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|
#include "simdjson.h"
#include "test_builder.h"
#include <map>
#include <string>
#include <string_view>
#if SIMDJSON_SUPPORTS_RANGES
#include <ranges>
#endif
using namespace simdjson;
struct Car {
std::string make;
std::string model;
int64_t year;
std::vector<double> tire_pressure;
}; // Car
#if SIMDJSON_SUPPORTS_CONCEPTS
struct Car2549 {
std::string make;
std::string model;
int64_t year;
std::vector<float> tire_pressure;
};
namespace simdjson {
// we intentionally pass by non-const reference to car.
template <typename builder_type>
void tag_invoke(serialize_tag, builder_type& builder, Car2549& car) {
builder.start_object();
builder.append_key_value("make", car.make);
builder.append_comma();
builder.append_key_value("model", car.model);
builder.append_comma();
builder.append_key_value("year", car.year);
builder.append_comma();
builder.append_key_value("tire_pressure", car.tire_pressure);
builder.end_object();
}
} // namespace simdjson
static_assert(simdjson::require_custom_serialization<Car2549>);
#endif
namespace builder_tests {
using namespace std;
bool allchar_test() {
TEST_START();
auto get_utf8_codepoints = []() -> std::string {
std::string result;
for (char32_t cp = 0; cp <= 0x10FFFF; ++cp) {
if ((cp >= 0xD800 && cp <= 0xDFFF) || cp > 0x10FFFF) {
continue; // Skip surrogate pairs and invalid codepoints
}
if (cp < 0x80) {
result += static_cast<char>(cp);
} else if (cp < 0x800) {
result += static_cast<char>(0xC0 | (cp >> 6));
result += static_cast<char>(0x80 | (cp & 0x3F));
} else if (cp < 0x10000) {
result += static_cast<char>(0xE0 | (cp >> 12));
result += static_cast<char>(0x80 | ((cp >> 6) & 0x3F));
result += static_cast<char>(0x80 | (cp & 0x3F));
} else {
result += static_cast<char>(0xF0 | (cp >> 18));
result += static_cast<char>(0x80 | ((cp >> 12) & 0x3F));
result += static_cast<char>(0x80 | ((cp >> 6) & 0x3F));
result += static_cast<char>(0x80 | (cp & 0x3F));
}
}
return result;
};
auto allutf8 = get_utf8_codepoints();
simdjson::builder::string_builder sb;
sb.start_object();
sb.append_key_value("input", allutf8);
sb.end_object();
std::string_view p;
ASSERT_TRUE(sb.validate_unicode());
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
simdjson::padded_string output = p;
simdjson::ondemand::parser parser;
simdjson::ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(output).get(doc));
std::string_view recovered;
ASSERT_SUCCESS(doc["input"].get(recovered));
ASSERT_EQUAL(recovered, allutf8);
simdjson::dom::parser domparser;
simdjson::dom::element elem;
ASSERT_SUCCESS(domparser.parse(output).get(elem));
ASSERT_SUCCESS(elem["input"].get(recovered));
ASSERT_EQUAL(recovered, allutf8);
TEST_SUCCEED();
}
bool bad_utf8_test() {
TEST_START();
std::string bad_utf8 = "\xFF";
simdjson::builder::string_builder sb;
sb.start_object();
sb.append_key_value("input", bad_utf8);
sb.end_object();
ASSERT_FALSE(sb.validate_unicode())
TEST_SUCCEED();
}
#if SIMDJSON_EXCEPTIONS
bool string_convertion_except() {
TEST_START();
simdjson::ondemand::parser p;
simdjson::builder::string_builder sb;
sb.append('a');
std::string r(sb);
ASSERT_EQUAL(r, "a");
// forcing call to `operator std::string()`
r = [](std::string x) { return x; }(sb);
ASSERT_EQUAL(r, "a");
TEST_SUCCEED();
}
#endif
bool append_char() {
TEST_START();
simdjson::builder::string_builder sb;
sb.append('a');
ASSERT_EQUAL(sb.size(), 1);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "a");
TEST_SUCCEED();
}
bool append_integer() {
TEST_START();
simdjson::builder::string_builder sb;
sb.append(42);
ASSERT_EQUAL(sb.size(), 2);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "42");
TEST_SUCCEED();
}
bool append_float() {
TEST_START();
simdjson::builder::string_builder sb;
sb.append(1.1);
ASSERT_EQUAL(sb.size(), 3);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "1.1");
TEST_SUCCEED();
}
bool append_null() {
TEST_START();
simdjson::builder::string_builder sb;
sb.append_null();
ASSERT_EQUAL(sb.size(), 4);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "null");
TEST_SUCCEED();
}
bool clear() {
TEST_START();
simdjson::builder::string_builder sb;
sb.append('a');
sb.clear();
ASSERT_EQUAL(sb.size(), 0);
TEST_SUCCEED();
}
bool escape_and_append() {
TEST_START();
simdjson::builder::string_builder sb;
sb.escape_and_append("Hello, \"world\"!");
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "Hello, \\\"world\\\"!");
TEST_SUCCEED();
}
bool escape_and_append_with_quotes() {
TEST_START();
simdjson::builder::string_builder sb;
sb.escape_and_append_with_quotes("Hello, \"world\"!");
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "\"Hello, \\\"world\\\"!\"");
TEST_SUCCEED();
}
bool various_integers() {
TEST_START();
std::vector<std::pair<int64_t, std::string_view>> test_cases = {
{0, "0"},
{1, "1"},
{-1, "-1"},
{42, "42"},
{-42, "-42"},
{100, "100"},
{-100, "-100"},
{999, "999"},
{-999, "-999"},
{2147483647, "2147483647"}, // max 32-bit integer
{-2147483648, "-2147483648"}, // min 32-bit integer
{4294967296ULL, "4294967296"}, // 2^32
{-4294967296LL, "-4294967296"},
{10000000000LL, "10000000000"}, // 10 billion
{-10000000000LL, "-10000000000"},
{9223372036854775807LL, "9223372036854775807"}, // max 64-bit integer
{-9223372036854775807LL - 1,
"-9223372036854775808"}, // min 64-bit integer
{1234567890123LL, "1234567890123"},
{-1234567890123LL, "-1234567890123"},
};
for (const auto &[value, expected] : test_cases) {
simdjson::builder::string_builder sb;
sb.append(value);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, expected);
}
TEST_SUCCEED();
}
bool various_unsigned_integers() {
TEST_START();
std::vector<std::pair<uint64_t, std::string_view>> test_cases = {
{0, "0"},
{1, "1"},
{42, "42"},
{100, "100"},
{999, "999"},
{2147483647, "2147483647"}, // max 32-bit integer
{4294967296ULL, "4294967296"}, // 2^32
{10000000000LL, "10000000000"}, // 10 billion
{9223372036854775807LL, "9223372036854775807"}, // max 64-bit integer
{1234567890123LL, "1234567890123"},
};
for (const auto &[value, expected] : test_cases) {
simdjson::builder::string_builder sb;
sb.append(value);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, expected);
}
TEST_SUCCEED();
}
bool append_raw() {
TEST_START();
simdjson::builder::string_builder sb;
sb.append_raw("Test");
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "Test");
TEST_SUCCEED();
}
bool raw_with_length() {
TEST_START();
simdjson::builder::string_builder sb;
sb.append_raw("Test String", 4);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "Test");
TEST_SUCCEED();
}
bool string_convertion() {
TEST_START();
simdjson::builder::string_builder sb;
sb.append('a');
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "a");
TEST_SUCCEED();
}
bool unicode_validation() {
TEST_START();
simdjson::builder::string_builder sb;
sb.append('a');
ASSERT_TRUE(sb.validate_unicode());
TEST_SUCCEED();
}
bool buffer_growth() {
TEST_START();
simdjson::builder::string_builder sb;
for (int i = 0; i < 3; ++i) {
sb.append('a');
}
ASSERT_EQUAL(sb.size(), 3);
TEST_SUCCEED();
}
void serialize_car_long(const Car &car,
simdjson::builder::string_builder &builder) {
// start of JSON
builder.append_raw("{");
// "make"
builder.escape_and_append_with_quotes("make");
builder.append_raw(":");
builder.escape_and_append_with_quotes(car.make);
// "model"
builder.append_raw(",");
builder.escape_and_append_with_quotes("model");
builder.append_raw(":");
builder.escape_and_append_with_quotes(car.model);
// "year"
builder.append_raw(",");
builder.escape_and_append_with_quotes("year");
builder.append_raw(":");
builder.append(car.year);
// "tire_pressure"
builder.append_raw(",");
builder.escape_and_append_with_quotes("tire_pressure");
builder.append_raw(":[");
// vector tire_pressure
for (size_t i = 0; i < car.tire_pressure.size(); ++i) {
builder.append(car.tire_pressure[i]);
if (i < car.tire_pressure.size() - 1) {
builder.append_raw(",");
}
}
// end of array
builder.append_raw("]");
// end of object
builder.append_raw("}");
}
bool car_test_long() {
TEST_START();
simdjson::builder::string_builder sb;
Car c = {"Toyota", "Corolla", 2017, {30.0, 30.2, 30.513, 30.79}};
serialize_car_long(c, sb);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "{\"make\":\"Toyota\",\"model\":\"Corolla\",\"year\":2017,"
"\"tire_pressure\":[30.0,30.2,30.513,30.79]}");
TEST_SUCCEED();
}
void serialize_car(const Car &car, simdjson::builder::string_builder &builder) {
// start of JSON
builder.start_object();
// "make"
builder.append_key_value("make", car.make);
builder.append_comma();
// "model"
builder.append_key_value("model", car.model);
builder.append_comma();
// "year"
builder.append_key_value("year", car.year);
builder.append_comma();
// "tire_pressure"
builder.escape_and_append_with_quotes("tire_pressure");
builder.append_colon();
builder.start_array();
// vector tire_pressure
for (size_t i = 0; i < car.tire_pressure.size(); ++i) {
builder.append(car.tire_pressure[i]);
if (i < car.tire_pressure.size() - 1) {
builder.append_comma();
}
}
// end of array
builder.end_array();
// end of object
builder.end_object();
}
#if SIMDJSON_SUPPORTS_CONCEPTS
void serialize_car_template(const Car &car,
simdjson::builder::string_builder &builder) {
// start of JSON
builder.start_object();
// "make"
builder.append_key_value<"make">(car.make);
builder.append_comma();
// "model"
builder.append_key_value<"model">(car.model);
builder.append_comma();
// "year"
builder.append_key_value<"year">(car.year);
builder.append_comma();
// "tire_pressure"
builder.escape_and_append_with_quotes<"tire_pressure">();
builder.append_colon();
builder.start_array();
// vector tire_pressure
for (size_t i = 0; i < car.tire_pressure.size(); ++i) {
builder.append(car.tire_pressure[i]);
if (i < car.tire_pressure.size() - 1) {
builder.append_comma();
}
}
// end of array
builder.end_array();
// end of object
builder.end_object();
}
#endif
bool car_test() {
TEST_START();
simdjson::builder::string_builder sb;
Car c = {"Toyota", "Corolla", 2017, {30.0, 30.2, 30.513, 30.79}};
serialize_car(c, sb);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "{\"make\":\"Toyota\",\"model\":\"Corolla\",\"year\":2017,"
"\"tire_pressure\":[30.0,30.2,30.513,30.79]}");
TEST_SUCCEED();
}
#if SIMDJSON_SUPPORTS_CONCEPTS
bool issue2549() {
TEST_START();
simdjson::builder::string_builder sb;
Car2549 c = { "Toyota", "Corolla", 2017, {1.0f,2.0f,3.0f} };
sb.start_object();
sb.append_key_value("car", c);
sb.end_object();
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "{\"car\":{\"make\":\"Toyota\",\"model\":\"Corolla\",\"year\":2017,\"tire_pressure\":[1.0,2.0,3.0]}}");
TEST_SUCCEED();
}
bool car_test_template() {
TEST_START();
simdjson::builder::string_builder sb;
Car c = {"Toyota", "Corolla", 2017, {30.0, 30.2, 30.513, 30.79}};
serialize_car_template(c, sb);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "{\"make\":\"Toyota\",\"model\":\"Corolla\",\"year\":2017,"
"\"tire_pressure\":[30.0,30.2,30.513,30.79]}");
TEST_SUCCEED();
}
bool serialize_optional() {
TEST_START();
simdjson::builder::string_builder sb;
std::optional<std::string> optional_string = "Hello, World!";
sb.append(optional_string);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "\"Hello, World!\"");
sb.clear();
std::optional<std::string> optional_string_null = std::nullopt;
sb.append(optional_string_null);
result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "null");
TEST_SUCCEED();
}
#endif
#if SIMDJSON_SUPPORTS_RANGES && SIMDJSON_SUPPORTS_CONCEPTS
void serialize_car_simple(const Car &car,
simdjson::builder::string_builder &builder) {
builder.start_object();
builder.append_key_value("make", car.make);
builder.append_comma();
builder.append_key_value("model", car.model);
builder.append_comma();
builder.append_key_value("year", car.year);
builder.append_comma();
builder.append_key_value("tire_pressure", car.tire_pressure);
builder.end_object();
}
bool car_test_simple() {
TEST_START();
simdjson::builder::string_builder sb;
Car c = {"Toyota", "Corolla", 2017, {30.0, 30.2, 30.513, 30.79}};
serialize_car(c, sb);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "{\"make\":\"Toyota\",\"model\":\"Corolla\",\"year\":2017,"
"\"tire_pressure\":[30.0,30.2,30.513,30.79]}");
TEST_SUCCEED();
}
bool car_test_simple_complete() {
TEST_START();
Car c = {"Toyota", "Corolla", 2017, {30.0, 30.2, 30.513, 30.79}};
simdjson::builder::string_builder sb;
sb.start_object();
sb.append_key_value("make", c.make);
sb.append_comma();
sb.append_key_value("model", c.model);
sb.append_comma();
sb.append_key_value("year", c.year);
sb.append_comma();
sb.append_key_value("tire_pressure", c.tire_pressure);
sb.end_object();
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "{\"make\":\"Toyota\",\"model\":\"Corolla\",\"year\":2017,"
"\"tire_pressure\":[30.0,30.2,30.513,30.79]}");
TEST_SUCCEED();
}
bool map_test() {
TEST_START();
std::map<std::string, double> c = {{"key1", 1}, {"key2", 1}};
simdjson::builder::string_builder sb;
sb.append(c);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "{\"key1\":1.0,\"key2\":1.0}");
std::string s;
ASSERT_SUCCESS(simdjson::to_json(c).get(s));
ASSERT_EQUAL(s, "{\"key1\":1.0,\"key2\":1.0}");
TEST_SUCCEED();
}
bool ranges_test() {
TEST_START();
struct Foo {
int a;
float b;
};
std::vector<Foo> c = {{1, 2.0f}, {3, 4.0f}, {5, 6.0f}, {7, 8.0f}};
simdjson::builder::string_builder sb;
sb.append(c | std::views::transform(&Foo::b));
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "[2.0,4.0,6.0,8.0]");
std::string s;
ASSERT_SUCCESS(simdjson::to_json(c | std::views::transform(&Foo::b)).get(s));
ASSERT_EQUAL(s, "[2.0,4.0,6.0,8.0]");
TEST_SUCCEED();
}
bool double_double_test() {
TEST_START();
std::vector<std::vector<double>> c = {{1.0, 2.0}, {3.0, 4.0}};
simdjson::builder::string_builder sb;
sb.append(c);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "[[1.0,2.0],[3.0,4.0]]");
std::string s;
ASSERT_SUCCESS(simdjson::to_json(c).get(s));
ASSERT_EQUAL(s, "[[1.0,2.0],[3.0,4.0]]");
TEST_SUCCEED();
}
bool double_double_test_to_string() {
TEST_START();
std::vector<std::vector<double>> c = {{1.0, 2.0}, {3.0, 4.0}};
simdjson::builder::string_builder sb;
sb.append(c);
std::string_view p;
auto result = sb.view().get(p);
ASSERT_SUCCESS(result);
ASSERT_EQUAL(p, "[[1.0,2.0],[3.0,4.0]]");
std::string s;
simdjson::simdjson_error ec = simdjson::to_json(c, s);
ASSERT_EQUAL(s, "[[1.0,2.0],[3.0,4.0]]");
TEST_SUCCEED();
}
#if SIMDJSON_EXCEPTIONS
bool car_test_simple_complete_exceptions() {
TEST_START();
Car c = {"Toyota", "Corolla", 2017, {30.0, 30.2, 30.513, 30.79}};
simdjson::builder::string_builder sb;
sb.start_object();
sb.append_key_value("make", c.make);
sb.append_comma();
sb.append_key_value("model", c.model);
sb.append_comma();
sb.append_key_value("year", c.year);
sb.append_comma();
sb.append_key_value("tire_pressure", c.tire_pressure);
sb.end_object();
std::string_view p = sb.view();
ASSERT_EQUAL(p, "{\"make\":\"Toyota\",\"model\":\"Corolla\",\"year\":2017,"
"\"tire_pressure\":[30.0,30.2,30.513,30.79]}");
TEST_SUCCEED();
}
#endif // SIMDJSON_EXCEPTIONS
#endif // SIMDJSONS_SUPPORT_RANGES
#if SIMDJSON_EXCEPTIONS
bool car_test_exception() {
TEST_START();
simdjson::builder::string_builder sb;
Car c = {"Toyota", "Corolla", 2017, {30.0, 30.2, 30.513, 30.79}};
serialize_car_long(c, sb);
std::string_view p{sb};
ASSERT_EQUAL(p, "{\"make\":\"Toyota\",\"model\":\"Corolla\",\"year\":2017,"
"\"tire_pressure\":[30.0,30.2,30.513,30.79]}");
TEST_SUCCEED();
}
#endif
bool run() {
return allchar_test() && bad_utf8_test() && various_integers() &&
various_unsigned_integers() && car_test_long() && car_test() &&
#if SIMDJSON_EXCEPTIONS
car_test_exception() && string_convertion_except() &&
#endif
#if SIMDJSON_SUPPORTS_RANGES && SIMDJSON_SUPPORTS_CONCEPTS
map_test() && ranges_test() && double_double_test() &&
double_double_test_to_string() && car_test_simple() &&
car_test_simple_complete() &&
#if SIMDJSON_EXCEPTIONS
car_test_simple_complete_exceptions() &&
#endif
#endif
#if SIMDJSON_SUPPORTS_CONCEPTS
issue2549() && car_test_template() && serialize_optional() &&
#endif
append_char() && append_integer() && append_float() && append_null() &&
clear() && escape_and_append() && escape_and_append_with_quotes() &&
append_raw() && raw_with_length() && string_convertion() &&
buffer_growth() && unicode_validation() && true;
}
} // namespace builder_tests
int main(int argc, char *argv[]) {
return test_main(argc, argv, builder_tests::run);
}
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