//------------------------------------------------------------------------------ /* This file is part of rippled: https://github.com/XRPLF/rippled/ Copyright (c) 2023 Ripple Labs Inc. Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL , DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ //============================================================================== #include #include #include #include #include #include #include namespace ripple { namespace test { namespace { // This needs to be in a namespace because of deduction guide template struct Overload : Ts... { using Ts::operator()...; }; template Overload(Ts...) -> Overload; } // namespace struct MultiApiJson_test : beast::unit_test::suite { static auto makeJson(const char* key, int val) { Json::Value obj1(Json::objectValue); obj1[key] = val; return obj1; } constexpr static auto index = [](unsigned int v) constexpr noexcept -> std::size_t { return v - 1; }; template constexpr static auto valid = [](unsigned int v) constexpr noexcept -> bool { return v > 0 && v <= size; }; void run() override { using ripple::detail::MultiApiJson; Json::Value const obj1 = makeJson("value", 1); Json::Value const obj2 = makeJson("value", 2); Json::Value const obj3 = makeJson("value", 3); Json::Value const jsonNull{}; MultiApiJson<1, 3> subject{}; static_assert(sizeof(subject) == sizeof(subject.val)); static_assert(subject.size == subject.val.size()); static_assert( std::is_same_v>); BEAST_EXPECT(subject.val.size() == 3); BEAST_EXPECT( (subject.val == std::array{jsonNull, jsonNull, jsonNull})); subject.val[0] = obj1; subject.val[1] = obj2; { testcase("forApiVersions, forAllApiVersions"); // Some static data for test inputs static const int primes[] = {2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97}; static_assert(std::size(primes) > RPC::apiMaximumValidVersion); MultiApiJson<1, 3> s1{}; static_assert( s1.size == RPC::apiMaximumValidVersion + 1 - RPC::apiMinimumSupportedVersion); int productAllVersions = 1; for (unsigned i = RPC::apiMinimumSupportedVersion; i <= RPC::apiMaximumValidVersion; ++i) { auto const index = i - RPC::apiMinimumSupportedVersion; BEAST_EXPECT(index == s1.index(i)); BEAST_EXPECT(s1.valid(i)); s1.val[index] = makeJson("value", primes[i]); productAllVersions *= primes[i]; } BEAST_EXPECT(!s1.valid(0)); BEAST_EXPECT(!s1.valid(RPC::apiMaximumValidVersion + 1)); BEAST_EXPECT( !s1.valid(std::numeric_limits::max())); int result = 1; static_assert( RPC::apiMinimumSupportedVersion + 1 <= RPC::apiMaximumValidVersion); forApiVersions< RPC::apiMinimumSupportedVersion, RPC::apiMinimumSupportedVersion + 1>( std::as_const(s1).visit(), [this]( Json::Value const& json, unsigned int version, int* result) { BEAST_EXPECT( version >= RPC::apiMinimumSupportedVersion && version <= RPC::apiMinimumSupportedVersion + 1); if (BEAST_EXPECT(json.isMember("value"))) { *result *= json["value"].asInt(); } }, &result); BEAST_EXPECT( result == primes[RPC::apiMinimumSupportedVersion] * primes[RPC::apiMinimumSupportedVersion + 1]); // Check all the values with mutable data forAllApiVersions( s1.visit(), [&s1, this](Json::Value& json, auto version) { BEAST_EXPECT(s1.val[s1.index(version)] == json); if (BEAST_EXPECT(json.isMember("value"))) { BEAST_EXPECT(json["value"].asInt() == primes[version]); } }); result = 1; forAllApiVersions( std::as_const(s1).visit(), [this]( Json::Value const& json, unsigned int version, int* result) { BEAST_EXPECT( version >= RPC::apiMinimumSupportedVersion && version <= RPC::apiMaximumValidVersion); if (BEAST_EXPECT(json.isMember("value"))) { *result *= json["value"].asInt(); } }, &result); BEAST_EXPECT(result == productAllVersions); // Several overloads we want to fail static_assert([](auto&& v) { return !requires { forAllApiVersions( std::forward(v).visit(), // [](Json::Value&, auto) {}); // missing const }; }(std::as_const(s1))); static_assert([](auto&& v) { return !requires { forAllApiVersions( std::forward(v).visit(), // [](Json::Value&) {}); // missing const }; }(std::as_const(s1))); static_assert([](auto&& v) { return !requires { forAllApiVersions( std::forward(v).visit(), // []() {}); // missing parameters }; }(std::as_const(s1))); static_assert([](auto&& v) { return !requires { forAllApiVersions( std::forward(v).visit(), // [](auto) {}, 1); // missing parameters }; }(std::as_const(s1))); static_assert([](auto&& v) { return !requires { forAllApiVersions( std::forward(v).visit(), // [](auto, auto) {}, 1); // missing parameters }; }(std::as_const(s1))); static_assert([](auto&& v) { return !requires { forAllApiVersions( std::forward(v).visit(), // [](auto, auto, const char*) {}, 1); // parameter type mismatch }; }(std::as_const(s1))); // Sanity checks static_assert([](auto&& v) { return requires { forAllApiVersions( std::forward(v).visit(), // [](auto) {}); }; }(s1)); static_assert([](auto&& v) { return requires { forAllApiVersions( std::forward(v).visit(), // [](Json::Value const&) {}); }; }(std::as_const(s1))); static_assert([](auto&& v) { return requires { forAllApiVersions( std::forward(v).visit(), // [](auto...) {}); }; }(s1)); static_assert([](auto&& v) { return requires { forAllApiVersions( std::forward(v).visit(), // [](Json::Value const&, auto...) {}); }; }(std::as_const(s1))); static_assert([](auto&& v) { return requires { forAllApiVersions( std::forward(v).visit(), // [](Json::Value&, auto, auto, auto...) {}, 0, ""); }; }(s1)); static_assert([](auto&& v) { return requires { forAllApiVersions( std::forward(v).visit(), // []( Json::Value const&, std::integral_constant, int, const char*) {}, 0, ""); }; }(std::as_const(s1))); static_assert([](auto&& v) { return requires { forAllApiVersions( std::forward(v).visit(), // [](auto...) {}); }; }(std::move(s1))); static_assert([](auto&& v) { return requires { forAllApiVersions( std::forward(v).visit(), // [](auto...) {}); }; }(std::move(std::as_const(s1)))); } { testcase("default copy construction / assignment"); MultiApiJson<1, 3> x{subject}; BEAST_EXPECT(x.val.size() == subject.val.size()); BEAST_EXPECT(x.val[0] == subject.val[0]); BEAST_EXPECT(x.val[1] == subject.val[1]); BEAST_EXPECT(x.val[2] == subject.val[2]); BEAST_EXPECT(x.val == subject.val); BEAST_EXPECT(&x.val[0] != &subject.val[0]); BEAST_EXPECT(&x.val[1] != &subject.val[1]); BEAST_EXPECT(&x.val[2] != &subject.val[2]); MultiApiJson<1, 3> y; BEAST_EXPECT((y.val == std::array{})); y = subject; BEAST_EXPECT(y.val == subject.val); BEAST_EXPECT(&y.val[0] != &subject.val[0]); BEAST_EXPECT(&y.val[1] != &subject.val[1]); BEAST_EXPECT(&y.val[2] != &subject.val[2]); y = std::move(x); BEAST_EXPECT(y.val == subject.val); BEAST_EXPECT(&y.val[0] != &subject.val[0]); BEAST_EXPECT(&y.val[1] != &subject.val[1]); BEAST_EXPECT(&y.val[2] != &subject.val[2]); } { testcase("set"); auto x = MultiApiJson<1, 2>{Json::objectValue}; x.set("name1", 42); BEAST_EXPECT(x.val[0].isMember("name1")); BEAST_EXPECT(x.val[1].isMember("name1")); BEAST_EXPECT(x.val[0]["name1"].isInt()); BEAST_EXPECT(x.val[1]["name1"].isInt()); BEAST_EXPECT(x.val[0]["name1"].asInt() == 42); BEAST_EXPECT(x.val[1]["name1"].asInt() == 42); x.set("name2", "bar"); BEAST_EXPECT(x.val[0].isMember("name2")); BEAST_EXPECT(x.val[1].isMember("name2")); BEAST_EXPECT(x.val[0]["name2"].isString()); BEAST_EXPECT(x.val[1]["name2"].isString()); BEAST_EXPECT(x.val[0]["name2"].asString() == "bar"); BEAST_EXPECT(x.val[1]["name2"].asString() == "bar"); // Tests of requires clause - these are expected to match static_assert([](auto&& v) { return requires { v.set("name", Json::nullValue); }; }(x)); static_assert([](auto&& v) { return requires { v.set("name", "value"); }; }(x)); static_assert([](auto&& v) { return requires { v.set("name", true); }; }(x)); static_assert([](auto&& v) { return requires { v.set("name", 42); }; }(x)); // Tests of requires clause - these are expected NOT to match struct foo_t final { }; static_assert([](auto&& v) { return !requires { v.set("name", foo_t{}); }; }(x)); static_assert([](auto&& v) { return !requires { v.set("name", std::nullopt); }; }(x)); } { testcase("isMember"); // Well defined behaviour even if we have different types of members BEAST_EXPECT(subject.isMember("foo") == decltype(subject)::none); { // All variants have element "One", none have element "Two" MultiApiJson<1, 2> s1{}; s1.val[0] = makeJson("One", 12); s1.val[1] = makeJson("One", 42); BEAST_EXPECT(s1.isMember("One") == decltype(s1)::all); BEAST_EXPECT(s1.isMember("Two") == decltype(s1)::none); } { // Some variants have element "One" and some have "Two" MultiApiJson<1, 2> s2{}; s2.val[0] = makeJson("One", 12); s2.val[1] = makeJson("Two", 42); BEAST_EXPECT(s2.isMember("One") == decltype(s2)::some); BEAST_EXPECT(s2.isMember("Two") == decltype(s2)::some); } { // Not all variants have element "One", because last one is null MultiApiJson<1, 3> s3{}; s3.val[0] = makeJson("One", 12); s3.val[1] = makeJson("One", 42); BEAST_EXPECT(s3.isMember("One") == decltype(s3)::some); BEAST_EXPECT(s3.isMember("Two") == decltype(s3)::none); } } { testcase("visitor"); MultiApiJson<1, 3> s1{}; s1.val[0] = makeJson("value", 2); s1.val[1] = makeJson("value", 3); s1.val[2] = makeJson("value", 5); BEAST_EXPECT(not s1.valid(0)); BEAST_EXPECT(s1.index(0) == 0); BEAST_EXPECT(s1.valid(1)); BEAST_EXPECT(s1.index(1) == 0); BEAST_EXPECT(not s1.valid(4)); // Test different overloads static_assert([](auto&& v) { return requires { v.visitor( v, std::integral_constant{}, [](Json::Value&, std::integral_constant) { }); }; }(s1)); BEAST_EXPECT( s1.visitor( s1, std::integral_constant{}, Overload{ [](Json::Value& v, std::integral_constant) { return v["value"].asInt(); }, [](Json::Value const&, auto) { return 0; }, [](auto, auto) { return 0; }}) == 2); static_assert([](auto&& v) { return requires { v.visitor( v, std::integral_constant{}, [](Json::Value&) {}); }; }(s1)); BEAST_EXPECT( s1.visitor( s1, std::integral_constant{}, Overload{ [](Json::Value& v) { return v["value"].asInt(); }, [](Json::Value const&) { return 0; }, [](auto...) { return 0; }}) == 2); static_assert([](auto&& v) { return requires { v.visitor( v, std::integral_constant{}, [](Json::Value const&, std::integral_constant) {}); }; }(std::as_const(s1))); BEAST_EXPECT( s1.visitor( std::as_const(s1), std::integral_constant{}, Overload{ [](Json::Value const& v, std::integral_constant) { return v["value"].asInt(); }, [](Json::Value&, auto) { return 0; }, [](auto, auto) { return 0; }}) == 3); static_assert([](auto&& v) { return requires { v.visitor( v, std::integral_constant{}, [](Json::Value const&) {}); }; }(std::as_const(s1))); BEAST_EXPECT( s1.visitor( std::as_const(s1), std::integral_constant{}, Overload{ [](Json::Value const& v) { return v["value"].asInt(); }, [](Json::Value&) { return 0; }, [](auto...) { return 0; }}) == 3); static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](Json::Value&, unsigned) {}); }; }(s1)); BEAST_EXPECT( s1.visitor( s1, // 3u, Overload{ [](Json::Value& v, unsigned) { return v["value"].asInt(); }, [](Json::Value const&, unsigned) { return 0; }, [](auto, auto) { return 0; }}) == 5); static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](Json::Value&) {}); }; }(s1)); BEAST_EXPECT( s1.visitor( s1, // 3, Overload{ [](Json::Value& v) { return v["value"].asInt(); }, [](Json::Value const&) { return 0; }, [](auto...) { return 0; }}) == 5); static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](Json::Value const&, unsigned) {}); }; }(std::as_const(s1))); BEAST_EXPECT( s1.visitor( std::as_const(s1), // 2u, Overload{ [](Json::Value const& v, unsigned) { return v["value"].asInt(); }, [](Json::Value const&, auto) { return 0; }, [](auto, auto) { return 0; }}) == 3); static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](Json::Value const&) {}); }; }(std::as_const(s1))); BEAST_EXPECT( s1.visitor( std::as_const(s1), // 2, Overload{ [](Json::Value const& v) { return v["value"].asInt(); }, [](Json::Value&) { return 0; }, [](auto...) { return 0; }}) == 3); // Test type conversions BEAST_EXPECT( s1.visitor( s1, std::integral_constant{}, // to unsigned [](Json::Value& v, unsigned) { return v["value"].asInt(); }) == 2); BEAST_EXPECT( s1.visitor( std::as_const(s1), std::integral_constant{}, // to unsigned [](Json::Value const& v, unsigned) { return v["value"].asInt(); }) == 3); BEAST_EXPECT( s1.visitor( s1, // to const std::integral_constant{}, [](Json::Value const& v, auto) { return v["value"].asInt(); }) == 5); BEAST_EXPECT( s1.visitor( s1, // to const std::integral_constant{}, [](Json::Value const& v) { return v["value"].asInt(); }) == 5); BEAST_EXPECT( s1.visitor( s1, 3, // to long [](Json::Value& v, long) { return v["value"].asInt(); }) == 5); BEAST_EXPECT( s1.visitor( std::as_const(s1), 1, // to long [](Json::Value const& v, long) { return v["value"].asInt(); }) == 2); BEAST_EXPECT( s1.visitor( s1, // to const 2, [](Json::Value const& v, auto) { return v["value"].asInt(); }) == 3); BEAST_EXPECT( s1.visitor( s1, // type deduction 2, [](auto& v, auto) { return v["value"].asInt(); }) == 3); BEAST_EXPECT( s1.visitor( s1, // to const, type deduction 2, [](auto const& v, auto) { return v["value"].asInt(); }) == 3); BEAST_EXPECT( s1.visitor( s1, // type deduction 2, [](auto& v) { return v["value"].asInt(); }) == 3); BEAST_EXPECT( s1.visitor( s1, // to const, type deduction 2, [](auto const& v) { return v["value"].asInt(); }) == 3); // Test passing of additional arguments BEAST_EXPECT( s1.visitor( s1, std::integral_constant{}, [](Json::Value& v, auto ver, auto a1, auto a2) { return ver * a1 * a2 * v["value"].asInt(); }, 5, 7) == 2 * 5 * 7 * 3); BEAST_EXPECT( s1.visitor( s1, std::integral_constant{}, [](Json::Value& v, auto ver, auto... args) { return ver * (1 * ... * args) * v["value"].asInt(); }, 5, 7) == 2 * 5 * 7 * 3); // Several overloads we want to fail static_assert([](auto&& v) { return !requires { v.visitor( v, 1, // [](Json::Value&, auto) {}); // missing const }; }(std::as_const(s1))); static_assert([](auto&& v) { return !requires { v.visitor( std::move(v), // cannot bind rvalue 1, [](Json::Value&, auto) {}); }; }(s1)); static_assert([](auto&& v) { return !requires { v.visitor( v, 1, // []() {}); // missing parameter }; }(s1)); static_assert([](auto&& v) { return !requires { v.visitor( v, 1, // [](Json::Value&, int, int) {}); // too many parameters }; }(s1)); // Want these to be unambiguous static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](auto) {}); }; }(s1)); static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](Json::Value&) {}); }; }(s1)); static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](Json::Value&, auto...) {}); }; }(s1)); static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](Json::Value const&) {}); }; }(s1)); static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](Json::Value const&, auto...) {}); }; }(s1)); static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](auto...) {}); }; }(s1)); static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](auto, auto...) {}); }; }(s1)); static_assert([](auto&& v) { return requires { v.visitor(v, 1, [](auto, auto, auto...) {}); }; }(s1)); static_assert([](auto&& v) { return requires { v.visitor( v, 1, [](auto, auto, auto...) {}, ""); }; }(s1)); static_assert([](auto&& v) { return requires { v.visitor( v, 1, [](auto, auto, auto, auto...) {}, ""); }; }(s1)); } { testcase("visit"); MultiApiJson<1, 3> s1{}; s1.val[0] = makeJson("value", 2); s1.val[1] = makeJson("value", 3); s1.val[2] = makeJson("value", 5); // Test different overloads static_assert([](auto&& v) { return requires { v.visit( std::integral_constant{}, [](Json::Value&, std::integral_constant) { }); }; }(s1)); BEAST_EXPECT( s1.visit( std::integral_constant{}, Overload{ [](Json::Value& v, std::integral_constant) { return v["value"].asInt(); }, [](Json::Value const&, auto) { return 0; }, [](auto, auto) { return 0; }}) == 2); static_assert([](auto&& v) { return requires { v.visit()( std::integral_constant{}, [](Json::Value&, std::integral_constant) { }); }; }(s1)); BEAST_EXPECT( s1.visit()( std::integral_constant{}, Overload{ [](Json::Value& v, std::integral_constant) { return v["value"].asInt(); }, [](Json::Value const&, auto) { return 0; }, [](auto, auto) { return 0; }}) == 2); static_assert([](auto&& v) { return requires { v.visit( std::integral_constant{}, [](Json::Value&) {}); }; }(s1)); BEAST_EXPECT( s1.visit( std::integral_constant{}, Overload{ [](Json::Value& v) { return v["value"].asInt(); }, [](Json::Value const&) { return 0; }, [](auto...) { return 0; }}) == 2); static_assert([](auto&& v) { return requires { v.visit()( std::integral_constant{}, [](Json::Value&) {}); }; }(s1)); BEAST_EXPECT( s1.visit()( std::integral_constant{}, Overload{ [](Json::Value& v) { return v["value"].asInt(); }, [](Json::Value const&) { return 0; }, [](auto...) { return 0; }}) == 2); static_assert([](auto&& v) { return requires { v.visit( std::integral_constant{}, [](Json::Value const&, std::integral_constant) {}); }; }(std::as_const(s1))); BEAST_EXPECT( std::as_const(s1).visit( std::integral_constant{}, Overload{ [](Json::Value const& v, std::integral_constant) { return v["value"].asInt(); }, [](Json::Value&, auto) { return 0; }, [](auto, auto) { return 0; }}) == 3); static_assert([](auto&& v) { return requires { v.visit()( std::integral_constant{}, [](Json::Value const&, std::integral_constant) {}); }; }(std::as_const(s1))); BEAST_EXPECT( std::as_const(s1).visit()( std::integral_constant{}, Overload{ [](Json::Value const& v, std::integral_constant) { return v["value"].asInt(); }, [](Json::Value&, auto) { return 0; }, [](auto, auto) { return 0; }}) == 3); static_assert([](auto&& v) { return requires { v.visit( std::integral_constant{}, [](Json::Value const&) {}); }; }(std::as_const(s1))); BEAST_EXPECT( std::as_const(s1).visit( std::integral_constant{}, Overload{ [](Json::Value const& v) { return v["value"].asInt(); }, [](Json::Value&) { return 0; }, [](auto...) { return 0; }}) == 3); static_assert([](auto&& v) { return requires { v.visit()( std::integral_constant{}, [](Json::Value const&) {}); }; }(std::as_const(s1))); BEAST_EXPECT( std::as_const(s1).visit()( std::integral_constant{}, Overload{ [](Json::Value const& v) { return v["value"].asInt(); }, [](Json::Value&) { return 0; }, [](auto...) { return 0; }}) == 3); static_assert([](auto&& v) { return requires { v.visit(1, [](Json::Value&, unsigned) {}); }; }(s1)); BEAST_EXPECT( s1.visit( 3u, Overload{ [](Json::Value& v, unsigned) { return v["value"].asInt(); }, [](Json::Value const&, unsigned) { return 0; }, [](Json::Value&, auto) { return 0; }, [](auto, auto) { return 0; }}) == 5); static_assert([](auto&& v) { return requires { v.visit()(1, [](Json::Value&, unsigned) {}); }; }(s1)); BEAST_EXPECT( s1.visit()( 3u, Overload{ [](Json::Value& v, unsigned) { return v["value"].asInt(); }, [](Json::Value const&, unsigned) { return 0; }, [](Json::Value&, auto) { return 0; }, [](auto, auto) { return 0; }}) == 5); static_assert([](auto&& v) { return requires { v.visit(1, [](Json::Value&) {}); }; }(s1)); BEAST_EXPECT( s1.visit( 3, Overload{ [](Json::Value& v) { return v["value"].asInt(); }, [](Json::Value const&) { return 0; }, [](auto...) { return 0; }}) == 5); static_assert([](auto&& v) { return requires { v.visit()(1, [](Json::Value&) {}); }; }(s1)); BEAST_EXPECT( s1.visit()( 3, Overload{ [](Json::Value& v) { return v["value"].asInt(); }, [](Json::Value const&) { return 0; }, [](auto...) { return 0; }}) == 5); static_assert([](auto&& v) { return requires { v.visit(1, [](Json::Value const&, unsigned) {}); }; }(std::as_const(s1))); BEAST_EXPECT( std::as_const(s1).visit( 2u, Overload{ [](Json::Value const& v, unsigned) { return v["value"].asInt(); }, [](Json::Value const&, auto) { return 0; }, [](Json::Value&, unsigned) { return 0; }, [](auto, auto) { return 0; }}) == 3); static_assert([](auto&& v) { return requires { v.visit()(1, [](Json::Value const&, unsigned) {}); }; }(std::as_const(s1))); BEAST_EXPECT( std::as_const(s1).visit()( 2u, Overload{ [](Json::Value const& v, unsigned) { return v["value"].asInt(); }, [](Json::Value const&, auto) { return 0; }, [](Json::Value&, unsigned) { return 0; }, [](auto, auto) { return 0; }}) == 3); static_assert([](auto&& v) { return requires { v.visit(1, [](Json::Value const&) {}); }; }(std::as_const(s1))); BEAST_EXPECT( std::as_const(s1).visit( 2, Overload{ [](Json::Value const& v) { return v["value"].asInt(); }, [](Json::Value&) { return 0; }, [](auto...) { return 0; }}) == 3); static_assert([](auto&& v) { return requires { v.visit()(1, [](Json::Value const&) {}); }; }(std::as_const(s1))); BEAST_EXPECT( std::as_const(s1).visit()( 2, Overload{ [](Json::Value const& v) { return v["value"].asInt(); }, [](Json::Value&) { return 0; }, [](auto...) { return 0; }}) == 3); // Rvalue MultivarJson visitor only binds to regular reference static_assert([](auto&& v) { return !requires { std::forward(v).visit(1, [](Json::Value&&) {}); }; }(std::move(s1))); static_assert([](auto&& v) { return !requires { std::forward(v).visit( 1, [](Json::Value const&&) {}); }; }(std::move(s1))); static_assert([](auto&& v) { return requires { std::forward(v).visit(1, [](Json::Value&) {}); }; }(std::move(s1))); static_assert([](auto&& v) { return requires { std::forward(v).visit( 1, [](Json::Value const&) {}); }; }(std::move(s1))); static_assert([](auto&& v) { return !requires { std::forward(v).visit()( 1, [](Json::Value&&) {}); }; }(std::move(s1))); static_assert([](auto&& v) { return !requires { std::forward(v).visit()( 1, [](Json::Value const&&) {}); }; }(std::move(s1))); static_assert([](auto&& v) { return requires { std::forward(v).visit()( 1, [](Json::Value&) {}); }; }(std::move(s1))); static_assert([](auto&& v) { return requires { std::forward(v).visit()( 1, [](Json::Value const&) {}); }; }(std::move(s1))); static_assert([](auto&& v) { return !requires { std::forward(v).visit( 1, [](Json::Value const&&) {}); }; }(std::move(std::as_const(s1)))); static_assert([](auto&& v) { return requires { std::forward(v).visit( 1, [](Json::Value const&) {}); }; }(std::move(std::as_const(s1)))); static_assert([](auto&& v) { return !requires { std::forward(v).visit()( 1, [](Json::Value const&&) {}); }; }(std::move(std::as_const(s1)))); static_assert([](auto&& v) { return requires { std::forward(v).visit()( 1, [](Json::Value const&) {}); }; }(std::move(std::as_const(s1)))); // Missing const static_assert([](auto&& v) { return !requires { std::forward(v).visit( 1, [](Json::Value&, auto) {}); }; }(std::as_const(s1))); static_assert([](auto&& v) { return !requires { std::forward(v).visit()( 1, [](Json::Value&, auto) {}); }; }(std::as_const(s1))); // Missing parameter static_assert([](auto&& v) { return !requires { std::forward(v).visit(1, []() {}); }; }(s1)); static_assert([](auto&& v) { return !requires { std::forward(v).visit()(1, []() {}); }; }(s1)); // Sanity checks static_assert([](auto&& v) { return requires { std::forward(v).visit(1, [](auto...) {}); }; }(std::as_const(s1))); static_assert([](auto&& v) { return requires { std::forward(v).visit()(1, [](auto...) {}); }; }(std::as_const(s1))); } } }; BEAST_DEFINE_TESTSUITE(MultiApiJson, protocol, ripple); } // namespace test } // namespace ripple