// __ _____ _____ _____ // __| | __| | | | JSON for Modern C++ (supporting code) // | | |__ | | | | | | version 3.12.0 // |_____|_____|_____|_|___| https://github.com/nlohmann/json // // SPDX-FileCopyrightText: 2013-2026 Niels Lohmann // SPDX-License-Identifier: MIT // cmake/test.cmake selects the C++ standard versions with which to build a // unit test based on the presence of JSON_HAS_CPP_ macros. // When using macros that are only defined for particular versions of the standard // (e.g., JSON_HAS_FILESYSTEM for C++17 and up), please mention the corresponding // version macro in a comment close by, like this: // JSON_HAS_CPP_ (do not remove; see note at top of file) #include "doctest_compatibility.h" #include using nlohmann::json; #include #if defined(__cpp_lib_concepts) && defined(JSON_HAS_CPP_20) #include #endif namespace { TEST_CASE("Use arbitrary stdlib container") { std::string raw_data = "[1,2,3,4]"; std::list data(raw_data.begin(), raw_data.end()); json as_json = json::parse(data.begin(), data.end()); CHECK(as_json.at(0) == 1); CHECK(as_json.at(1) == 2); CHECK(as_json.at(2) == 3); CHECK(as_json.at(3) == 4); } struct MyContainer { const char* data; }; const char* begin(const MyContainer& c) { return c.data; } const char* end(const MyContainer& c) { return c.data + strlen(c.data); // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic) } TEST_CASE("Custom container non-member begin/end") { const MyContainer data{"[1,2,3,4]"}; json as_json = json::parse(data); CHECK(as_json.at(0) == 1); CHECK(as_json.at(1) == 2); CHECK(as_json.at(2) == 3); CHECK(as_json.at(3) == 4); } struct MyContainerNonConstADL { char* data; std::size_t size; }; char* begin(MyContainerNonConstADL& c) { return c.data; } char* end(MyContainerNonConstADL& c) { return c.data + c.size; // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic) } TEST_CASE("Custom container non-member non-const begin/end") { // Container with lvalue-only non-const ADL begin/end (bug reproduction) std::string raw_data = "[1,2,3,4]"; MyContainerNonConstADL data{&raw_data[0], raw_data.size()}; // NOLINT(readability-container-data-pointer) const json as_json = json::parse(data); CHECK(as_json.at(0) == 1); CHECK(as_json.at(1) == 2); CHECK(as_json.at(2) == 3); CHECK(as_json.at(3) == 4); // Same container with accept() CHECK(json::accept(data)); } TEST_CASE("Custom container non-member begin/end, rvalue") { // Regression check: rvalue container parsing should still work const json as_json = json::parse(MyContainer{"[1,2,3,4]"}); CHECK(as_json.at(0) == 1); CHECK(as_json.at(1) == 2); CHECK(as_json.at(2) == 3); CHECK(as_json.at(3) == 4); } TEST_CASE("Custom container member begin/end") { struct MyContainer2 { const char* data; const char* begin() const noexcept { return data; } const char* end() const noexcept { return data + strlen(data); // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic) } }; const MyContainer2 data{"[1,2,3,4]"}; json as_json = json::parse(data); CHECK(as_json.at(0) == 1); CHECK(as_json.at(1) == 2); CHECK(as_json.at(2) == 3); CHECK(as_json.at(3) == 4); } TEST_CASE("Custom iterator") { const char* raw_data = "[1,2,3,4]"; struct MyIterator { using difference_type = std::size_t; using value_type = char; using pointer = const char*; using reference = const char&; using iterator_category = std::input_iterator_tag; MyIterator& operator++() { ++ptr; // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic) return *this; } reference operator*() const { return *ptr; } bool operator!=(const MyIterator& rhs) const { return ptr != rhs.ptr; } const char* ptr; }; // avoid -Wunused-local-typedefs CHECK(std::is_same::value); CHECK(std::is_same::value); CHECK(std::is_same::value); CHECK(std::is_same::value); CHECK(std::is_same::value); const MyIterator begin{raw_data}; const MyIterator end{raw_data + strlen(raw_data)}; // NOLINT(cppcoreguidelines-pro-bounds-pointer-arithmetic) json as_json = json::parse(begin, end); CHECK(as_json.at(0) == 1); CHECK(as_json.at(1) == 2); CHECK(as_json.at(2) == 3); CHECK(as_json.at(3) == 4); } // Custom sentinel type for testing heterogeneous iterator+sentinel support struct CustomSentinel { const char* end_ptr; // only the iterator-first direction (it != sentinel) is ever evaluated by // the library's parse loop; a reversed-order overload would go unused and // trip -Wunneeded-internal-declaration under -Weverything friend bool operator!=(const char* it, const CustomSentinel& sentinel) { return it != sentinel.end_ptr; } }; TEST_CASE("Parse with heterogeneous iterator and sentinel types") { const std::string json_str = R"({"key":"value"})"; const char* end_ptr = json_str.data() + json_str.size(); // Parse using pointer and sentinel (different types) json j = json::parse(json_str.data(), CustomSentinel{end_ptr}); CHECK(j["key"] == "value"); // Accept using pointer and sentinel CHECK(json::accept(json_str.data(), CustomSentinel{end_ptr})); // Test that the same-type case still works std::string raw_data = R"([1,2,3])"; std::list data(raw_data.begin(), raw_data.end()); json j2 = json::parse(data.begin(), data.end()); CHECK(j2.at(0) == 1); } #if defined(__cpp_lib_concepts) && defined(JSON_HAS_CPP_20) // JSON_HAS_CPP_20 (do not remove; see note at top of file) TEST_CASE("Parse with std::counted_iterator and std::default_sentinel_t") { using iterator_type = std::string::const_iterator; const std::string json_str = R"({"key":"value","array":[1,2,3]})"; const auto len = static_cast>(json_str.size()); const std::counted_iterator first(json_str.begin(), len); const json j = json::parse(first, std::default_sentinel); CHECK(j["key"] == "value"); CHECK(j["array"].size() == 3); const std::counted_iterator first2(json_str.begin(), len); CHECK(json::accept(first2, std::default_sentinel)); } #endif } // namespace