Changes imported from Abseil "staging" branch:

  - 8320b38cd9f4f271fb6b278bd1e10d93f6ac3856 Use overloads for int32/int64/uint32/uint64 rather than i... by Jorg Brown <jorg@google.com>
  - f8b582b8deb3f78a3c6de2114b3ec4640f5427dd Internal change by Juemin Yang <jueminyang@google.com>
  - 240ff55ebf493ab1233ebe6976853a5fa2b3ec46 Remove the internal LowLevelAlloc's dependence on kLinker... by Greg Falcon <gfalcon@google.com>

GitOrigin-RevId: 8320b38cd9f4f271fb6b278bd1e10d93f6ac3856
Change-Id: If5004efa2b43856948390ab357b8e9403e4461b4

3 files changed, 79 insertions, 49 deletions

diff --git a/absl/strings/numbers.cc b/absl/strings/numbers.cc
index ac73f53..31f07c7 100644
--- a/absl/strings/numbers.cc
+++ b/absl/strings/numbers.cc
@@ -135,16 +135,12 @@ bool SimpleAtob(absl::string_view str, bool* value) {
 }
 
 // ----------------------------------------------------------------------
-// FastInt32ToBuffer()
-// FastUInt32ToBuffer()
-// FastInt64ToBuffer()
-// FastUInt64ToBuffer()
+// FastIntToBuffer() overloads
 //
 // Like the Fast*ToBuffer() functions above, these are intended for speed.
 // Unlike the Fast*ToBuffer() functions, however, these functions write
-// their output to the beginning of the buffer (hence the name, as the
-// output is left-aligned).  The caller is responsible for ensuring that
-// the buffer has enough space to hold the output.
+// their output to the beginning of the buffer.  The caller is responsible
+// for ensuring that the buffer has enough space to hold the output.
 //
 // Returns a pointer to the end of the std::string (i.e. the null character
 // terminating the std::string).
@@ -160,7 +156,7 @@ const char one_ASCII_final_digits[10][2] {
 
 }  // namespace
 
-char* numbers_internal::FastUInt32ToBuffer(uint32_t i, char* buffer) {
+char* numbers_internal::FastIntToBuffer(uint32_t i, char* buffer) {
   uint32_t digits;
   // The idea of this implementation is to trim the number of divides to as few
   // as possible, and also reducing memory stores and branches, by going in
@@ -230,7 +226,7 @@ char* numbers_internal::FastUInt32ToBuffer(uint32_t i, char* buffer) {
   goto lt100_000_000;
 }
 
-char* numbers_internal::FastInt32ToBuffer(int32_t i, char* buffer) {
+char* numbers_internal::FastIntToBuffer(int32_t i, char* buffer) {
   uint32_t u = i;
   if (i < 0) {
     *buffer++ = '-';
@@ -239,12 +235,12 @@ char* numbers_internal::FastInt32ToBuffer(int32_t i, char* buffer) {
     // we write the equivalent expression "0 - u" instead.
     u = 0 - u;
   }
-  return numbers_internal::FastUInt32ToBuffer(u, buffer);
+  return numbers_internal::FastIntToBuffer(u, buffer);
 }
 
-char* numbers_internal::FastUInt64ToBuffer(uint64_t i, char* buffer) {
+char* numbers_internal::FastIntToBuffer(uint64_t i, char* buffer) {
   uint32_t u32 = static_cast<uint32_t>(i);
-  if (u32 == i) return numbers_internal::FastUInt32ToBuffer(u32, buffer);
+  if (u32 == i) return numbers_internal::FastIntToBuffer(u32, buffer);
 
   // Here we know i has at least 10 decimal digits.
   uint64_t top_1to11 = i / 1000000000;
@@ -252,12 +248,12 @@ char* numbers_internal::FastUInt64ToBuffer(uint64_t i, char* buffer) {
   uint32_t top_1to11_32 = static_cast<uint32_t>(top_1to11);
 
   if (top_1to11_32 == top_1to11) {
-    buffer = numbers_internal::FastUInt32ToBuffer(top_1to11_32, buffer);
+    buffer = numbers_internal::FastIntToBuffer(top_1to11_32, buffer);
   } else {
     // top_1to11 has more than 32 bits too; print it in two steps.
     uint32_t top_8to9 = static_cast<uint32_t>(top_1to11 / 100);
     uint32_t mid_2 = static_cast<uint32_t>(top_1to11 - top_8to9 * 100);
-    buffer = numbers_internal::FastUInt32ToBuffer(top_8to9, buffer);
+    buffer = numbers_internal::FastIntToBuffer(top_8to9, buffer);
     PutTwoDigits(mid_2, buffer);
     buffer += 2;
   }
@@ -283,13 +279,13 @@ char* numbers_internal::FastUInt64ToBuffer(uint64_t i, char* buffer) {
   return buffer + 1;
 }
 
-char* numbers_internal::FastInt64ToBuffer(int64_t i, char* buffer) {
+char* numbers_internal::FastIntToBuffer(int64_t i, char* buffer) {
   uint64_t u = i;
   if (i < 0) {
     *buffer++ = '-';
     u = 0 - u;
   }
-  return numbers_internal::FastUInt64ToBuffer(u, buffer);
+  return numbers_internal::FastIntToBuffer(u, buffer);
 }
 
 // Returns the number of leading 0 bits in a 64-bit value.
diff --git a/absl/strings/numbers.h b/absl/strings/numbers.h
index 1f3bbcf..adf706a 100644
--- a/absl/strings/numbers.h
+++ b/absl/strings/numbers.h
@@ -81,14 +81,6 @@ bool safe_strto64_base(absl::string_view text, int64_t* value, int base);
 bool safe_strtou32_base(absl::string_view text, uint32_t* value, int base);
 bool safe_strtou64_base(absl::string_view text, uint64_t* value, int base);
 
-// These functions are intended for speed. All functions take an output buffer
-// as an argument and return a pointer to the last byte they wrote, which is the
-// terminating '\0'. At most `kFastToBufferSize` bytes are written.
-char* FastInt32ToBuffer(int32_t i, char* buffer);
-char* FastUInt32ToBuffer(uint32_t i, char* buffer);
-char* FastInt64ToBuffer(int64_t i, char* buffer);
-char* FastUInt64ToBuffer(uint64_t i, char* buffer);
-
 static const int kFastToBufferSize = 32;
 static const int kSixDigitsToBufferSize = 16;
 
@@ -100,6 +92,16 @@ static const int kSixDigitsToBufferSize = 16;
 // Required buffer size is `kSixDigitsToBufferSize`.
 size_t SixDigitsToBuffer(double d, char* buffer);
 
+// These functions are intended for speed. All functions take an output buffer
+// as an argument and return a pointer to the last byte they wrote, which is the
+// terminating '\0'. At most `kFastToBufferSize` bytes are written.
+char* FastIntToBuffer(int32_t, char*);
+char* FastIntToBuffer(uint32_t, char*);
+char* FastIntToBuffer(int64_t, char*);
+char* FastIntToBuffer(uint64_t, char*);
+
+// For enums and integer types that are not an exact match for the types above,
+// use templates to call the appropriate one of the four overloads above.
 template <typename int_type>
 char* FastIntToBuffer(int_type i, char* buffer) {
   static_assert(sizeof(i) <= 64 / 8,
@@ -109,15 +111,15 @@ char* FastIntToBuffer(int_type i, char* buffer) {
   // If one day something like std::is_signed<enum E> works, switch to it.
   if (static_cast<int_type>(1) - 2 < 0) {  // Signed
     if (sizeof(i) > 32 / 8) {           // 33-bit to 64-bit
-      return numbers_internal::FastInt64ToBuffer(i, buffer);
+      return FastIntToBuffer(static_cast<int64_t>(i), buffer);
     } else {  // 32-bit or less
-      return numbers_internal::FastInt32ToBuffer(i, buffer);
+      return FastIntToBuffer(static_cast<int32_t>(i), buffer);
     }
   } else {                     // Unsigned
     if (sizeof(i) > 32 / 8) {  // 33-bit to 64-bit
-      return numbers_internal::FastUInt64ToBuffer(i, buffer);
+      return FastIntToBuffer(static_cast<uint64_t>(i), buffer);
     } else {  // 32-bit or less
-      return numbers_internal::FastUInt32ToBuffer(i, buffer);
+      return FastIntToBuffer(static_cast<uint32_t>(i), buffer);
     }
   }
 }
diff --git a/absl/strings/numbers_test.cc b/absl/strings/numbers_test.cc
index ff3120f..a705255 100644
--- a/absl/strings/numbers_test.cc
+++ b/absl/strings/numbers_test.cc
@@ -110,13 +110,38 @@ TEST(ToString, PerfectDtoa) {
   }
 }
 
+template <typename integer>
+struct MyInteger {
+  integer i;
+  explicit constexpr MyInteger(integer i) : i(i) {}
+  constexpr operator integer() const { return i; }
+
+  constexpr MyInteger operator+(MyInteger other) const { return i + other.i; }
+  constexpr MyInteger operator-(MyInteger other) const { return i - other.i; }
+  constexpr MyInteger operator*(MyInteger other) const { return i * other.i; }
+  constexpr MyInteger operator/(MyInteger other) const { return i / other.i; }
+
+  constexpr bool operator<(MyInteger other) const { return i < other.i; }
+  constexpr bool operator<=(MyInteger other) const { return i <= other.i; }
+  constexpr bool operator==(MyInteger other) const { return i == other.i; }
+  constexpr bool operator>=(MyInteger other) const { return i >= other.i; }
+  constexpr bool operator>(MyInteger other) const { return i > other.i; }
+  constexpr bool operator!=(MyInteger other) const { return i != other.i; }
+
+  integer as_integer() const { return i; }
+};
+
+typedef MyInteger<int64_t> MyInt64;
+typedef MyInteger<uint64_t> MyUInt64;
+
 void CheckInt32(int32_t x) {
   char buffer[absl::numbers_internal::kFastToBufferSize];
-  char* actual = absl::numbers_internal::FastInt32ToBuffer(x, buffer);
+  char* actual = absl::numbers_internal::FastIntToBuffer(x, buffer);
   std::string expected = std::to_string(x);
-  ASSERT_TRUE(expected == std::string(buffer, actual))
-      << "Expected \"" << expected << "\", Actual \"" << actual << "\", Input "
-      << x;
+  EXPECT_EQ(expected, std::string(buffer, actual)) << " Input " << x;
+
+  char* generic_actual = absl::numbers_internal::FastIntToBuffer(x, buffer);
+  EXPECT_EQ(expected, std::string(buffer, generic_actual)) << " Input " << x;
 }
 
 void CheckInt64(int64_t x) {
@@ -124,40 +149,47 @@ void CheckInt64(int64_t x) {
   buffer[0] = '*';
   buffer[23] = '*';
   buffer[24] = '*';
-  char* actual = absl::numbers_internal::FastInt64ToBuffer(x, &buffer[1]);
+  char* actual = absl::numbers_internal::FastIntToBuffer(x, &buffer[1]);
   std::string expected = std::to_string(x);
-  ASSERT_TRUE(expected == std::string(&buffer[1], actual))
-      << "Expected \"" << expected << "\", Actual \"" << actual << "\", Input "
-      << x;
-  ASSERT_EQ(buffer[0], '*');
-  ASSERT_EQ(buffer[23], '*');
-  ASSERT_EQ(buffer[24], '*');
+  EXPECT_EQ(expected, std::string(&buffer[1], actual)) << " Input " << x;
+  EXPECT_EQ(buffer[0], '*');
+  EXPECT_EQ(buffer[23], '*');
+  EXPECT_EQ(buffer[24], '*');
+
+  char* my_actual =
+      absl::numbers_internal::FastIntToBuffer(MyInt64(x), &buffer[1]);
+  EXPECT_EQ(expected, std::string(&buffer[1], my_actual)) << " Input " << x;
 }
 
 void CheckUInt32(uint32_t x) {
   char buffer[absl::numbers_internal::kFastToBufferSize];
-  char* actual = absl::numbers_internal::FastUInt32ToBuffer(x, buffer);
+  char* actual = absl::numbers_internal::FastIntToBuffer(x, buffer);
   std::string expected = std::to_string(x);
-  ASSERT_TRUE(expected == std::string(buffer, actual))
-      << "Expected \"" << expected << "\", Actual \"" << actual << "\", Input "
-      << x;
+  EXPECT_EQ(expected, std::string(buffer, actual)) << " Input " << x;
+
+  char* generic_actual = absl::numbers_internal::FastIntToBuffer(x, buffer);
+  EXPECT_EQ(expected, std::string(buffer, generic_actual)) << " Input " << x;
 }
 
 void CheckUInt64(uint64_t x) {
   char buffer[absl::numbers_internal::kFastToBufferSize + 1];
-  char* actual = absl::numbers_internal::FastUInt64ToBuffer(x, &buffer[1]);
+  char* actual = absl::numbers_internal::FastIntToBuffer(x, &buffer[1]);
   std::string expected = std::to_string(x);
-  ASSERT_TRUE(expected == std::string(&buffer[1], actual))
-      << "Expected \"" << expected << "\", Actual \"" << actual << "\", Input "
-      << x;
+  EXPECT_EQ(expected, std::string(&buffer[1], actual)) << " Input " << x;
+
+  char* generic_actual = absl::numbers_internal::FastIntToBuffer(x, &buffer[1]);
+  EXPECT_EQ(expected, std::string(&buffer[1], generic_actual)) << " Input " << x;
+
+  char* my_actual =
+      absl::numbers_internal::FastIntToBuffer(MyUInt64(x), &buffer[1]);
+  EXPECT_EQ(expected, std::string(&buffer[1], my_actual)) << " Input " << x;
 }
 
 void CheckHex64(uint64_t v) {
   char expected[16 + 1];
   std::string actual = absl::StrCat(absl::Hex(v, absl::kZeroPad16));
   snprintf(expected, sizeof(expected), "%016" PRIx64, static_cast<uint64_t>(v));
-  ASSERT_TRUE(expected == actual)
-      << "Expected \"" << expected << "\", Actual \"" << actual << "\"";
+  EXPECT_EQ(expected, actual) << " Input " << v;
 }
 
 TEST(Numbers, TestFastPrints) {