#include #include "gtest.h" TEST(StdFormatTest, Escaping) { using namespace std; string s = format("{0}-{{", 8); // s == "8-{" EXPECT_EQ(s, "8-{"); } TEST(StdFormatTest, Indexing) { using namespace std; string s0 = format("{} to {}", "a", "b"); // OK: automatic indexing string s1 = format("{1} to {0}", "a", "b"); // OK: manual indexing EXPECT_EQ(s0, "a to b"); EXPECT_EQ(s1, "b to a"); // Error: mixing automatic and manual indexing EXPECT_THROW(string s2 = format("{0} to {}", "a", "b"), std::format_error); // Error: mixing automatic and manual indexing EXPECT_THROW(string s3 = format("{} to {1}", "a", "b"), std::format_error); } TEST(StdFormatTest, Alignment) { using namespace std; char c = 120; string s0 = format("{:6}", 42); // s0 == " 42" string s1 = format("{:6}", 'x'); // s1 == "x " string s2 = format("{:*<6}", 'x'); // s2 == "x*****" string s3 = format("{:*>6}", 'x'); // s3 == "*****x" string s4 = format("{:*^6}", 'x'); // s4 == "**x***" // Error: '=' with charT and no integer presentation type EXPECT_THROW(string s5 = format("{:=6}", 'x'), std::format_error); string s6 = format("{:6d}", c); // s6 == " 120" string s7 = format("{:6}", true); // s9 == "true " EXPECT_EQ(s0, " 42"); EXPECT_EQ(s1, "x "); EXPECT_EQ(s2, "x*****"); EXPECT_EQ(s3, "*****x"); EXPECT_EQ(s4, "**x***"); EXPECT_EQ(s6, " 120"); EXPECT_EQ(s7, "true "); } TEST(StdFormatTest, Float) { using namespace std; double inf = numeric_limits::infinity(); double nan = numeric_limits::quiet_NaN(); string s0 = format("{0:} {0:+} {0:-} {0: }", 1); // s0 == "1 +1 1 1" string s1 = format("{0:} {0:+} {0:-} {0: }", -1); // s1 == "-1 -1 -1 -1" string s2 = format("{0:} {0:+} {0:-} {0: }", inf); // s2 == "inf +inf inf inf" string s3 = format("{0:} {0:+} {0:-} {0: }", nan); // s3 == "nan +nan nan nan" EXPECT_EQ(s0, "1 +1 1 1"); EXPECT_EQ(s1, "-1 -1 -1 -1"); EXPECT_EQ(s2, "inf +inf inf inf"); EXPECT_EQ(s3, "nan +nan nan nan"); } TEST(StdFormatTest, Int) { using namespace std; string s0 = format("{}", 42); // s0 == "42" string s1 = format("{0:b} {0:d} {0:o} {0:x}", 42); // s1 == "101010 42 52 2a" string s2 = format("{0:#x} {0:#X}", 42); // s2 == "0x2a 0X2A" string s3 = format("{:L}", 1234); // s3 == "1234" (depends on the locale) EXPECT_EQ(s0, "42"); EXPECT_EQ(s1, "101010 42 52 2a"); EXPECT_EQ(s2, "0x2a 0X2A"); EXPECT_EQ(s3, "1234"); } #include enum color { red, green, blue }; const char* color_names[] = {"red", "green", "blue"}; template <> struct std::formatter : std::formatter { auto format(color c, format_context& ctx) { return formatter::format(color_names[c], ctx); } }; struct err {}; TEST(StdFormatTest, Formatter) { std::string s0 = std::format("{}", 42); // OK: library-provided formatter // std::string s1 = std::format("{}", L"foo"); // Ill-formed: disabled // formatter std::string s2 = std::format("{}", red); // OK: user-provided formatter // std::string s3 = std::format("{}", err{}); // Ill-formed: disabled // formatter EXPECT_EQ(s0, "42"); EXPECT_EQ(s2, "red"); } struct S { int value; }; template <> struct std::formatter { size_t width_arg_id = 0; // Parses a width argument id in the format { }. constexpr auto parse(format_parse_context& ctx) { constexpr auto is_ascii_digit = [](const char c) { return c >= '0' && c <= '9'; }; auto iter = ctx.begin(); // auto get_char = [&]() { return iter != ctx.end() ? *iter : 0; }; auto get_char = [&]() { return iter != ctx.end() ? *iter : '\0'; }; if (get_char() != '{') return iter; ++iter; char c = get_char(); if (!is_ascii_digit(c) || (++iter, get_char()) != '}') throw format_error("invalid format"); width_arg_id = fmt::detail::to_unsigned(c - '0'); ctx.check_arg_id(width_arg_id); return ++iter; } // Formats S with width given by the argument width_arg_id. auto format(S s, format_context& ctx) { int width = visit_format_arg( [](auto value) -> int { using type = decltype(value); if constexpr (!is_integral_v || is_same_v) throw format_error("width is not integral"); // else if (value < 0 || value > numeric_limits::max()) else if (fmt::detail::is_negative(value) || value > numeric_limits::max()) throw format_error("invalid width"); else return static_cast(value); }, ctx.arg(width_arg_id)); return format_to(ctx.out(), "{0:{1}}", s.value, width); } }; TEST(StdFormatTest, Parsing) { std::string s = std::format("{0:{1}}", S{42}, 10); // s == " 42" EXPECT_EQ(s, " 42"); } #if FMT_USE_INT128 template <> struct std::formatter<__int128_t> : std::formatter { auto format(__int128_t n, format_context& ctx) { // Format as a long long since we only want to check if it is possible to // specialize formatter for __int128_t. return formatter::format(static_cast(n), ctx); } }; TEST(StdFormatTest, Int128) { __int128_t n = 42; auto s = std::format("{}", n); EXPECT_EQ(s, "42"); } #endif // FMT_USE_INT128