/* __ _____ _____ _____ __| | __| | | | JSON for Modern C++ (test suite) | | |__ | | | | | | version 2.0.7 |_____|_____|_____|_|___| https://github.com/nlohmann/json Licensed under the MIT License . Copyright (c) 2013-2016 Niels Lohmann . Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "catch.hpp" #define private public #include "json.hpp" using nlohmann::json; TEST_CASE("JSON pointers") { SECTION("errors") { CHECK_THROWS_AS(json::json_pointer("foo"), std::domain_error); CHECK_THROWS_WITH(json::json_pointer("foo"), "JSON pointer must be empty or begin with '/'"); CHECK_THROWS_AS(json::json_pointer("/~~"), std::domain_error); CHECK_THROWS_WITH(json::json_pointer("/~~"), "escape error: '~' must be followed with '0' or '1'"); CHECK_THROWS_AS(json::json_pointer("/~"), std::domain_error); CHECK_THROWS_WITH(json::json_pointer("/~"), "escape error: '~' must be followed with '0' or '1'"); json::json_pointer p; CHECK_THROWS_AS(p.top(), std::domain_error); CHECK_THROWS_WITH(p.top(), "JSON pointer has no parent"); CHECK_THROWS_AS(p.pop_back(), std::domain_error); CHECK_THROWS_WITH(p.pop_back(), "JSON pointer has no parent"); } SECTION("examples from RFC 6901") { SECTION("nonconst access") { json j = R"( { "foo": ["bar", "baz"], "": 0, "a/b": 1, "c%d": 2, "e^f": 3, "g|h": 4, "i\\j": 5, "k\"l": 6, " ": 7, "m~n": 8 } )"_json; // the whole document CHECK(j[json::json_pointer()] == j); CHECK(j[json::json_pointer("")] == j); // array access CHECK(j[json::json_pointer("/foo")] == j["foo"]); CHECK(j[json::json_pointer("/foo/0")] == j["foo"][0]); CHECK(j[json::json_pointer("/foo/1")] == j["foo"][1]); CHECK(j["/foo/1"_json_pointer] == j["foo"][1]); // checked array access CHECK(j.at(json::json_pointer("/foo/0")) == j["foo"][0]); CHECK(j.at(json::json_pointer("/foo/1")) == j["foo"][1]); // empty string access CHECK(j[json::json_pointer("/")] == j[""]); // other cases CHECK(j[json::json_pointer("/ ")] == j[" "]); CHECK(j[json::json_pointer("/c%d")] == j["c%d"]); CHECK(j[json::json_pointer("/e^f")] == j["e^f"]); CHECK(j[json::json_pointer("/g|h")] == j["g|h"]); CHECK(j[json::json_pointer("/i\\j")] == j["i\\j"]); CHECK(j[json::json_pointer("/k\"l")] == j["k\"l"]); // checked access CHECK(j.at(json::json_pointer("/ ")) == j[" "]); CHECK(j.at(json::json_pointer("/c%d")) == j["c%d"]); CHECK(j.at(json::json_pointer("/e^f")) == j["e^f"]); CHECK(j.at(json::json_pointer("/g|h")) == j["g|h"]); CHECK(j.at(json::json_pointer("/i\\j")) == j["i\\j"]); CHECK(j.at(json::json_pointer("/k\"l")) == j["k\"l"]); // escaped access CHECK(j[json::json_pointer("/a~1b")] == j["a/b"]); CHECK(j[json::json_pointer("/m~0n")] == j["m~n"]); // unescaped access // access to nonexisting values yield object creation CHECK_NOTHROW(j[json::json_pointer("/a/b")] = 42); CHECK(j["a"]["b"] == json(42)); CHECK_NOTHROW(j[json::json_pointer("/a/c/1")] = 42); CHECK(j["a"]["c"] == json({nullptr, 42})); CHECK_NOTHROW(j[json::json_pointer("/a/d/-")] = 42); CHECK(j["a"]["d"] == json::array({42})); // "/a/b" works for JSON {"a": {"b": 42}} CHECK(json({{"a", {{"b", 42}}}})[json::json_pointer("/a/b")] == json(42)); // unresolved access json j_primitive = 1; CHECK_THROWS_AS(j_primitive["/foo"_json_pointer], std::out_of_range); CHECK_THROWS_WITH(j_primitive["/foo"_json_pointer], "unresolved reference token 'foo'"); CHECK_THROWS_AS(j_primitive.at("/foo"_json_pointer), std::out_of_range); CHECK_THROWS_WITH(j_primitive.at("/foo"_json_pointer), "unresolved reference token 'foo'"); } SECTION("const access") { const json j = R"( { "foo": ["bar", "baz"], "": 0, "a/b": 1, "c%d": 2, "e^f": 3, "g|h": 4, "i\\j": 5, "k\"l": 6, " ": 7, "m~n": 8 } )"_json; // the whole document CHECK(j[json::json_pointer()] == j); CHECK(j[json::json_pointer("")] == j); // array access CHECK(j[json::json_pointer("/foo")] == j["foo"]); CHECK(j[json::json_pointer("/foo/0")] == j["foo"][0]); CHECK(j[json::json_pointer("/foo/1")] == j["foo"][1]); CHECK(j["/foo/1"_json_pointer] == j["foo"][1]); // checked array access CHECK(j.at(json::json_pointer("/foo/0")) == j["foo"][0]); CHECK(j.at(json::json_pointer("/foo/1")) == j["foo"][1]); // empty string access CHECK(j[json::json_pointer("/")] == j[""]); // other cases CHECK(j[json::json_pointer("/ ")] == j[" "]); CHECK(j[json::json_pointer("/c%d")] == j["c%d"]); CHECK(j[json::json_pointer("/e^f")] == j["e^f"]); CHECK(j[json::json_pointer("/g|h")] == j["g|h"]); CHECK(j[json::json_pointer("/i\\j")] == j["i\\j"]); CHECK(j[json::json_pointer("/k\"l")] == j["k\"l"]); // checked access CHECK(j.at(json::json_pointer("/ ")) == j[" "]); CHECK(j.at(json::json_pointer("/c%d")) == j["c%d"]); CHECK(j.at(json::json_pointer("/e^f")) == j["e^f"]); CHECK(j.at(json::json_pointer("/g|h")) == j["g|h"]); CHECK(j.at(json::json_pointer("/i\\j")) == j["i\\j"]); CHECK(j.at(json::json_pointer("/k\"l")) == j["k\"l"]); // escaped access CHECK(j[json::json_pointer("/a~1b")] == j["a/b"]); CHECK(j[json::json_pointer("/m~0n")] == j["m~n"]); // unescaped access CHECK_THROWS_AS(j.at(json::json_pointer("/a/b")), std::out_of_range); CHECK_THROWS_WITH(j.at(json::json_pointer("/a/b")), "key 'a' not found"); // unresolved access const json j_primitive = 1; CHECK_THROWS_AS(j_primitive["/foo"_json_pointer], std::out_of_range); CHECK_THROWS_WITH(j_primitive["/foo"_json_pointer], "unresolved reference token 'foo'"); CHECK_THROWS_AS(j_primitive.at("/foo"_json_pointer), std::out_of_range); CHECK_THROWS_WITH(j_primitive.at("/foo"_json_pointer), "unresolved reference token 'foo'"); } SECTION("user-defined string literal") { json j = R"( { "foo": ["bar", "baz"], "": 0, "a/b": 1, "c%d": 2, "e^f": 3, "g|h": 4, "i\\j": 5, "k\"l": 6, " ": 7, "m~n": 8 } )"_json; // the whole document CHECK(j[""_json_pointer] == j); // array access CHECK(j["/foo"_json_pointer] == j["foo"]); CHECK(j["/foo/0"_json_pointer] == j["foo"][0]); CHECK(j["/foo/1"_json_pointer] == j["foo"][1]); } } SECTION("array access") { SECTION("nonconst access") { json j = {1, 2, 3}; const json j_const = j; // check reading access CHECK(j["/0"_json_pointer] == j[0]); CHECK(j["/1"_json_pointer] == j[1]); CHECK(j["/2"_json_pointer] == j[2]); // assign to existing index j["/1"_json_pointer] = 13; CHECK(j[1] == json(13)); // assign to nonexisting index j["/3"_json_pointer] = 33; CHECK(j[3] == json(33)); // assign to nonexisting index (with gap) j["/5"_json_pointer] = 55; CHECK(j == json({1, 13, 3, 33, nullptr, 55})); // error with leading 0 CHECK_THROWS_AS(j["/01"_json_pointer], std::domain_error); CHECK_THROWS_WITH(j["/01"_json_pointer], "array index must not begin with '0'"); CHECK_THROWS_AS(j_const["/01"_json_pointer], std::domain_error); CHECK_THROWS_WITH(j_const["/01"_json_pointer], "array index must not begin with '0'"); CHECK_THROWS_AS(j.at("/01"_json_pointer), std::domain_error); CHECK_THROWS_WITH(j.at("/01"_json_pointer), "array index must not begin with '0'"); CHECK_THROWS_AS(j_const.at("/01"_json_pointer), std::domain_error); CHECK_THROWS_WITH(j_const.at("/01"_json_pointer), "array index must not begin with '0'"); // error with incorrect numbers CHECK_THROWS_AS(j["/one"_json_pointer] = 1, std::invalid_argument); // assign to "-" j["/-"_json_pointer] = 99; CHECK(j == json({1, 13, 3, 33, nullptr, 55, 99})); // error when using "-" in const object CHECK_THROWS_AS(j_const["/-"_json_pointer], std::out_of_range); CHECK_THROWS_WITH(j_const["/-"_json_pointer], "array index '-' (3) is out of range"); // error when using "-" with at CHECK_THROWS_AS(j.at("/-"_json_pointer), std::out_of_range); CHECK_THROWS_WITH(j.at("/-"_json_pointer), "array index '-' (7) is out of range"); CHECK_THROWS_AS(j_const.at("/-"_json_pointer), std::out_of_range); CHECK_THROWS_WITH(j_const.at("/-"_json_pointer), "array index '-' (3) is out of range"); } SECTION("const access") { const json j = {1, 2, 3}; // check reading access CHECK(j["/0"_json_pointer] == j[0]); CHECK(j["/1"_json_pointer] == j[1]); CHECK(j["/2"_json_pointer] == j[2]); // assign to nonexisting index CHECK_THROWS_AS(j.at("/3"_json_pointer), std::out_of_range); CHECK_THROWS_WITH(j.at("/3"_json_pointer), "array index 3 is out of range"); // assign to nonexisting index (with gap) CHECK_THROWS_AS(j.at("/5"_json_pointer), std::out_of_range); CHECK_THROWS_WITH(j.at("/5"_json_pointer), "array index 5 is out of range"); // assign to "-" CHECK_THROWS_AS(j["/-"_json_pointer], std::out_of_range); CHECK_THROWS_WITH(j["/-"_json_pointer], "array index '-' (3) is out of range"); CHECK_THROWS_AS(j.at("/-"_json_pointer), std::out_of_range); CHECK_THROWS_WITH(j.at("/-"_json_pointer), "array index '-' (3) is out of range"); } } SECTION("flatten") { json j = { {"pi", 3.141}, {"happy", true}, {"name", "Niels"}, {"nothing", nullptr}, { "answer", { {"everything", 42} } }, {"list", {1, 0, 2}}, { "object", { {"currency", "USD"}, {"value", 42.99}, {"", "empty string"}, {"/", "slash"}, {"~", "tilde"}, {"~1", "tilde1"} } } }; json j_flatten = { {"/pi", 3.141}, {"/happy", true}, {"/name", "Niels"}, {"/nothing", nullptr}, {"/answer/everything", 42}, {"/list/0", 1}, {"/list/1", 0}, {"/list/2", 2}, {"/object/currency", "USD"}, {"/object/value", 42.99}, {"/object/", "empty string"}, {"/object/~1", "slash"}, {"/object/~0", "tilde"}, {"/object/~01", "tilde1"} }; // check if flattened result is as expected CHECK(j.flatten() == j_flatten); // check if unflattened result is as expected CHECK(j_flatten.unflatten() == j); // error for nonobjects CHECK_THROWS_AS(json(1).unflatten(), std::domain_error); CHECK_THROWS_WITH(json(1).unflatten(), "only objects can be unflattened"); // error for nonprimitve values CHECK_THROWS_AS(json({{"/1", {1, 2, 3}}}).unflatten(), std::domain_error); CHECK_THROWS_WITH(json({{"/1", {1, 2, 3}}}).unflatten(), "values in object must be primitive"); // error for conflicting values json j_error = {{"", 42}, {"/foo", 17}}; CHECK_THROWS_AS(j_error.unflatten(), std::domain_error); CHECK_THROWS_WITH(j_error.unflatten(), "invalid value to unflatten"); // explicit roundtrip check CHECK(j.flatten().unflatten() == j); // roundtrip for primitive values json j_null; CHECK(j_null.flatten().unflatten() == j_null); json j_number = 42; CHECK(j_number.flatten().unflatten() == j_number); json j_boolean = false; CHECK(j_boolean.flatten().unflatten() == j_boolean); json j_string = "foo"; CHECK(j_string.flatten().unflatten() == j_string); // roundtrip for empty structured values (will be unflattened to null) json j_array(json::value_t::array); CHECK(j_array.flatten().unflatten() == json()); json j_object(json::value_t::object); CHECK(j_object.flatten().unflatten() == json()); } SECTION("string representation") { for (auto ptr : {"", "/foo", "/foo/0", "/", "/a~1b", "/c%d", "/e^f", "/g|h", "/i\\j", "/k\"l", "/ ", "/m~0n" }) { CHECK(json::json_pointer(ptr).to_string() == ptr); } } }