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-rw-r--r--absl/random/internal/fast_uniform_bits.h52
-rw-r--r--absl/random/internal/fast_uniform_bits_test.cc155
2 files changed, 17 insertions, 190 deletions
diff --git a/absl/random/internal/fast_uniform_bits.h b/absl/random/internal/fast_uniform_bits.h
index 23eabbc8444c..184a2708b2af 100644
--- a/absl/random/internal/fast_uniform_bits.h
+++ b/absl/random/internal/fast_uniform_bits.h
@@ -38,14 +38,12 @@ constexpr typename URBG::result_type constexpr_range() {
 // from a type which conforms to the [rand.req.urbg] concept.
 // Parameterized by:
 //  `UIntType`: the result (output) type
-//  `Width`: binary output width
 //
 // The std::independent_bits_engine [rand.adapt.ibits] adaptor can be
 // instantiated from an existing generator through a copy or a move. It does
 // not, however, facilitate the production of pseudorandom bits from an un-owned
 // generator that will outlive the std::independent_bits_engine instance.
-template <typename UIntType = uint64_t,
-          size_t Width = std::numeric_limits<UIntType>::digits>
+template <typename UIntType = uint64_t>
 class FastUniformBits {
   static_assert(std::is_unsigned<UIntType>::value,
                 "Class-template FastUniformBits<> must be parameterized using "
@@ -53,29 +51,14 @@ class FastUniformBits {
 
   // `kWidth` is the width, in binary digits, of the output. By default it is
   // the number of binary digits in the `result_type`.
-  static constexpr size_t kWidth = Width;
-  static_assert(kWidth > 0,
-                "Class-template FastUniformBits<> Width argument must be > 0");
-
-  static_assert(kWidth <= std::numeric_limits<UIntType>::digits,
-                "Class-template FastUniformBits<> Width argument must be <= "
-                "width of UIntType.");
-
-  static constexpr bool kIsMaxWidth =
-      (kWidth >= std::numeric_limits<UIntType>::digits);
-
-  // Computes a mask of `n` bits for the `UIntType`.
-  static constexpr UIntType constexpr_mask(size_t n) {
-    return (UIntType(1) << n) - 1;
-  }
+  static constexpr size_t kWidth = std::numeric_limits<UIntType>::digits;
 
  public:
   using result_type = UIntType;
 
   static constexpr result_type(min)() { return 0; }
   static constexpr result_type(max)() {
-    return kIsMaxWidth ? (std::numeric_limits<result_type>::max)()
-                       : constexpr_mask(kWidth);
+    return (std::numeric_limits<result_type>::max)();
   }
 
   template <typename URBG>
@@ -166,7 +149,6 @@ class FastUniformBitsURBGConstants {
 // URBG::result_type values are combined into an output_value.
 // Parameterized by the FastUniformBits parameters:
 //  `UIntType`: output type.
-//  `Width`: binary output width,
 //  `URNG`: The underlying UniformRandomNumberGenerator.
 //
 // The looping constants describe the sets of loop counters and mask values
@@ -177,10 +159,10 @@ class FastUniformBitsURBGConstants {
 // bit per variate.
 //
 // See [rand.adapt.ibits] for more details on the use of these constants.
-template <typename UIntType, size_t Width, typename URBG>
+template <typename UIntType, typename URBG>
 class FastUniformBitsLoopingConstants {
  private:
-  static constexpr size_t kWidth = Width;
+  static constexpr size_t kWidth = std::numeric_limits<UIntType>::digits;
   using urbg_result_type = typename URBG::result_type;
   using uint_result_type = UIntType;
 
@@ -229,19 +211,19 @@ class FastUniformBitsLoopingConstants {
       "Class-template FastUniformBitsLoopingConstants::kW0 too small.");
 };
 
-template <typename UIntType, size_t Width>
+template <typename UIntType>
 template <typename URBG>
-typename FastUniformBits<UIntType, Width>::result_type
-FastUniformBits<UIntType, Width>::operator()(
+typename FastUniformBits<UIntType>::result_type
+FastUniformBits<UIntType>::operator()(
     URBG& g) {  // NOLINT(runtime/references)
   using constants = FastUniformBitsURBGConstants<URBG>;
   return Generate(
       g, std::integral_constant<bool, constants::kRangeMask >= (max)()>{});
 }
 
-template <typename UIntType, size_t Width>
+template <typename UIntType>
 template <typename URBG>
-typename URBG::result_type FastUniformBits<UIntType, Width>::Variate(
+typename URBG::result_type FastUniformBits<UIntType>::Variate(
     URBG& g) {  // NOLINT(runtime/references)
   using constants = FastUniformBitsURBGConstants<URBG>;
   if (constants::kPowerOfTwo) {
@@ -256,10 +238,10 @@ typename URBG::result_type FastUniformBits<UIntType, Width>::Variate(
   return u;
 }
 
-template <typename UIntType, size_t Width>
+template <typename UIntType>
 template <typename URBG>
-typename FastUniformBits<UIntType, Width>::result_type
-FastUniformBits<UIntType, Width>::Generate(
+typename FastUniformBits<UIntType>::result_type
+FastUniformBits<UIntType>::Generate(
     URBG& g,  // NOLINT(runtime/references)
     std::true_type /* avoid_looping */) {
   // The width of the result_type is less than than the width of the random bits
@@ -268,10 +250,10 @@ FastUniformBits<UIntType, Width>::Generate(
   return Variate(g) & (max)();
 }
 
-template <typename UIntType, size_t Width>
+template <typename UIntType>
 template <typename URBG>
-typename FastUniformBits<UIntType, Width>::result_type
-FastUniformBits<UIntType, Width>::Generate(
+typename FastUniformBits<UIntType>::result_type
+FastUniformBits<UIntType>::Generate(
     URBG& g,  // NOLINT(runtime/references)
     std::false_type /* avoid_looping */) {
   // The width of the result_type is wider than the number of random bits
@@ -279,7 +261,7 @@ FastUniformBits<UIntType, Width>::Generate(
   // using a shift and mask.  The constants type generates the parameters used
   // ensure that the bits are distributed across all the invocations of the
   // underlying URNG.
-  using constants = FastUniformBitsLoopingConstants<UIntType, Width, URBG>;
+  using constants = FastUniformBitsLoopingConstants<UIntType, URBG>;
 
   result_type s = 0;
   for (size_t n = 0; n < constants::kN0; ++n) {
diff --git a/absl/random/internal/fast_uniform_bits_test.cc b/absl/random/internal/fast_uniform_bits_test.cc
index f4b9cd5fcc6d..183779445a52 100644
--- a/absl/random/internal/fast_uniform_bits_test.cc
+++ b/absl/random/internal/fast_uniform_bits_test.cc
@@ -45,57 +45,6 @@ TYPED_TEST(FastUniformBitsTypedTest, BasicTest) {
   }
 }
 
-TEST(FastUniformBitsTest, TypeBoundaries32) {
-  // Tests that FastUniformBits can adapt to 32-bit boundaries.
-  absl::random_internal::FastUniformBits<uint32_t, 1> a;
-  absl::random_internal::FastUniformBits<uint32_t, 31> b;
-  absl::random_internal::FastUniformBits<uint32_t, 32> c;
-
-  {
-    std::mt19937 gen;  // 32-bit
-    a(gen);
-    b(gen);
-    c(gen);
-  }
-
-  {
-    std::mt19937_64 gen;  // 64-bit
-    a(gen);
-    b(gen);
-    c(gen);
-  }
-}
-
-TEST(FastUniformBitsTest, TypeBoundaries64) {
-  // Tests that FastUniformBits can adapt to 64-bit boundaries.
-  absl::random_internal::FastUniformBits<uint64_t, 1> a;
-  absl::random_internal::FastUniformBits<uint64_t, 31> b;
-  absl::random_internal::FastUniformBits<uint64_t, 32> c;
-  absl::random_internal::FastUniformBits<uint64_t, 33> d;
-  absl::random_internal::FastUniformBits<uint64_t, 63> e;
-  absl::random_internal::FastUniformBits<uint64_t, 64> f;
-
-  {
-    std::mt19937 gen;  // 32-bit
-    a(gen);
-    b(gen);
-    c(gen);
-    d(gen);
-    e(gen);
-    f(gen);
-  }
-
-  {
-    std::mt19937_64 gen;  // 64-bit
-    a(gen);
-    b(gen);
-    c(gen);
-    d(gen);
-    e(gen);
-    f(gen);
-  }
-}
-
 class UrngOddbits {
  public:
   using result_type = uint8_t;
@@ -135,18 +84,6 @@ TEST(FastUniformBitsTest, FastUniformBitsDetails) {
     static_assert(constants::kRangeMask == 0x0f,
                   "constants::kRangeMask == false");
   }
-  {
-    using looping = FastUniformBitsLoopingConstants<uint32_t, 31, Urng4bits>;
-    // To get 31 bits from a 4-bit generator, issue 8 calls and extract 4 bits
-    // per call on all except the first.
-    static_assert(looping::kN0 == 1, "looping::kN0");
-    static_assert(looping::kW0 == 3, "looping::kW0");
-    static_assert(looping::kM0 == 0x7, "looping::kM0");
-    // (The second set of calls, kN1, will not do anything.)
-    static_assert(looping::kN1 == 8, "looping::kN1");
-    static_assert(looping::kW1 == 4, "looping::kW1");
-    static_assert(looping::kM1 == 0xf, "looping::kM1");
-  }
 
   // ~7-bit URBG
   {
@@ -158,31 +95,6 @@ TEST(FastUniformBitsTest, FastUniformBitsDetails) {
     static_assert(constants::kRangeMask == 0x7f,
                   "constants::kRangeMask == 0x7f");
   }
-  {
-    using looping = FastUniformBitsLoopingConstants<uint64_t, 60, UrngOddbits>;
-    // To get 60 bits from a 7-bit generator, issue 10 calls and extract 6 bits
-    // per call, discarding the excess entropy.
-    static_assert(looping::kN0 == 10, "looping::kN0");
-    static_assert(looping::kW0 == 6, "looping::kW0");
-    static_assert(looping::kM0 == 0x3f, "looping::kM0");
-    // (The second set of calls, kN1, will not do anything.)
-    static_assert(looping::kN1 == 10, "looping::kN1");
-    static_assert(looping::kW1 == 7, "looping::kW1");
-    static_assert(looping::kM1 == 0x7f, "looping::kM1");
-  }
-  {
-    using looping = FastUniformBitsLoopingConstants<uint64_t, 63, UrngOddbits>;
-    // To get 63 bits from a 7-bit generator, issue 10 calls--the same as we
-    // would issue for 60 bits--however this time we use two groups.  The first
-    // group (kN0) will issue 7 calls, extracting 6 bits per call.
-    static_assert(looping::kN0 == 7, "looping::kN0");
-    static_assert(looping::kW0 == 6, "looping::kW0");
-    static_assert(looping::kM0 == 0x3f, "looping::kM0");
-    // The second group (kN1) will issue 3 calls, extracting 7 bits per call.
-    static_assert(looping::kN1 == 10, "looping::kN1");
-    static_assert(looping::kW1 == 7, "looping::kW1");
-    static_assert(looping::kM1 == 0x7f, "looping::kM1");
-  }
 }
 
 TEST(FastUniformBitsTest, Urng4_VariousOutputs) {
@@ -193,33 +105,6 @@ TEST(FastUniformBitsTest, Urng4_VariousOutputs) {
 
   // 8-bit types
   {
-    absl::random_internal::FastUniformBits<uint8_t, 1> fast1;
-    EXPECT_EQ(0x1, fast1(urng4));
-    EXPECT_EQ(0x1, fast1(urng32));
-  }
-  {
-    absl::random_internal::FastUniformBits<uint8_t, 2> fast2;
-    EXPECT_EQ(0x1, fast2(urng4));
-    EXPECT_EQ(0x1, fast2(urng32));
-  }
-
-  {
-    absl::random_internal::FastUniformBits<uint8_t, 4> fast4;
-    EXPECT_EQ(0x1, fast4(urng4));
-    EXPECT_EQ(0x1, fast4(urng32));
-  }
-  {
-    absl::random_internal::FastUniformBits<uint8_t, 6> fast6;
-    EXPECT_EQ(0x9, fast6(urng4));  // b001001 (2x3)
-    EXPECT_EQ(0x1, fast6(urng32));
-  }
-  {
-    absl::random_internal::FastUniformBits<uint8_t, 6> fast7;
-    EXPECT_EQ(0x9, fast7(urng4));  // b00001001 (1x4 + 1x3)
-    EXPECT_EQ(0x1, fast7(urng32));
-  }
-
-  {
     absl::random_internal::FastUniformBits<uint8_t> fast8;
     EXPECT_EQ(0x11, fast8(urng4));
     EXPECT_EQ(0x1, fast8(urng32));
@@ -227,22 +112,6 @@ TEST(FastUniformBitsTest, Urng4_VariousOutputs) {
 
   // 16-bit types
   {
-    absl::random_internal::FastUniformBits<uint16_t, 10> fast10;
-    EXPECT_EQ(0x91, fast10(urng4));  // b 0010010001 (2x3 + 1x4)
-    EXPECT_EQ(0x1, fast10(urng32));
-  }
-  {
-    absl::random_internal::FastUniformBits<uint16_t, 11> fast11;
-    EXPECT_EQ(0x111, fast11(urng4));
-    EXPECT_EQ(0x1, fast11(urng32));
-  }
-  {
-    absl::random_internal::FastUniformBits<uint16_t, 12> fast12;
-    EXPECT_EQ(0x111, fast12(urng4));
-    EXPECT_EQ(0x1, fast12(urng32));
-  }
-
-  {
     absl::random_internal::FastUniformBits<uint16_t> fast16;
     EXPECT_EQ(0x1111, fast16(urng4));
     EXPECT_EQ(0x1, fast16(urng32));
@@ -250,17 +119,6 @@ TEST(FastUniformBitsTest, Urng4_VariousOutputs) {
 
   // 32-bit types
   {
-    absl::random_internal::FastUniformBits<uint32_t, 21> fast21;
-    EXPECT_EQ(0x49111, fast21(urng4));  // b 001001001 000100010001 (3x3 + 3x4)
-    EXPECT_EQ(0x1, fast21(urng32));
-  }
-  {
-    absl::random_internal::FastUniformBits<uint32_t, 24> fast24;
-    EXPECT_EQ(0x111111, fast24(urng4));
-    EXPECT_EQ(0x1, fast24(urng32));
-  }
-
-  {
     absl::random_internal::FastUniformBits<uint32_t> fast32;
     EXPECT_EQ(0x11111111, fast32(urng4));
     EXPECT_EQ(0x1, fast32(urng32));
@@ -268,19 +126,6 @@ TEST(FastUniformBitsTest, Urng4_VariousOutputs) {
 
   // 64-bit types
   {
-    absl::random_internal::FastUniformBits<uint64_t, 5> fast5;
-    EXPECT_EQ(0x9, fast5(urng4));
-    EXPECT_EQ(0x1, fast5(urng32));
-  }
-
-  {
-    absl::random_internal::FastUniformBits<uint64_t, 48> fast48;
-    EXPECT_EQ(0x111111111111, fast48(urng4));
-    // computes in 2 steps, should be 24 << 24
-    EXPECT_EQ(0x000001000001, fast48(urng32));
-  }
-
-  {
     absl::random_internal::FastUniformBits<uint64_t> fast64;
     EXPECT_EQ(0x1111111111111111, fast64(urng4));
     EXPECT_EQ(0x0000000100000001, fast64(urng32));