#include #include #include #include #include #include "json11.hpp" #include #include #include #include using namespace json11; using std::string; // Check that Json has the properties we want. #include #define CHECK_TRAIT(x) static_assert(std::x::value, #x) CHECK_TRAIT(is_nothrow_constructible); CHECK_TRAIT(is_nothrow_default_constructible); CHECK_TRAIT(is_copy_constructible); CHECK_TRAIT(is_nothrow_move_constructible); CHECK_TRAIT(is_copy_assignable); CHECK_TRAIT(is_nothrow_move_assignable); CHECK_TRAIT(is_nothrow_destructible); void parse_from_stdin() { string buf; string line; while (std::getline(std::cin, line)) { buf += line + "\n"; } string err; auto json = Json::parse(buf, err); if (!err.empty()) { printf("Failed: %s\n", err.c_str()); } else { printf("Result: %s\n", json.dump().c_str()); } } int main(int argc, char **argv) { if (argc == 2 && argv[1] == string("--stdin")) { parse_from_stdin(); return 0; } const string simple_test = R"({"k1":"v1", "k2":42, "k3":["a",123,true,false,null]})"; string err; auto json = Json::parse(simple_test, err); std::cout << "k1: " << json["k1"].string_value() << "\n"; std::cout << "k3: " << json["k3"].dump() << "\n"; for (auto &k : json["k3"].array_items()) { std::cout << " - " << k.dump() << "\n"; } const string comment_test = R"({ // comment /* with nested comment */ "a": 1, // comment // continued "b": "text", /* multi line comment */ // and single-line comment "c": [1, 2, 3] })"; string err_comment; auto json_comment = Json::parse( comment_test, err_comment, /*detect_comments=*/ true); if (!err_comment.empty()) { printf("Failed: %s\n", err_comment.c_str()); } else { printf("Result: %s\n", json_comment.dump().c_str()); } string failing_comment_test = R"({ /* bad comment "a": 1, })"; string err_failing_comment; auto json_failing_comment = Json::parse( failing_comment_test, err_failing_comment, /*detect_comments=*/ true); if (!err_failing_comment.empty()) { printf("Failed: %s\n", err_failing_comment.c_str()); } else { printf("Result: %s\n", json_failing_comment.dump().c_str()); } failing_comment_test = R"({ / / bad comment })"; json_failing_comment = Json::parse( failing_comment_test, err_failing_comment, /*detect_comments=*/ true); if (!err_failing_comment.empty()) { printf("Failed: %s\n", err_failing_comment.c_str()); } else { printf("Result: %s\n", json_failing_comment.dump().c_str()); } failing_comment_test = R"({// bad comment })"; json_failing_comment = Json::parse( failing_comment_test, err_failing_comment, /*detect_comments=*/ true); if (!err_failing_comment.empty()) { printf("Failed: %s\n", err_failing_comment.c_str()); } else { printf("Result: %s\n", json_failing_comment.dump().c_str()); } failing_comment_test = R"({ "a": 1 }/)"; json_failing_comment = Json::parse( failing_comment_test, err_failing_comment, /*detect_comments=*/ true); if (!err_failing_comment.empty()) { printf("Failed: %s\n", err_failing_comment.c_str()); } else { printf("Result: %s\n", json_failing_comment.dump().c_str()); } failing_comment_test = R"({/* bad comment *})"; json_failing_comment = Json::parse( failing_comment_test, err_failing_comment, /*detect_comments=*/ true); if (!err_failing_comment.empty()) { printf("Failed: %s\n", err_failing_comment.c_str()); } else { printf("Result: %s\n", json_failing_comment.dump().c_str()); } std::list l1 { 1, 2, 3 }; std::vector l2 { 1, 2, 3 }; std::set l3 { 1, 2, 3 }; assert(Json(l1) == Json(l2)); assert(Json(l2) == Json(l3)); std::map m1 { { "k1", "v1" }, { "k2", "v2" } }; std::unordered_map m2 { { "k1", "v1" }, { "k2", "v2" } }; assert(Json(m1) == Json(m2)); // Json literals Json obj = Json::object({ { "k1", "v1" }, { "k2", 42.0 }, { "k3", Json::array({ "a", 123.0, true, false, nullptr }) }, }); std::cout << "obj: " << obj.dump() << "\n"; assert(Json("a").number_value() == 0); assert(Json("a").string_value() == "a"); assert(Json().number_value() == 0); assert(obj == json); assert(Json(42) == Json(42.0)); assert(Json(42) != Json(42.1)); const string unicode_escape_test = R"([ "blah\ud83d\udca9blah\ud83dblah\udca9blah\u0000blah\u1234" ])"; const char utf8[] = "blah" "\xf0\x9f\x92\xa9" "blah" "\xed\xa0\xbd" "blah" "\xed\xb2\xa9" "blah" "\0" "blah" "\xe1\x88\xb4"; Json uni = Json::parse(unicode_escape_test, err); assert(uni[0].string_value().size() == (sizeof utf8) - 1); assert(std::memcmp(uni[0].string_value().data(), utf8, sizeof utf8) == 0); // Demonstrates the behavior change in Xcode 7 / Clang 3.7 described // here: https://llvm.org/bugs/show_bug.cgi?id=23812 Json nested_array = Json::array { Json::array { 1, 2, 3 } }; assert(nested_array.is_array()); assert(nested_array.array_items().size() == 1); assert(nested_array.array_items()[0].is_array()); assert(nested_array.array_items()[0].array_items().size() == 3); Json my_json = Json::object { { "key1", "value1" }, { "key2", false }, { "key3", Json::array { 1, 2, 3 } }, }; std::string json_str = my_json.dump(); printf("%s\n", json_str.c_str()); class Point { public: int x; int y; Point (int x, int y) : x(x), y(y) {} Json to_json() const { return Json::array { x, y }; } }; std::vector points = { { 1, 2 }, { 10, 20 }, { 100, 200 } }; std::string points_json = Json(points).dump(); printf("%s\n", points_json.c_str()); }