Quelle frequency_unittest.cc Sprache: C

/*
*  Copyright (c) 2019 The WebRTC project authors. All Rights Reserved.
*
*  Use of this source code is governed by a BSD-style license
*  that can be found in the LICENSE file in the root of the source
*  tree. An additional intellectual property rights grant can be found
*  in the file PATENTS.  All contributing project authors may
*  be found in the AUTHORS file in the root of the source tree.
*/
#include "api/units/frequency.h"

#include <cstdint>

#include "api/units/time_delta.h"
#include "test/gtest.h"

namespace webrtc {
namespace test {
TEST(FrequencyTest, ConstExpr) {
  constexpr Frequency kFrequencyZero = Frequency::Zero();
  constexpr Frequency kFrequencyPlusInf = Frequency::PlusInfinity();
  constexpr Frequency kFrequencyMinusInf = Frequency::MinusInfinity();
  static_assert(kFrequencyZero.IsZero(), "");
  static_assert(kFrequencyPlusInf.IsPlusInfinity(), "");
  static_assert(kFrequencyMinusInf.IsMinusInfinity(), "");

  static_assert(kFrequencyPlusInf > kFrequencyZero, "");
}

TEST(FrequencyTest, GetBackSameValues) {
  const int64_t kValue = 31;
  EXPECT_EQ(Frequency::Hertz(kValue).hertz<int64_t>(), kValue);
  EXPECT_EQ(Frequency::Zero().hertz<int64_t>(), 0);
}

TEST(FrequencyTest, GetDifferentPrefix) {
  const int64_t kValue = 30000;
  EXPECT_EQ(Frequency::MilliHertz(kValue).hertz<int64_t>(), kValue / 1000);
  EXPECT_EQ(Frequency::Hertz(kValue).millihertz(), kValue * 1000);
  EXPECT_EQ(Frequency::KiloHertz(kValue).hertz(), kValue * 1000);
}

TEST(FrequencyTest, IdentityChecks) {
  const int64_t kValue = 31;
  EXPECT_TRUE(Frequency::Zero().IsZero());
  EXPECT_FALSE(Frequency::Hertz(kValue).IsZero());

  EXPECT_TRUE(Frequency::PlusInfinity().IsInfinite());
  EXPECT_TRUE(Frequency::MinusInfinity().IsInfinite());
  EXPECT_FALSE(Frequency::Zero().IsInfinite());
  EXPECT_FALSE(Frequency::Hertz(kValue).IsInfinite());

  EXPECT_FALSE(Frequency::PlusInfinity().IsFinite());
  EXPECT_FALSE(Frequency::MinusInfinity().IsFinite());
  EXPECT_TRUE(Frequency::Hertz(kValue).IsFinite());
  EXPECT_TRUE(Frequency::Zero().IsFinite());

  EXPECT_TRUE(Frequency::PlusInfinity().IsPlusInfinity());
  EXPECT_FALSE(Frequency::MinusInfinity().IsPlusInfinity());

  EXPECT_TRUE(Frequency::MinusInfinity().IsMinusInfinity());
  EXPECT_FALSE(Frequency::PlusInfinity().IsMinusInfinity());
}

TEST(FrequencyTest, ComparisonOperators) {
  const int64_t kSmall = 42;
  const int64_t kLarge = 45;
  const Frequency small = Frequency::Hertz(kSmall);
  const Frequency large = Frequency::Hertz(kLarge);

  EXPECT_EQ(Frequency::Zero(), Frequency::Hertz(0));
  EXPECT_EQ(Frequency::PlusInfinity(), Frequency::PlusInfinity());
  EXPECT_EQ(small, Frequency::Hertz(kSmall));
  EXPECT_LE(small, Frequency::Hertz(kSmall));
  EXPECT_GE(small, Frequency::Hertz(kSmall));
  EXPECT_NE(small, Frequency::Hertz(kLarge));
  EXPECT_LE(small, Frequency::Hertz(kLarge));
  EXPECT_LT(small, Frequency::Hertz(kLarge));
  EXPECT_GE(large, Frequency::Hertz(kSmall));
  EXPECT_GT(large, Frequency::Hertz(kSmall));
  EXPECT_LT(Frequency::Zero(), small);

  EXPECT_GT(Frequency::PlusInfinity(), large);
  EXPECT_LT(Frequency::MinusInfinity(), Frequency::Zero());
}

TEST(FrequencyTest, Clamping) {
  const Frequency upper = Frequency::Hertz(800);
  const Frequency lower = Frequency::Hertz(100);
  const Frequency under = Frequency::Hertz(100);
  const Frequency inside = Frequency::Hertz(500);
  const Frequency over = Frequency::Hertz(1000);
  EXPECT_EQ(under.Clamped(lower, upper), lower);
  EXPECT_EQ(inside.Clamped(lower, upper), inside);
  EXPECT_EQ(over.Clamped(lower, upper), upper);

  Frequency mutable_frequency = lower;
  mutable_frequency.Clamp(lower, upper);
  EXPECT_EQ(mutable_frequency, lower);
  mutable_frequency = inside;
  mutable_frequency.Clamp(lower, upper);
  EXPECT_EQ(mutable_frequency, inside);
  mutable_frequency = over;
  mutable_frequency.Clamp(lower, upper);
  EXPECT_EQ(mutable_frequency, upper);
}

TEST(FrequencyTest, MathOperations) {
  const int64_t kValueA = 457;
  const int64_t kValueB = 260;
  const Frequency frequency_a = Frequency::Hertz(kValueA);
  const Frequency frequency_b = Frequency::Hertz(kValueB);
  EXPECT_EQ((frequency_a + frequency_b).hertz<int64_t>(), kValueA + kValueB);
  EXPECT_EQ((frequency_a - frequency_b).hertz<int64_t>(), kValueA - kValueB);

  EXPECT_EQ((Frequency::Hertz(kValueA) * kValueB).hertz<int64_t>(),
            kValueA * kValueB);

  EXPECT_EQ((frequency_b / 10).hertz<int64_t>(), kValueB / 10);
  EXPECT_EQ(frequency_b / frequency_a, static_cast<double>(kValueB) / kValueA);

  Frequency mutable_frequency = Frequency::Hertz(kValueA);
  mutable_frequency += Frequency::Hertz(kValueB);
  EXPECT_EQ(mutable_frequency, Frequency::Hertz(kValueA + kValueB));
  mutable_frequency -= Frequency::Hertz(kValueB);
  EXPECT_EQ(mutable_frequency, Frequency::Hertz(kValueA));
}
TEST(FrequencyTest, Rounding) {
  const Frequency freq_high = Frequency::Hertz(23.976);
  EXPECT_EQ(freq_high.hertz(), 24);
  EXPECT_EQ(freq_high.RoundDownTo(Frequency::Hertz(1)), Frequency::Hertz(23));
  EXPECT_EQ(freq_high.RoundTo(Frequency::Hertz(1)), Frequency::Hertz(24));
  EXPECT_EQ(freq_high.RoundUpTo(Frequency::Hertz(1)), Frequency::Hertz(24));

  const Frequency freq_low = Frequency::Hertz(23.4);
  EXPECT_EQ(freq_low.hertz(), 23);
  EXPECT_EQ(freq_low.RoundDownTo(Frequency::Hertz(1)), Frequency::Hertz(23));
  EXPECT_EQ(freq_low.RoundTo(Frequency::Hertz(1)), Frequency::Hertz(23));
  EXPECT_EQ(freq_low.RoundUpTo(Frequency::Hertz(1)), Frequency::Hertz(24));
}

TEST(FrequencyTest, InfinityOperations) {
  const double kValue = 267;
  const Frequency finite = Frequency::Hertz(kValue);
  EXPECT_TRUE((Frequency::PlusInfinity() + finite).IsPlusInfinity());
  EXPECT_TRUE((Frequency::PlusInfinity() - finite).IsPlusInfinity());
  EXPECT_TRUE((finite + Frequency::PlusInfinity()).IsPlusInfinity());
  EXPECT_TRUE((finite - Frequency::MinusInfinity()).IsPlusInfinity());

  EXPECT_TRUE((Frequency::MinusInfinity() + finite).IsMinusInfinity());
  EXPECT_TRUE((Frequency::MinusInfinity() - finite).IsMinusInfinity());
  EXPECT_TRUE((finite + Frequency::MinusInfinity()).IsMinusInfinity());
  EXPECT_TRUE((finite - Frequency::PlusInfinity()).IsMinusInfinity());
}

TEST(UnitConversionTest, TimeDeltaAndFrequency) {
  EXPECT_EQ(1 / Frequency::Hertz(50), TimeDelta::Millis(20));
  EXPECT_EQ(1 / TimeDelta::Millis(20), Frequency::Hertz(50));
  EXPECT_EQ(Frequency::KiloHertz(200) * TimeDelta::Millis(2), 400.0);
}
}  // namespace test
}  // namespace webrtc

Messung V0.5

¤ Dauer der Verarbeitung: 0.4 Sekunden ¤

Wurzel

Suchen

Beweissystem der NASA

Beweissystem Isabelle

NIST Cobol Testsuite

Cephes Mathematical Library

Wiener Entwicklungsmethode

Haftungshinweis

Die Informationen auf dieser Webseite wurden nach bestem Wissen sorgfältig zusammengestellt. Es wird jedoch weder Vollständigkeit, noch Richtigkeit, noch Qualität der bereit gestellten Informationen zugesichert.

Bemerkung:

Die farbliche Syntaxdarstellung und die Messung sind noch experimentell.