faux-folly/folly/test/FormatTest.cpp - nest-cam/4320010/faux-folly - Git at Google

 /*
  * Copyright 2015 Facebook, Inc.
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include <folly/Format.h>

 #include <gflags/gflags.h>
 #include <gtest/gtest.h>

 #include <string>

 using namespace folly;

 template <class Uint>
 void compareOctal(Uint u) {
   char buf1[detail::kMaxOctalLength + 1];
   buf1[detail::kMaxOctalLength] = '\0';
   char* p = buf1 + detail::uintToOctal(buf1, detail::kMaxOctalLength, u);

   char buf2[detail::kMaxOctalLength + 1];
   EXPECT_LT(snprintf(buf2, sizeof(buf2), "%jo", static_cast<uintmax_t>(u)),
             sizeof(buf2));

   EXPECT_EQ(std::string(buf2), std::string(p));
 }

 template <class Uint>
 void compareHex(Uint u) {
   char buf1[detail::kMaxHexLength + 1];
   buf1[detail::kMaxHexLength] = '\0';
   char* p = buf1 + detail::uintToHexLower(buf1, detail::kMaxHexLength, u);

   char buf2[detail::kMaxHexLength + 1];
   EXPECT_LT(snprintf(buf2, sizeof(buf2), "%jx", static_cast<uintmax_t>(u)),
             sizeof(buf2));

   EXPECT_EQ(std::string(buf2), std::string(p));
 }

 template <class Uint>
 void compareBinary(Uint u) {
   char buf[detail::kMaxBinaryLength + 1];
   buf[detail::kMaxBinaryLength] = '\0';
   char* p = buf + detail::uintToBinary(buf, detail::kMaxBinaryLength, u);

   std::string repr;
   if (u == 0) {
     repr = '0';
   } else {
     std::string tmp;
     for (; u; u >>= 1) {
       tmp.push_back(u & 1 ? '1' : '0');
     }
     repr.assign(tmp.rbegin(), tmp.rend());
   }

   EXPECT_EQ(repr, std::string(p));
 }

 TEST(Format, uintToOctal) {
   for (unsigned i = 0; i < (1u << 16) + 2; i++) {
     compareOctal(i);
   }
 }

 TEST(Format, uintToHex) {
   for (unsigned i = 0; i < (1u << 16) + 2; i++) {
     compareHex(i);
   }
 }

 TEST(Format, uintToBinary) {
   for (unsigned i = 0; i < (1u << 16) + 2; i++) {
     compareBinary(i);
   }
 }

 TEST(Format, Simple) {
   EXPECT_EQ("hello", sformat("hello"));
   EXPECT_EQ("42", sformat("{}", 42));
   EXPECT_EQ("42 42", sformat("{0} {0}", 42));
   EXPECT_EQ("00042  23   42", sformat("{0:05} {1:3} {0:4}", 42, 23));
   EXPECT_EQ("hello world hello 42",
             sformat("{0} {1} {0} {2}", "hello", "world", 42));
   EXPECT_EQ("XXhelloXX", sformat("{:X^9}", "hello"));
   EXPECT_EQ("XXX42XXXX", sformat("{:X^9}", 42));
   EXPECT_EQ("-0xYYYY2a", sformat("{:Y=#9x}", -42));
   EXPECT_EQ("*", sformat("{}", '*'));
   EXPECT_EQ("42", sformat("{}", 42));
   EXPECT_EQ("0042", sformat("{:04}", 42));

   EXPECT_EQ("hello  ", sformat("{:7}", "hello"));
   EXPECT_EQ("hello  ", sformat("{:<7}", "hello"));
   EXPECT_EQ("  hello", sformat("{:>7}", "hello"));

   EXPECT_EQ("  hi", sformat("{:>*}", 4, "hi"));
   EXPECT_EQ("   hi!", sformat("{:*}{}", 3, "", "hi!"));
   EXPECT_EQ("    123", sformat("{:*}", 7, 123));
   EXPECT_EQ("123    ", sformat("{:<*}", 7, 123));
   EXPECT_EQ("----<=>----", sformat("{:-^*}", 11, "<=>"));
   EXPECT_EQ("+++456+++", sformat("{2:+^*0}", 9, "unused", 456));

   std::vector<int> v1 {10, 20, 30};
   EXPECT_EQ("0020", sformat("{0[1]:04}", v1));
   EXPECT_EQ("0020", svformat("{1:04}", v1));
   EXPECT_EQ("10 20", svformat("{} {}", v1));

   const std::vector<int> v2 = v1;
   EXPECT_EQ("0020", sformat("{0[1]:04}", v2));
   EXPECT_EQ("0020", svformat("{1:04}", v2));
   EXPECT_THROW(sformat("{0[3]:04}", v2), std::out_of_range);
   EXPECT_THROW(svformat("{3:04}", v2), std::out_of_range);
   EXPECT_EQ("0020", sformat("{0[1]:04}", defaulted(v2, 42)));
   EXPECT_EQ("0020", svformat("{1:04}", defaulted(v2, 42)));
   EXPECT_EQ("0042", sformat("{0[3]:04}", defaulted(v2, 42)));
   EXPECT_EQ("0042", svformat("{3:04}", defaulted(v2, 42)));

   const int p[] = {10, 20, 30};
   const int* q = p;
   EXPECT_EQ("0020", sformat("{0[1]:04}", p));
   EXPECT_EQ("0020", svformat("{1:04}", p));
   EXPECT_EQ("0020", sformat("{0[1]:04}", q));
   EXPECT_EQ("0020", svformat("{1:04}", q));
   EXPECT_NE("", sformat("{}", q));

   EXPECT_EQ("0x", sformat("{}", p).substr(0, 2));
   EXPECT_EQ("10", svformat("{}", p));
   EXPECT_EQ("0x", sformat("{}", q).substr(0, 2));
   EXPECT_EQ("10", svformat("{}", q));
   q = nullptr;
   EXPECT_EQ("(null)", sformat("{}", q));

   std::map<int, std::string> m { {10, "hello"}, {20, "world"} };
   EXPECT_EQ("worldXX", sformat("{[20]:X<7}", m));
   EXPECT_EQ("worldXX", svformat("{20:X<7}", m));
   EXPECT_THROW(sformat("{[42]:X<7}", m), std::out_of_range);
   EXPECT_THROW(svformat("{42:X<7}", m), std::out_of_range);
   EXPECT_EQ("worldXX", sformat("{[20]:X<7}", defaulted(m, "meow")));
   EXPECT_EQ("worldXX", svformat("{20:X<7}", defaulted(m, "meow")));
   EXPECT_EQ("meowXXX", sformat("{[42]:X<7}", defaulted(m, "meow")));
   EXPECT_EQ("meowXXX", svformat("{42:X<7}", defaulted(m, "meow")));

   std::map<std::string, std::string> m2 { {"hello", "world"} };
   EXPECT_EQ("worldXX", sformat("{[hello]:X<7}", m2));
   EXPECT_EQ("worldXX", svformat("{hello:X<7}", m2));
   EXPECT_THROW(sformat("{[none]:X<7}", m2), std::out_of_range);
   EXPECT_THROW(svformat("{none:X<7}", m2), std::out_of_range);
   EXPECT_EQ("worldXX", sformat("{[hello]:X<7}", defaulted(m2, "meow")));
   EXPECT_EQ("worldXX", svformat("{hello:X<7}", defaulted(m2, "meow")));
   EXPECT_EQ("meowXXX", sformat("{[none]:X<7}", defaulted(m2, "meow")));
   EXPECT_EQ("meowXXX", svformat("{none:X<7}", defaulted(m2, "meow")));

   // Test indexing in strings
   EXPECT_EQ("61 62", sformat("{0[0]:x} {0[1]:x}", "abcde"));
   EXPECT_EQ("61 62", svformat("{0:x} {1:x}", "abcde"));
   EXPECT_EQ("61 62", sformat("{0[0]:x} {0[1]:x}", std::string("abcde")));
   EXPECT_EQ("61 62", svformat("{0:x} {1:x}", std::string("abcde")));

   // Test booleans
   EXPECT_EQ("true", sformat("{}", true));
   EXPECT_EQ("1", sformat("{:d}", true));
   EXPECT_EQ("false", sformat("{}", false));
   EXPECT_EQ("0", sformat("{:d}", false));

   // Test pairs
   {
     std::pair<int, std::string> p {42, "hello"};
     EXPECT_EQ("    42 hello ", sformat("{0[0]:6} {0[1]:6}", p));
     EXPECT_EQ("    42 hello ", svformat("{:6} {:6}", p));
   }

   // Test tuples
   {
     std::tuple<int, std::string, int> t { 42, "hello", 23 };
     EXPECT_EQ("    42 hello      23", sformat("{0[0]:6} {0[1]:6} {0[2]:6}", t));
     EXPECT_EQ("    42 hello      23", svformat("{:6} {:6} {:6}", t));
   }

   // Test writing to stream
   std::ostringstream os;
   os << format("{} {}", 42, 23);
   EXPECT_EQ("42 23", os.str());

   // Test appending to string
   std::string s;
   format(&s, "{} {}", 42, 23);
   format(&s, " hello {:X<7}", "world");
   EXPECT_EQ("42 23 hello worldXX", s);
 }

 TEST(Format, Float) {
   double d = 1;
   EXPECT_EQ("1", sformat("{}", 1.0));
   EXPECT_EQ("0.1", sformat("{}", 0.1));
   EXPECT_EQ("0.01", sformat("{}", 0.01));
   EXPECT_EQ("0.001", sformat("{}", 0.001));
   EXPECT_EQ("0.0001", sformat("{}", 0.0001));
   EXPECT_EQ("1e-5", sformat("{}", 0.00001));
   EXPECT_EQ("1e-6", sformat("{}", 0.000001));

   EXPECT_EQ("10", sformat("{}", 10.0));
   EXPECT_EQ("100", sformat("{}", 100.0));
   EXPECT_EQ("1000", sformat("{}", 1000.0));
   EXPECT_EQ("10000", sformat("{}", 10000.0));
   EXPECT_EQ("100000", sformat("{}", 100000.0));
   EXPECT_EQ("1e+6", sformat("{}", 1000000.0));
   EXPECT_EQ("1e+7", sformat("{}", 10000000.0));

   EXPECT_EQ("1.00", sformat("{:.2f}", 1.0));
   EXPECT_EQ("0.10", sformat("{:.2f}", 0.1));
   EXPECT_EQ("0.01", sformat("{:.2f}", 0.01));
   EXPECT_EQ("0.00", sformat("{:.2f}", 0.001));

   EXPECT_EQ("100000. !== 100000", sformat("{:.} !== {:.}", 100000.0, 100000));
   EXPECT_EQ("100000.", sformat("{:.}", 100000.0));
   EXPECT_EQ("1e+6", sformat("{:.}", 1000000.0));
   EXPECT_EQ(" 100000.", sformat("{:8.}", 100000.0));
   EXPECT_EQ("100000.", sformat("{:4.}", 100000.0));
   EXPECT_EQ("  100000", sformat("{:8.8}", 100000.0));
   EXPECT_EQ(" 100000.", sformat("{:8.8.}", 100000.0));
 }

 TEST(Format, MultiLevel) {
   std::vector<std::map<std::string, std::string>> v = {
     {
       {"hello", "world"},
     },
   };

   EXPECT_EQ("world", sformat("{[0.hello]}", v));
 }

 TEST(Format, separatorDecimalInteger) {
   EXPECT_EQ("0", sformat("{:,d}", 0));
   EXPECT_EQ("1", sformat("{:d}", 1));
   EXPECT_EQ("1", sformat("{:,d}", 1));
   EXPECT_EQ("1", sformat("{:,}", 1));
   EXPECT_EQ("123", sformat("{:d}", 123));
   EXPECT_EQ("123", sformat("{:,d}", 123));
   EXPECT_EQ("123", sformat("{:,}", 123));
   EXPECT_EQ("1234", sformat("{:d}", 1234));
   EXPECT_EQ("1,234", sformat("{:,d}", 1234));
   EXPECT_EQ("1,234", sformat("{:,}", 1234));
   EXPECT_EQ("12345678", sformat("{:d}", 12345678));
   EXPECT_EQ("12,345,678", sformat("{:,d}", 12345678));
   EXPECT_EQ("12,345,678", sformat("{:,}", 12345678));
   EXPECT_EQ("-1234", sformat("{:d}", -1234));
   EXPECT_EQ("-1,234", sformat("{:,d}", -1234));
   EXPECT_EQ("-1,234", sformat("{:,}", -1234));

   int64_t max_int64_t = std::numeric_limits<int64_t>::max();
   int64_t min_int64_t = std::numeric_limits<int64_t>::min();
   uint64_t max_uint64_t = std::numeric_limits<uint64_t>::max();
   EXPECT_EQ("9223372036854775807", sformat("{:d}", max_int64_t));
   EXPECT_EQ("9,223,372,036,854,775,807", sformat("{:,d}", max_int64_t));
   EXPECT_EQ("9,223,372,036,854,775,807", sformat("{:,}", max_int64_t));
   EXPECT_EQ("-9223372036854775808", sformat("{:d}", min_int64_t));
   EXPECT_EQ("-9,223,372,036,854,775,808", sformat("{:,d}", min_int64_t));
   EXPECT_EQ("-9,223,372,036,854,775,808", sformat("{:,}", min_int64_t));
   EXPECT_EQ("18446744073709551615", sformat("{:d}", max_uint64_t));
   EXPECT_EQ("18,446,744,073,709,551,615", sformat("{:,d}", max_uint64_t));
   EXPECT_EQ("18,446,744,073,709,551,615", sformat("{:,}", max_uint64_t));

   EXPECT_EQ("  -1,234", sformat("{: 8,}", -1234));
   EXPECT_EQ("-001,234", sformat("{:08,d}", -1234));
   EXPECT_EQ("-00001,234", sformat("{:010,d}", -1234));
   EXPECT_EQ(" -1,234 ", sformat("{:^ 8,d}", -1234));
 }

 // Note that sformat("{:n}", ...) uses the current locale setting to insert the
 // appropriate number separator characters.
 TEST(Format, separatorNumber) {
   EXPECT_EQ("0", sformat("{:n}", 0));
   EXPECT_EQ("1", sformat("{:n}", 1));
   EXPECT_EQ("123", sformat("{:n}", 123));
   EXPECT_EQ("1234", sformat("{:n}", 1234));
   EXPECT_EQ("12345678", sformat("{:n}", 12345678));
   EXPECT_EQ("-1234", sformat("{:n}", -1234));

   int64_t max_int64_t = std::numeric_limits<int64_t>::max();
   int64_t min_int64_t = std::numeric_limits<int64_t>::min();
   uint64_t max_uint64_t = std::numeric_limits<uint64_t>::max();
   EXPECT_EQ("9223372036854775807", sformat("{:n}", max_int64_t));
   EXPECT_EQ("-9223372036854775808", sformat("{:n}", min_int64_t));
   EXPECT_EQ("18446744073709551615", sformat("{:n}", max_uint64_t));

   EXPECT_EQ("   -1234", sformat("{: 8n}", -1234));
   EXPECT_EQ("-0001234", sformat("{:08n}", -1234));
   EXPECT_EQ("-000001234", sformat("{:010n}", -1234));
   EXPECT_EQ(" -1234  ", sformat("{:^ 8n}", -1234));
 }

 // insertThousandsGroupingUnsafe requires non-const params
 static void testGrouping(const char* a_str, const char* expected) {
   char str[256];
   char* end_ptr = str + snprintf(str, sizeof(str), "%s", a_str);
   ASSERT_LT(end_ptr, str + sizeof(str));
   folly::detail::insertThousandsGroupingUnsafe(str, &end_ptr);
   ASSERT_STREQ(expected, str);
 }

 TEST(Format, separatorUnit) {
   testGrouping("0", "0");
   testGrouping("1", "1");
   testGrouping("12", "12");
   testGrouping("123", "123");
   testGrouping("1234", "1,234");
   testGrouping("12345", "12,345");
   testGrouping("123456", "123,456");
   testGrouping("1234567", "1,234,567");
   testGrouping("1234567890", "1,234,567,890");
   testGrouping("9223372036854775807", "9,223,372,036,854,775,807");
   testGrouping("18446744073709551615", "18,446,744,073,709,551,615");
 }


 namespace {

 struct KeyValue {
   std::string key;
   int value;
 };

 }  // namespace

 namespace folly {

 template <> class FormatValue<KeyValue> {
  public:
   explicit FormatValue(const KeyValue& kv) : kv_(kv) { }

   template <class FormatCallback>
   void format(FormatArg& arg, FormatCallback& cb) const {
     format_value::formatFormatter(
         folly::format("<key={}, value={}>", kv_.key, kv_.value),
         arg, cb);
   }

  private:
   const KeyValue& kv_;
 };

 }  // namespace

 TEST(Format, Custom) {
   KeyValue kv { "hello", 42 };

   EXPECT_EQ("<key=hello, value=42>", sformat("{}", kv));
   EXPECT_EQ("<key=hello, value=42>", sformat("{:10}", kv));
   EXPECT_EQ("<key=hello", sformat("{:.10}", kv));
   EXPECT_EQ("<key=hello, value=42>XX", sformat("{:X<23}", kv));
   EXPECT_EQ("XX<key=hello, value=42>", sformat("{:X>23}", kv));
   EXPECT_EQ("<key=hello, value=42>", sformat("{0[0]}", &kv));
   EXPECT_NE("", sformat("{}", &kv));
 }

 namespace {

 struct Opaque {
   int k;
 };

 } // namespace

 #define EXPECT_THROW_STR(code, type, str) \
   do { \
     bool caught = false; \
     try { \
       code; \
     } catch (const type& e) { \
       caught = true; \
       EXPECT_TRUE(strstr(e.what(), (str)) != nullptr) << \
         "Expected message [" << (str) << "], actual message [" << \
         e.what(); \
     } catch (const std::exception& e) { \
       caught = true; \
       ADD_FAILURE() << "Caught different exception type; expected " #type \
         ", caught " << folly::demangle(typeid(e)); \
     } catch (...) { \
       caught = true; \
       ADD_FAILURE() << "Caught unknown exception type; expected " #type; \
     } \
     if (!caught) { \
       ADD_FAILURE() << "Expected exception " #type ", caught nothing"; \
     } \
   } while (false)

 #define EXPECT_FORMAT_ERROR(code, str) \
   EXPECT_THROW_STR(code, folly::BadFormatArg, (str))

 TEST(Format, Unformatted) {
   Opaque o;
   EXPECT_NE("", sformat("{}", &o));
   EXPECT_FORMAT_ERROR(sformat("{0[0]}", &o),
                       "No formatter available for this type");
 }

 TEST(Format, Nested) {
   EXPECT_EQ("1 2 3 4", sformat("{} {} {}", 1, 2, format("{} {}", 3, 4)));
   //
   // not copyable, must hold temporary in scope instead.
   auto&& saved = format("{} {}", 3, 4);
   EXPECT_EQ("1 2 3 4", sformat("{} {} {}", 1, 2, saved));
 }

 TEST(Format, OutOfBounds) {
   std::vector<int> ints{1, 2, 3, 4, 5};
   EXPECT_EQ("1 3 5", sformat("{0[0]} {0[2]} {0[4]}", ints));
   EXPECT_THROW(sformat("{[5]}", ints), std::out_of_range);

   std::map<std::string, int> map{{"hello", 0}, {"world", 1}};
   EXPECT_EQ("hello = 0", sformat("hello = {[hello]}", map));
   EXPECT_THROW(sformat("{[nope]}", map), std::out_of_range);
   EXPECT_THROW(svformat("{nope}", map), std::out_of_range);
 }

 TEST(Format, BogusFormatString) {
   EXPECT_FORMAT_ERROR(sformat("}"), "single '}' in format string");
   EXPECT_FORMAT_ERROR(sformat("foo}bar"), "single '}' in format string");
   EXPECT_FORMAT_ERROR(sformat("foo{bar"), "missing ending '}'");
   EXPECT_FORMAT_ERROR(sformat("{[test]"), "missing ending '}'");
   EXPECT_FORMAT_ERROR(sformat("{-1.3}"), "argument index must be non-negative");
   EXPECT_FORMAT_ERROR(sformat("{1.3}", 0, 1, 2), "index not allowed");
   EXPECT_FORMAT_ERROR(sformat("{0} {} {1}", 0, 1, 2),
                "may not have both default and explicit arg indexes");
   EXPECT_FORMAT_ERROR(sformat("{:*}", 1.2),
                       "dynamic field width argument must be integral");
   EXPECT_FORMAT_ERROR(sformat("{} {:*}", "hi"),
                       "argument index out of range, max=1");
   EXPECT_FORMAT_ERROR(
     sformat("{:*0}", 12, "ok"),
     "cannot provide width arg index without value arg index"
   );
   EXPECT_FORMAT_ERROR(
     sformat("{0:*}", 12, "ok"),
     "cannot provide value arg index without width arg index"
   );

   std::vector<int> v{1, 2, 3};
   EXPECT_FORMAT_ERROR(svformat("{:*}", v),
                       "dynamic field width not supported in vformat()");

   // This one fails in detail::enforceWhitespace(), which throws
   // std::range_error
   EXPECT_THROW_STR(sformat("{0[test}"), std::range_error,
                    "Non-whitespace: [");
 }

 template <bool containerMode, class... Args>
 class TestExtendingFormatter;

 template <bool containerMode, class... Args>
 class TestExtendingFormatter
     : public BaseFormatter<TestExtendingFormatter<containerMode, Args...>,
                            containerMode,
                            Args...> {
  private:
   explicit TestExtendingFormatter(StringPiece& str, Args&&... args)
       : BaseFormatter<TestExtendingFormatter<containerMode, Args...>,
                       containerMode,
                       Args...>(str, std::forward<Args>(args)...) {}

   template <size_t K, class Callback>
   void doFormatArg(FormatArg& arg, Callback& cb) const {
     std::string result;
     auto appender = [&result](StringPiece s) {
       result.append(s.data(), s.size());
     };
     std::get<K>(this->values_).format(arg, appender);
     result = sformat("{{{}}}", result);
     cb(StringPiece(result));
   }

   friend class BaseFormatter<TestExtendingFormatter<containerMode, Args...>,
                              containerMode,
                              Args...>;

   template <class... A>
   friend std::string texsformat(StringPiece fmt, A&&... arg);
 };

 template <class... Args>
 std::string texsformat(StringPiece fmt, Args&&... args) {
   return TestExtendingFormatter<false, Args...>(
       fmt, std::forward<Args>(args)...).str();
 }

 TEST(Format, Extending) {
   EXPECT_EQ(texsformat("I {} brackets", "love"), "I {love} brackets");
   EXPECT_EQ(texsformat("I {} nesting", sformat("really {}", "love")),
             "I {really love} nesting");
   EXPECT_EQ(
       sformat("I also {} nesting", texsformat("have an {} for", "affinity")),
       "I also have an {affinity} for nesting");
   EXPECT_EQ(texsformat("Extending {} in {}",
                        texsformat("a {}", "formatter"),
                        "another formatter"),
             "Extending {a {formatter}} in {another formatter}");
 }

 int main(int argc, char *argv[]) {
   testing::InitGoogleTest(&argc, argv);
   gflags::ParseCommandLineFlags(&argc, &argv, true);
   return RUN_ALL_TESTS();
 }
	/*
	* Copyright 2015 Facebook, Inc.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include <folly/Format.h>

	#include <gflags/gflags.h>
	#include <gtest/gtest.h>

	#include <string>

	using namespace folly;

	template <class Uint>
	void compareOctal(Uint u) {
	char buf1[detail::kMaxOctalLength + 1];
	buf1[detail::kMaxOctalLength] = '\0';
	char* p = buf1 + detail::uintToOctal(buf1, detail::kMaxOctalLength, u);

	char buf2[detail::kMaxOctalLength + 1];
	EXPECT_LT(snprintf(buf2, sizeof(buf2), "%jo", static_cast<uintmax_t>(u)),
	sizeof(buf2));

	EXPECT_EQ(std::string(buf2), std::string(p));
	}

	template <class Uint>
	void compareHex(Uint u) {
	char buf1[detail::kMaxHexLength + 1];
	buf1[detail::kMaxHexLength] = '\0';
	char* p = buf1 + detail::uintToHexLower(buf1, detail::kMaxHexLength, u);

	char buf2[detail::kMaxHexLength + 1];
	EXPECT_LT(snprintf(buf2, sizeof(buf2), "%jx", static_cast<uintmax_t>(u)),
	sizeof(buf2));

	EXPECT_EQ(std::string(buf2), std::string(p));
	}

	template <class Uint>
	void compareBinary(Uint u) {
	char buf[detail::kMaxBinaryLength + 1];
	buf[detail::kMaxBinaryLength] = '\0';
	char* p = buf + detail::uintToBinary(buf, detail::kMaxBinaryLength, u);

	std::string repr;
	if (u == 0) {
	repr = '0';
	} else {
	std::string tmp;
	for (; u; u >>= 1) {
	tmp.push_back(u & 1 ? '1' : '0');
	}
	repr.assign(tmp.rbegin(), tmp.rend());
	}

	EXPECT_EQ(repr, std::string(p));
	}

	TEST(Format, uintToOctal) {
	for (unsigned i = 0; i < (1u << 16) + 2; i++) {
	compareOctal(i);
	}
	}

	TEST(Format, uintToHex) {
	for (unsigned i = 0; i < (1u << 16) + 2; i++) {
	compareHex(i);
	}
	}

	TEST(Format, uintToBinary) {
	for (unsigned i = 0; i < (1u << 16) + 2; i++) {
	compareBinary(i);
	}
	}

	TEST(Format, Simple) {
	EXPECT_EQ("hello", sformat("hello"));
	EXPECT_EQ("42", sformat("{}", 42));
	EXPECT_EQ("42 42", sformat("{0} {0}", 42));
	EXPECT_EQ("00042 23 42", sformat("{0:05} {1:3} {0:4}", 42, 23));
	EXPECT_EQ("hello world hello 42",
	sformat("{0} {1} {0} {2}", "hello", "world", 42));
	EXPECT_EQ("XXhelloXX", sformat("{:X^9}", "hello"));
	EXPECT_EQ("XXX42XXXX", sformat("{:X^9}", 42));
	EXPECT_EQ("-0xYYYY2a", sformat("{:Y=#9x}", -42));
	EXPECT_EQ("", sformat("{}", ''));
	EXPECT_EQ("42", sformat("{}", 42));
	EXPECT_EQ("0042", sformat("{:04}", 42));

	EXPECT_EQ("hello ", sformat("{:7}", "hello"));
	EXPECT_EQ("hello ", sformat("{:<7}", "hello"));
	EXPECT_EQ(" hello", sformat("{:>7}", "hello"));

	EXPECT_EQ(" hi", sformat("{:>*}", 4, "hi"));
	EXPECT_EQ(" hi!", sformat("{:*}{}", 3, "", "hi!"));
	EXPECT_EQ(" 123", sformat("{:*}", 7, 123));
	EXPECT_EQ("123 ", sformat("{:<*}", 7, 123));
	EXPECT_EQ("----<=>----", sformat("{:-^*}", 11, "<=>"));
	EXPECT_EQ("+++456+++", sformat("{2:+^*0}", 9, "unused", 456));

	std::vector<int> v1 {10, 20, 30};
	EXPECT_EQ("0020", sformat("{0[1]:04}", v1));
	EXPECT_EQ("0020", svformat("{1:04}", v1));
	EXPECT_EQ("10 20", svformat("{} {}", v1));

	const std::vector<int> v2 = v1;
	EXPECT_EQ("0020", sformat("{0[1]:04}", v2));
	EXPECT_EQ("0020", svformat("{1:04}", v2));
	EXPECT_THROW(sformat("{0[3]:04}", v2), std::out_of_range);
	EXPECT_THROW(svformat("{3:04}", v2), std::out_of_range);
	EXPECT_EQ("0020", sformat("{0[1]:04}", defaulted(v2, 42)));
	EXPECT_EQ("0020", svformat("{1:04}", defaulted(v2, 42)));
	EXPECT_EQ("0042", sformat("{0[3]:04}", defaulted(v2, 42)));
	EXPECT_EQ("0042", svformat("{3:04}", defaulted(v2, 42)));

	const int p[] = {10, 20, 30};
	const int* q = p;
	EXPECT_EQ("0020", sformat("{0[1]:04}", p));
	EXPECT_EQ("0020", svformat("{1:04}", p));
	EXPECT_EQ("0020", sformat("{0[1]:04}", q));
	EXPECT_EQ("0020", svformat("{1:04}", q));
	EXPECT_NE("", sformat("{}", q));

	EXPECT_EQ("0x", sformat("{}", p).substr(0, 2));
	EXPECT_EQ("10", svformat("{}", p));
	EXPECT_EQ("0x", sformat("{}", q).substr(0, 2));
	EXPECT_EQ("10", svformat("{}", q));
	q = nullptr;
	EXPECT_EQ("(null)", sformat("{}", q));

	std::map<int, std::string> m { {10, "hello"}, {20, "world"} };
	EXPECT_EQ("worldXX", sformat("{[20]:X<7}", m));
	EXPECT_EQ("worldXX", svformat("{20:X<7}", m));
	EXPECT_THROW(sformat("{[42]:X<7}", m), std::out_of_range);
	EXPECT_THROW(svformat("{42:X<7}", m), std::out_of_range);
	EXPECT_EQ("worldXX", sformat("{[20]:X<7}", defaulted(m, "meow")));
	EXPECT_EQ("worldXX", svformat("{20:X<7}", defaulted(m, "meow")));
	EXPECT_EQ("meowXXX", sformat("{[42]:X<7}", defaulted(m, "meow")));
	EXPECT_EQ("meowXXX", svformat("{42:X<7}", defaulted(m, "meow")));

	std::map<std::string, std::string> m2 { {"hello", "world"} };
	EXPECT_EQ("worldXX", sformat("{[hello]:X<7}", m2));
	EXPECT_EQ("worldXX", svformat("{hello:X<7}", m2));
	EXPECT_THROW(sformat("{[none]:X<7}", m2), std::out_of_range);
	EXPECT_THROW(svformat("{none:X<7}", m2), std::out_of_range);
	EXPECT_EQ("worldXX", sformat("{[hello]:X<7}", defaulted(m2, "meow")));
	EXPECT_EQ("worldXX", svformat("{hello:X<7}", defaulted(m2, "meow")));
	EXPECT_EQ("meowXXX", sformat("{[none]:X<7}", defaulted(m2, "meow")));
	EXPECT_EQ("meowXXX", svformat("{none:X<7}", defaulted(m2, "meow")));

	// Test indexing in strings
	EXPECT_EQ("61 62", sformat("{0[0]:x} {0[1]:x}", "abcde"));
	EXPECT_EQ("61 62", svformat("{0:x} {1:x}", "abcde"));
	EXPECT_EQ("61 62", sformat("{0[0]:x} {0[1]:x}", std::string("abcde")));
	EXPECT_EQ("61 62", svformat("{0:x} {1:x}", std::string("abcde")));

	// Test booleans
	EXPECT_EQ("true", sformat("{}", true));
	EXPECT_EQ("1", sformat("{:d}", true));
	EXPECT_EQ("false", sformat("{}", false));
	EXPECT_EQ("0", sformat("{:d}", false));

	// Test pairs
	{
	std::pair<int, std::string> p {42, "hello"};
	EXPECT_EQ(" 42 hello ", sformat("{0[0]:6} {0[1]:6}", p));
	EXPECT_EQ(" 42 hello ", svformat("{:6} {:6}", p));
	}

	// Test tuples
	{
	std::tuple<int, std::string, int> t { 42, "hello", 23 };
	EXPECT_EQ(" 42 hello 23", sformat("{0[0]:6} {0[1]:6} {0[2]:6}", t));
	EXPECT_EQ(" 42 hello 23", svformat("{:6} {:6} {:6}", t));
	}

	// Test writing to stream
	std::ostringstream os;
	os << format("{} {}", 42, 23);
	EXPECT_EQ("42 23", os.str());

	// Test appending to string
	std::string s;
	format(&s, "{} {}", 42, 23);
	format(&s, " hello {:X<7}", "world");
	EXPECT_EQ("42 23 hello worldXX", s);
	}

	TEST(Format, Float) {
	double d = 1;
	EXPECT_EQ("1", sformat("{}", 1.0));
	EXPECT_EQ("0.1", sformat("{}", 0.1));
	EXPECT_EQ("0.01", sformat("{}", 0.01));
	EXPECT_EQ("0.001", sformat("{}", 0.001));
	EXPECT_EQ("0.0001", sformat("{}", 0.0001));
	EXPECT_EQ("1e-5", sformat("{}", 0.00001));
	EXPECT_EQ("1e-6", sformat("{}", 0.000001));

	EXPECT_EQ("10", sformat("{}", 10.0));
	EXPECT_EQ("100", sformat("{}", 100.0));
	EXPECT_EQ("1000", sformat("{}", 1000.0));
	EXPECT_EQ("10000", sformat("{}", 10000.0));
	EXPECT_EQ("100000", sformat("{}", 100000.0));
	EXPECT_EQ("1e+6", sformat("{}", 1000000.0));
	EXPECT_EQ("1e+7", sformat("{}", 10000000.0));

	EXPECT_EQ("1.00", sformat("{:.2f}", 1.0));
	EXPECT_EQ("0.10", sformat("{:.2f}", 0.1));
	EXPECT_EQ("0.01", sformat("{:.2f}", 0.01));
	EXPECT_EQ("0.00", sformat("{:.2f}", 0.001));

	EXPECT_EQ("100000. !== 100000", sformat("{:.} !== {:.}", 100000.0, 100000));
	EXPECT_EQ("100000.", sformat("{:.}", 100000.0));
	EXPECT_EQ("1e+6", sformat("{:.}", 1000000.0));
	EXPECT_EQ(" 100000.", sformat("{:8.}", 100000.0));
	EXPECT_EQ("100000.", sformat("{:4.}", 100000.0));
	EXPECT_EQ(" 100000", sformat("{:8.8}", 100000.0));
	EXPECT_EQ(" 100000.", sformat("{:8.8.}", 100000.0));
	}

	TEST(Format, MultiLevel) {
	std::vector<std::map<std::string, std::string>> v = {
	{
	{"hello", "world"},
	},
	};

	EXPECT_EQ("world", sformat("{[0.hello]}", v));
	}

	TEST(Format, separatorDecimalInteger) {
	EXPECT_EQ("0", sformat("{:,d}", 0));
	EXPECT_EQ("1", sformat("{:d}", 1));
	EXPECT_EQ("1", sformat("{:,d}", 1));
	EXPECT_EQ("1", sformat("{:,}", 1));
	EXPECT_EQ("123", sformat("{:d}", 123));
	EXPECT_EQ("123", sformat("{:,d}", 123));
	EXPECT_EQ("123", sformat("{:,}", 123));
	EXPECT_EQ("1234", sformat("{:d}", 1234));
	EXPECT_EQ("1,234", sformat("{:,d}", 1234));
	EXPECT_EQ("1,234", sformat("{:,}", 1234));
	EXPECT_EQ("12345678", sformat("{:d}", 12345678));
	EXPECT_EQ("12,345,678", sformat("{:,d}", 12345678));
	EXPECT_EQ("12,345,678", sformat("{:,}", 12345678));
	EXPECT_EQ("-1234", sformat("{:d}", -1234));
	EXPECT_EQ("-1,234", sformat("{:,d}", -1234));
	EXPECT_EQ("-1,234", sformat("{:,}", -1234));

	int64_t max_int64_t = std::numeric_limits<int64_t>::max();
	int64_t min_int64_t = std::numeric_limits<int64_t>::min();
	uint64_t max_uint64_t = std::numeric_limits<uint64_t>::max();
	EXPECT_EQ("9223372036854775807", sformat("{:d}", max_int64_t));
	EXPECT_EQ("9,223,372,036,854,775,807", sformat("{:,d}", max_int64_t));
	EXPECT_EQ("9,223,372,036,854,775,807", sformat("{:,}", max_int64_t));
	EXPECT_EQ("-9223372036854775808", sformat("{:d}", min_int64_t));
	EXPECT_EQ("-9,223,372,036,854,775,808", sformat("{:,d}", min_int64_t));
	EXPECT_EQ("-9,223,372,036,854,775,808", sformat("{:,}", min_int64_t));
	EXPECT_EQ("18446744073709551615", sformat("{:d}", max_uint64_t));
	EXPECT_EQ("18,446,744,073,709,551,615", sformat("{:,d}", max_uint64_t));
	EXPECT_EQ("18,446,744,073,709,551,615", sformat("{:,}", max_uint64_t));

	EXPECT_EQ(" -1,234", sformat("{: 8,}", -1234));
	EXPECT_EQ("-001,234", sformat("{:08,d}", -1234));
	EXPECT_EQ("-00001,234", sformat("{:010,d}", -1234));
	EXPECT_EQ(" -1,234 ", sformat("{:^ 8,d}", -1234));
	}

	// Note that sformat("{:n}", ...) uses the current locale setting to insert the
	// appropriate number separator characters.
	TEST(Format, separatorNumber) {
	EXPECT_EQ("0", sformat("{:n}", 0));
	EXPECT_EQ("1", sformat("{:n}", 1));
	EXPECT_EQ("123", sformat("{:n}", 123));
	EXPECT_EQ("1234", sformat("{:n}", 1234));
	EXPECT_EQ("12345678", sformat("{:n}", 12345678));
	EXPECT_EQ("-1234", sformat("{:n}", -1234));

	int64_t max_int64_t = std::numeric_limits<int64_t>::max();
	int64_t min_int64_t = std::numeric_limits<int64_t>::min();
	uint64_t max_uint64_t = std::numeric_limits<uint64_t>::max();
	EXPECT_EQ("9223372036854775807", sformat("{:n}", max_int64_t));
	EXPECT_EQ("-9223372036854775808", sformat("{:n}", min_int64_t));
	EXPECT_EQ("18446744073709551615", sformat("{:n}", max_uint64_t));

	EXPECT_EQ(" -1234", sformat("{: 8n}", -1234));
	EXPECT_EQ("-0001234", sformat("{:08n}", -1234));
	EXPECT_EQ("-000001234", sformat("{:010n}", -1234));
	EXPECT_EQ(" -1234 ", sformat("{:^ 8n}", -1234));
	}

	// insertThousandsGroupingUnsafe requires non-const params
	static void testGrouping(const char* a_str, const char* expected) {
	char str[256];
	char* end_ptr = str + snprintf(str, sizeof(str), "%s", a_str);
	ASSERT_LT(end_ptr, str + sizeof(str));
	folly::detail::insertThousandsGroupingUnsafe(str, &end_ptr);
	ASSERT_STREQ(expected, str);
	}

	TEST(Format, separatorUnit) {
	testGrouping("0", "0");
	testGrouping("1", "1");
	testGrouping("12", "12");
	testGrouping("123", "123");
	testGrouping("1234", "1,234");
	testGrouping("12345", "12,345");
	testGrouping("123456", "123,456");
	testGrouping("1234567", "1,234,567");
	testGrouping("1234567890", "1,234,567,890");
	testGrouping("9223372036854775807", "9,223,372,036,854,775,807");
	testGrouping("18446744073709551615", "18,446,744,073,709,551,615");
	}


	namespace {

	struct KeyValue {
	std::string key;
	int value;
	};

	} // namespace

	namespace folly {

	template <> class FormatValue<KeyValue> {
	public:
	explicit FormatValue(const KeyValue& kv) : kv_(kv) { }

	template <class FormatCallback>
	void format(FormatArg& arg, FormatCallback& cb) const {
	format_value::formatFormatter(
	folly::format("<key={}, value={}>", kv_.key, kv_.value),
	arg, cb);
	}

	private:
	const KeyValue& kv_;
	};

	} // namespace

	TEST(Format, Custom) {
	KeyValue kv { "hello", 42 };

	EXPECT_EQ("<key=hello, value=42>", sformat("{}", kv));
	EXPECT_EQ("<key=hello, value=42>", sformat("{:10}", kv));
	EXPECT_EQ("<key=hello", sformat("{:.10}", kv));
	EXPECT_EQ("<key=hello, value=42>XX", sformat("{:X<23}", kv));
	EXPECT_EQ("XX<key=hello, value=42>", sformat("{:X>23}", kv));
	EXPECT_EQ("<key=hello, value=42>", sformat("{0[0]}", &kv));
	EXPECT_NE("", sformat("{}", &kv));
	}

	namespace {

	struct Opaque {
	int k;
	};

	} // namespace

	#define EXPECT_THROW_STR(code, type, str) \
	do { \
	bool caught = false; \
	try { \
	code; \
	} catch (const type& e) { \
	caught = true; \
	EXPECT_TRUE(strstr(e.what(), (str)) != nullptr) << \
	"Expected message [" << (str) << "], actual message [" << \
	e.what(); \
	} catch (const std::exception& e) { \
	caught = true; \
	ADD_FAILURE() << "Caught different exception type; expected " #type \
	", caught " << folly::demangle(typeid(e)); \
	} catch (...) { \
	caught = true; \
	ADD_FAILURE() << "Caught unknown exception type; expected " #type; \
	} \
	if (!caught) { \
	ADD_FAILURE() << "Expected exception " #type ", caught nothing"; \
	} \
	} while (false)

	#define EXPECT_FORMAT_ERROR(code, str) \
	EXPECT_THROW_STR(code, folly::BadFormatArg, (str))

	TEST(Format, Unformatted) {
	Opaque o;
	EXPECT_NE("", sformat("{}", &o));
	EXPECT_FORMAT_ERROR(sformat("{0[0]}", &o),
	"No formatter available for this type");
	}

	TEST(Format, Nested) {
	EXPECT_EQ("1 2 3 4", sformat("{} {} {}", 1, 2, format("{} {}", 3, 4)));
	//
	// not copyable, must hold temporary in scope instead.
	auto&& saved = format("{} {}", 3, 4);
	EXPECT_EQ("1 2 3 4", sformat("{} {} {}", 1, 2, saved));
	}

	TEST(Format, OutOfBounds) {
	std::vector<int> ints{1, 2, 3, 4, 5};
	EXPECT_EQ("1 3 5", sformat("{0[0]} {0[2]} {0[4]}", ints));
	EXPECT_THROW(sformat("{[5]}", ints), std::out_of_range);

	std::map<std::string, int> map{{"hello", 0}, {"world", 1}};
	EXPECT_EQ("hello = 0", sformat("hello = {[hello]}", map));
	EXPECT_THROW(sformat("{[nope]}", map), std::out_of_range);
	EXPECT_THROW(svformat("{nope}", map), std::out_of_range);
	}

	TEST(Format, BogusFormatString) {
	EXPECT_FORMAT_ERROR(sformat("}"), "single '}' in format string");
	EXPECT_FORMAT_ERROR(sformat("foo}bar"), "single '}' in format string");
	EXPECT_FORMAT_ERROR(sformat("foo{bar"), "missing ending '}'");
	EXPECT_FORMAT_ERROR(sformat("{[test]"), "missing ending '}'");
	EXPECT_FORMAT_ERROR(sformat("{-1.3}"), "argument index must be non-negative");
	EXPECT_FORMAT_ERROR(sformat("{1.3}", 0, 1, 2), "index not allowed");
	EXPECT_FORMAT_ERROR(sformat("{0} {} {1}", 0, 1, 2),
	"may not have both default and explicit arg indexes");
	EXPECT_FORMAT_ERROR(sformat("{:*}", 1.2),
	"dynamic field width argument must be integral");
	EXPECT_FORMAT_ERROR(sformat("{} {:*}", "hi"),
	"argument index out of range, max=1");
	EXPECT_FORMAT_ERROR(
	sformat("{:*0}", 12, "ok"),
	"cannot provide width arg index without value arg index"
	);
	EXPECT_FORMAT_ERROR(
	sformat("{0:*}", 12, "ok"),
	"cannot provide value arg index without width arg index"
	);

	std::vector<int> v{1, 2, 3};
	EXPECT_FORMAT_ERROR(svformat("{:*}", v),
	"dynamic field width not supported in vformat()");

	// This one fails in detail::enforceWhitespace(), which throws
	// std::range_error
	EXPECT_THROW_STR(sformat("{0[test}"), std::range_error,
	"Non-whitespace: [");
	}

	template <bool containerMode, class... Args>
	class TestExtendingFormatter;

	template <bool containerMode, class... Args>
	class TestExtendingFormatter
	: public BaseFormatter<TestExtendingFormatter<containerMode, Args...>,
	containerMode,
	Args...> {
	private:
	explicit TestExtendingFormatter(StringPiece& str, Args&&... args)
	: BaseFormatter<TestExtendingFormatter<containerMode, Args...>,
	containerMode,
	Args...>(str, std::forward<Args>(args)...) {}

	template <size_t K, class Callback>
	void doFormatArg(FormatArg& arg, Callback& cb) const {
	std::string result;
	auto appender = [&result](StringPiece s) {
	result.append(s.data(), s.size());
	};
	std::get<K>(this->values_).format(arg, appender);
	result = sformat("{{{}}}", result);
	cb(StringPiece(result));
	}

	friend class BaseFormatter<TestExtendingFormatter<containerMode, Args...>,
	containerMode,
	Args...>;

	template <class... A>
	friend std::string texsformat(StringPiece fmt, A&&... arg);
	};

	template <class... Args>
	std::string texsformat(StringPiece fmt, Args&&... args) {
	return TestExtendingFormatter<false, Args...>(
	fmt, std::forward<Args>(args)...).str();
	}

	TEST(Format, Extending) {
	EXPECT_EQ(texsformat("I {} brackets", "love"), "I {love} brackets");
	EXPECT_EQ(texsformat("I {} nesting", sformat("really {}", "love")),
	"I {really love} nesting");
	EXPECT_EQ(
	sformat("I also {} nesting", texsformat("have an {} for", "affinity")),
	"I also have an {affinity} for nesting");
	EXPECT_EQ(texsformat("Extending {} in {}",
	texsformat("a {}", "formatter"),
	"another formatter"),
	"Extending {a {formatter}} in {another formatter}");
	}

	int main(int argc, char *argv[]) {
	testing::InitGoogleTest(&argc, argv);
	gflags::ParseCommandLineFlags(&argc, &argv, true);
	return RUN_ALL_TESTS();
	}