 32 bit divide
177 bra.w ldivfinish # can't divide, we're done.
190 # perform the divide algorithm:
191 bsr.l ldclassical # do int divide
[all...] |
| /kernel/linux/linux-6.6/arch/m68k/ifpsp060/src/ |
| H A D | ilsp.S | 68 # 64-bit divide instruction. #
85 # sign info for later. Separate out special cases like divide-by-zero #
90 # zero, then perform a divide-by-zero using a 16-bit implemented #
91 # divide instruction. This way, the operating system can record that #
141 # separate signed and unsigned divide
143 beq.b ldspecialcases # use positive divide
174 bls.b ld32bitdivide # yes, so use 32 bit divide
177 bra.w ldivfinish # can't divide, we're done.
190 # perform the divide algorithm:
191 bsr.l ldclassical # do int divide
[all...] |
| /third_party/skia/third_party/externals/swiftshader/third_party/llvm-subzero/include/llvm/ADT/ |
| H A D | APFloat.h | 61 /// multiply, divide, fused-multiply-add, conversion-to-float,
248 opStatus divide(const IEEEFloat &, roundingMode);
286 Result.divide(RHS, rmNearestTiesToEven); in operator /()
942 opStatus divide(const APFloat &RHS, roundingMode RM) { in divide() function in llvm::APFloat
943 return getIEEE().divide(RHS.getIEEE(), RM); in divide()
|
| /kernel/linux/linux-5.10/arch/c6x/lib/ |
| H A D | divi.S | 8 ;; ABI considerations for the divide functions
|
| H A D | remi.S | 8 ;; ABI considerations for the divide functions
|
| /kernel/linux/linux-5.10/arch/alpha/lib/ |
| H A D | Makefile | 45 $(src)/$(ev6-y)divide.S FORCE
|