#include "tests.h" void test_json_parser(testing &t) { // Test parsing a simple JSON object t.test("simple JSON object parsing", [](testing &t) { auto json = build_peg_parser([](common_peg_parser_builder & p) { return p.json(); }); std::string input = R"({"name": "test", "value": 42, "flag": true})"; common_peg_parse_context ctx(input); auto result = json.parse(ctx); t.assert_equal("result_is_success", true, result.success()); t.assert_equal("result_end", input.size(), result.end); }); // Test parsing a JSON array with mixed types t.test("JSON array with mixed types", [](testing &t) { auto json = build_peg_parser([](common_peg_parser_builder & p) { return p.json(); }); std::string input = R"([1, "hello", true, null, 3.14])"; common_peg_parse_context ctx(input); auto result = json.parse(ctx); t.assert_equal("result_is_success", true, result.success()); t.assert_equal("result_end", input.size(), result.end); }); // Test parsing nested JSON with objects and arrays t.test("nested JSON with objects and arrays", [](testing &t) { auto json = build_peg_parser([](common_peg_parser_builder & p) { return p.json(); }); std::string input = R"({"users": [{"id": 1, "name": "Alice"}, {"id": 2, "name": "Bob"}], "count": 2, "metadata": {"version": "1.0", "tags": ["admin", "user"]}})"; common_peg_parse_context ctx(input); auto result = json.parse(ctx); t.assert_equal("result_is_success", true, result.success()); t.assert_equal("result_end", input.size(), result.end); }); // Test need_more_input() parsing - incomplete object t.test("need_more_input() parsing - incomplete object", [](testing &t) { auto json = build_peg_parser([](common_peg_parser_builder & p) { return p.json(); }); std::string input = R"({"name": "test", "value": )"; common_peg_parse_context ctx(input, true); auto result = json.parse(ctx); t.assert_equal("result_is_need_more_input", true, result.need_more_input()); }); // Test need_more_input() parsing - incomplete array t.test("need_more_input() parsing - incomplete array", [](testing &t) { auto json = build_peg_parser([](common_peg_parser_builder & p) { return p.json(); }); std::string input = R"([1, 2, 3, )"; common_peg_parse_context ctx(input, true); auto result = json.parse(ctx); t.assert_equal("result_is_need_more_input", true, result.need_more_input()); }); // Test need_more_input() parsing - incomplete nested structure t.test("need_more_input() parsing - incomplete nested structure", [](testing &t) { auto json = build_peg_parser([](common_peg_parser_builder & p) { return p.json(); }); std::string input = R"({"data": {"nested": )"; common_peg_parse_context ctx(input, true); auto result = json.parse(ctx); t.assert_equal("result_is_need_more_input", true, result.need_more_input()); }); t.test("object member", [](testing &t) { auto parser = build_peg_parser([](common_peg_parser_builder & p) { return p.json_member("name", "\"" + p.chars("[a-z]") + "\""); }); t.test("success", [&](testing &t) { std::string input = R"("name": "bob")"; common_peg_parse_context ctx(input, false); auto result = parser.parse(ctx); t.assert_true("success", result.success()); }); t.test("partial", [&](testing &t) { std::string input = R"("name": "bo)"; common_peg_parse_context ctx(input, true); auto result = parser.parse(ctx); t.assert_true("need more input", result.need_more_input()); }); t.test("failed", [&](testing &t) { std::string input = R"([])"; common_peg_parse_context ctx(input, false); auto result = parser.parse(ctx); t.assert_true("fail", result.fail()); }); }); }