/external/webrtc/system_wrappers/include/ |
D | ntp_time.h | 26 NtpTime(uint32_t seconds, uint32_t fractions) in NtpTime() argument 27 : value_(seconds * kFractionsPerSecond + fractions) {} in NtpTime() 33 void Set(uint32_t seconds, uint32_t fractions) { in Set() argument 34 value_ = seconds * kFractionsPerSecond + fractions; in Set() 40 const double frac_ms = static_cast<double>(fractions()) / kNtpFracPerMs; in ToMs() 50 uint32_t fractions() const { in fractions() function
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D | clock.h | 49 static int64_t NtpToMs(uint32_t seconds, uint32_t fractions) { in NtpToMs() argument 50 return NtpTime(seconds, fractions).ToMs(); in NtpToMs()
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/external/python/cpython3/Lib/test/test_asyncio/ |
D | test_context.py | 14 async def fractions(t, precision, x, y): function 24 fractions(0.1, 3, 1, 3), fractions(0.2, 6, 1, 3))
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/external/icu/icu4j/main/classes/core/src/com/ibm/icu/impl/units/ |
D | UnitConverter.java | 133 String[] fractions = factor.split("/"); in processFactor() local 134 assert (fractions.length == 1 || fractions.length == 2); in processFactor() 136 if (fractions.length == 1) { in processFactor() 137 return processFactorWithoutDivision(fractions[0]); in processFactor() 140 Factor num = processFactorWithoutDivision(fractions[0]); in processFactor() 141 Factor den = processFactorWithoutDivision(fractions[1]); in processFactor()
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/external/icu/android_icu4j/src/main/java/android/icu/impl/units/ |
D | UnitConverter.java | 140 String[] fractions = factor.split("/"); in processFactor() local 141 assert (fractions.length == 1 || fractions.length == 2); in processFactor() 143 if (fractions.length == 1) { in processFactor() 144 return processFactorWithoutDivision(fractions[0]); in processFactor() 147 Factor num = processFactorWithoutDivision(fractions[0]); in processFactor() 148 Factor den = processFactorWithoutDivision(fractions[1]); in processFactor()
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/external/tensorflow/tensorflow/lite/micro/examples/magic_wand/train/ |
D | data_augmentation.py | 65 fractions = [(3, 2), (5, 3), (2, 3), (3, 4), (9, 5), (6, 5), (4, 5)] 66 for molecule, denominator in fractions: 70 for molecule, denominator in fractions:
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/external/python/cpython2/Doc/library/ |
D | fractions.rst | 1 :mod:`fractions` --- Rational numbers 4 .. module:: fractions 10 **Source code:** :source:`Lib/fractions.py` 14 The :mod:`fractions` module provides support for rational number arithmetic. 51 >>> from fractions import Fraction 114 >>> from fractions import Fraction
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D | numeric.rst | 24 fractions.rst
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/external/webrtc/system_wrappers/source/ |
D | clock.cc | 52 uint32_t fractions = static_cast<uint32_t>( in CurrentNtpTime() local 54 return NtpTime(seconds, fractions); in CurrentNtpTime() 257 uint32_t fractions = in CurrentNtpTime() local 259 return NtpTime(seconds, fractions); in CurrentNtpTime()
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D | ntp_time_unittest.cc | 43 EXPECT_EQ(kNtpFrac, ntp.fractions()); in TEST() 59 EXPECT_EQ(ntp.ToMs(), Clock::NtpToMs(ntp.seconds(), ntp.fractions())); in TEST()
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/external/python/cpython3/Doc/library/ |
D | fractions.rst | 1 :mod:`fractions` --- Rational numbers 4 .. module:: fractions 10 **Source code:** :source:`Lib/fractions.py` 14 The :mod:`fractions` module provides support for rational number arithmetic. 51 >>> from fractions import Fraction 138 >>> from fractions import Fraction
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D | numeric.rst | 24 fractions.rst
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/external/tensorflow/tensorflow/python/ops/signal/ |
D | util_ops.py | 21 import fractions # gcd is here for Python versions < 3 65 math_gcd = fractions.gcd
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/external/python/cpython3/Doc/tutorial/ |
D | floatingpoint.rst | 15 fractions. For example, the decimal fraction :: 23 has value 0/2 + 0/4 + 1/8. These two fractions have identical values, the only 27 Unfortunately, most decimal fractions cannot be represented exactly as binary 28 fractions. A consequence is that, in general, the decimal floating-point 156 Another form of exact arithmetic is supported by the :mod:`fractions` module 216 decimal fractions cannot be represented exactly as binary (base 2) fractions. 284 The :mod:`fractions` and :mod:`decimal` modules make these calculations 288 >>> from fractions import Fraction
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/external/webrtc/api/video_codecs/ |
D | video_encoder.cc | 139 const absl::InlinedVector<uint8_t, kMaxTemporalStreams>& fractions = in ToString() local 141 if (!fractions.empty()) { in ToString() 144 for (size_t i = 0; i < fractions.size(); ++i) { in ToString() 148 oss << (static_cast<double>(fractions[i]) / kMaxFramerateFraction); in ToString()
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/external/autotest/site_utils/ |
D | cloud_console.proto | 22 // or calendar, represented as seconds and fractions of seconds at 27 // Non-negative fractions of a second at nanosecond resolution.
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/external/webrtc/modules/rtp_rtcp/source/ |
D | remote_ntp_time_estimator_unittest.cc | 55 ReceiveRtcpSr(kTestRtt, rtcp_timestamp, ntp.seconds(), ntp.fractions()); in SendRtcpSr() 67 ReceiveRtcpSr(kTestRtt, rtcp_timestamp, ntp.seconds(), ntp.fractions()); in SendRtcpSrInaccurately()
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D | time_util.h | 43 return (ntp.seconds() << 16) | (ntp.fractions() >> 16); in CompactNtp()
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/external/python/cpython2/Doc/tutorial/ |
D | floatingpoint.rst | 11 fractions. For example, the decimal fraction :: 19 has value 0/2 + 0/4 + 1/8. These two fractions have identical values, the only 23 Unfortunately, most decimal fractions cannot be represented exactly as binary 24 fractions. A consequence is that, in general, the decimal floating-point 157 decimal fractions cannot be represented exactly as binary (base 2) fractions.
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/external/webrtc/video/ |
D | stream_synchronization_unittest.cc | 57 ntp_time.seconds(), ntp_time.fractions(), rtp_timestamp, &new_sr)); in DelayedStreams() 63 ntp_time.seconds(), ntp_time.fractions(), rtp_timestamp, &new_sr)); in DelayedStreams() 69 ntp_time.seconds(), ntp_time.fractions(), rtp_timestamp, &new_sr)); in DelayedStreams() 75 ntp_time.seconds(), ntp_time.fractions(), rtp_timestamp, &new_sr)); in DelayedStreams()
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/external/fonttools/Tests/mtiLib/data/mti/ |
D | gsubsingle.txt | 3 lookup alt-fractions single
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/external/freetype/src/autofit/ |
D | afcover.h | 53 COVERAGE( fractions, FRACTIONS,
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/external/webrtc/modules/rtp_rtcp/source/rtcp_packet/ |
D | rrtr.cc | 45 ByteWriter<uint32_t>::WriteBigEndian(&buffer[8], ntp_.fractions()); in Create()
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D | rrtr_unittest.cc | 46 EXPECT_EQ(kNtpFrac, parsed.ntp().fractions()); in TEST()
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/external/protobuf/src/google/protobuf/ |
D | timestamp.proto | 44 // calendar, encoded as a count of seconds and fractions of seconds at 133 // Non-negative fractions of a second at nanosecond resolution. Negative 134 // second values with fractions must still have non-negative nanos values
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