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#include "simdjson.h"
#include "test_ondemand.h"
using namespace simdjson;
namespace error_tests {
using namespace std;
bool issue2120() {
TEST_START();
ondemand::parser parser;
size_t bad_capacity = 0;
ondemand::document doc;
ASSERT_ERROR( parser.iterate("{\"a\": 0 }", bad_capacity).get(doc), INSUFFICIENT_PADDING);
TEST_SUCCEED();
}
bool badbadjson() {
TEST_START();
ondemand::parser parser;
auto json_string = R"({
"main": "therain"_"in_spain"_
})"_padded;
ondemand::document document;
auto error = parser.iterate(json_string).get(document);
if(error != simdjson::SUCCESS) {
return false;
}
ondemand::object obj;
error = document.get_object().get(obj);
if(error != simdjson::SUCCESS) {
return false;
}
std::string_view name_value{};
error = obj["name"].get_string().get(name_value);
ASSERT_ERROR(error,TAPE_ERROR);
// Check for "main" field
std::string_view main_value{};
error = obj["main"].get_string().get(main_value);
ASSERT_ERROR(error,TAPE_ERROR);
TEST_SUCCEED();
}
bool badbadjson2() {
TEST_START();
ondemand::parser parser;
auto json_string = R"({
"main": "therain"_"in_spain"_
})"_padded;
ondemand::document document;
auto error = parser.iterate(json_string).get(document);
if(error != simdjson::SUCCESS) {
return false;
}
ondemand::object obj;
error = document.get_object().get(obj);
if(error != simdjson::SUCCESS) {
return false;
}
std::string_view main_value{};
error = obj["main"].get_string().get(main_value);
ASSERT_ERROR(error, simdjson::SUCCESS);
std::string_view name_value{};
error = obj["name"].get_string().get(name_value);
ASSERT_ERROR(error,TAPE_ERROR);
TEST_SUCCEED();
}
bool issue1834() {
TEST_START();
ondemand::parser parser;
auto json = "[[]"_padded;
json.data()[json.size()] = ']';
auto doc = parser.iterate(json);
size_t cnt{};
auto error = doc.count_elements().get(cnt);
return error != simdjson::SUCCESS;
}
bool issue1834_2() {
TEST_START();
ondemand::parser parser;
auto json = "{\"a\":{}"_padded;
json.data()[json.size()] = '}';
auto doc = parser.iterate(json);
size_t cnt{};
auto error = doc.count_fields().get(cnt);
return error != simdjson::SUCCESS;
}
bool empty_document_error() {
TEST_START();
ondemand::parser parser;
auto json = ""_padded;
ASSERT_ERROR( parser.iterate(json), EMPTY );
TEST_SUCCEED();
}
bool raw_json_string_error() {
TEST_START();
ondemand::parser parser;
auto json = "{\"haha\":{\"df2\":3.5, \"df3\": \"fd\"}}"_padded;
ondemand::document doc;
ASSERT_SUCCESS( parser.iterate(json).get(doc) );
ondemand::raw_json_string rawjson;
ASSERT_ERROR( doc.get_raw_json_string().get(rawjson), INCORRECT_TYPE );
TEST_SUCCEED();
}
#if SIMDJSON_EXCEPTIONS
// This is a compile-only test
struct Class {
Class(std::string text)
: parser()
, doc(parser.iterate(text))
{
}
simdjson::ondemand::parser parser;
simdjson::ondemand::document doc;
};
bool document_in_class() {
TEST_START();
std::string text = "{}";
Class c(text);
TEST_SUCCEED();
}
bool direct_document() {
TEST_START();
std::string text = "{}";
simdjson::ondemand::parser parser;
simdjson::ondemand::document doc(parser.iterate(text));
TEST_SUCCEED();
}
bool raw_json_string_except() {
TEST_START();
ondemand::parser parser;
auto json = "{\"haha\":{\"df2\":3.5, \"df3\": \"fd\"}}"_padded;
ondemand::document doc;
ASSERT_SUCCESS( parser.iterate(json).get(doc) );
try {
ondemand::raw_json_string rawjson = doc.get_raw_json_string();
(void)rawjson;
TEST_FAIL("Should have thrown an exception!")
} catch(simdjson_error& e) {
ASSERT_ERROR(e.error(), INCORRECT_TYPE);
TEST_SUCCEED();
}
}
bool raw_json_string_except_with_io() {
TEST_START();
ondemand::parser parser;
auto json = "{\"haha\":{\"df2\":3.5, \"df3\": \"fd\"}}"_padded;
ondemand::document doc;
ASSERT_SUCCESS( parser.iterate(json).get(doc) );
try {
auto rawjson = doc.get_raw_json_string();
std::cout << rawjson;
TEST_FAIL("Should have thrown an exception!")
} catch(simdjson_error& e) {
ASSERT_ERROR(e.error(), INCORRECT_TYPE);
TEST_SUCCEED();
}
}
#endif
bool parser_max_capacity() {
TEST_START();
ondemand::parser parser(1); // max_capacity set to 1 byte
padded_string json;
ASSERT_SUCCESS( padded_string::load(TWITTER_JSON).get(json) );
auto error = parser.iterate(json);
ASSERT_ERROR(error,CAPACITY);
TEST_SUCCEED();
}
bool simple_error_example() {
TEST_START();
ondemand::parser parser;
auto json = R"({"bad number":3.14.1 })"_padded;
ondemand::document doc;
ASSERT_SUCCESS( parser.iterate(json).get(doc) );
double x;
ASSERT_ERROR( doc["bad number"].get_double().get(x), NUMBER_ERROR );
TEST_SUCCEED();
}
#if SIMDJSON_EXCEPTIONS
bool simple_error_example_except() {
TEST_START();
ondemand::parser parser;
auto json = R"({"bad number":3.14.1 })"_padded;
try {
ondemand::document doc = parser.iterate(json);
double x = doc["bad number"].get_double();
TEST_FAIL("should throw got: "+std::to_string(x))
} catch(simdjson_error& e) {
ASSERT_ERROR(e.error(), NUMBER_ERROR);
}
TEST_SUCCEED();
}
#endif
bool get_fail_then_succeed_bool() {
TEST_START();
auto json = R"({ "val" : true })"_padded;
SUBTEST("simdjson_result<ondemand::value>", test_ondemand_doc(json, [&](auto doc) {
simdjson_result<ondemand::value> val = doc["val"];
// Get everything that can fail in both forward and backwards order
bool is_null_value;
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, false );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_object(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_SUCCESS( val.get_bool() );
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, false );
TEST_SUCCEED();
}));
SUBTEST("ondemand::value", test_ondemand_doc(json, [&](auto doc) {
ondemand::value val;
ASSERT_SUCCESS( doc["val"].get(val) );
// Get everything that can fail in both forward and backwards order
bool is_null_value;
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, false );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_object(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_SUCCESS( val.get_bool() );
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, false );
TEST_SUCCEED();
}));
json = R"(true)"_padded;
SUBTEST("simdjson_result<ondemand::document>", test_ondemand_doc(json, [&](simdjson_result<ondemand::document> val) {
// Get everything that can fail in both forward and backwards order
bool is_null_value;
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, false );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_object(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_SUCCESS( val.get_bool());
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, false );
TEST_SUCCEED();
}));
SUBTEST("ondemand::document", test_ondemand_doc(json, [&](auto doc) {
ondemand::document val;
ASSERT_SUCCESS( std::move(doc).get(val) ); // Get everything that can fail in both forward and backwards order
bool is_null_value;
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, false );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_object(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_SUCCESS( val.get_bool() );
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, false );
TEST_SUCCEED();
}));
TEST_SUCCEED();
}
bool get_fail_then_succeed_null() {
TEST_START();
auto json = R"({ "val" : null })"_padded;
SUBTEST("simdjson_result<ondemand::value>", test_ondemand_doc(json, [&](auto doc) {
simdjson_result<ondemand::value> val = doc["val"];
// Get everything that can fail in both forward and backwards order
ASSERT_ERROR( val.get_bool(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_object(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_bool(), INCORRECT_TYPE );
bool is_null_value;
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, true );
TEST_SUCCEED();
}));
SUBTEST("ondemand::value", test_ondemand_doc(json, [&](auto doc) {
ondemand::value val;
ASSERT_SUCCESS( doc["val"].get(val) );
// Get everything that can fail in both forward and backwards order
ASSERT_ERROR( val.get_bool(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_object(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_bool(), INCORRECT_TYPE );
bool is_null_value;
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, true );
TEST_SUCCEED();
}));
json = R"(null)"_padded;
SUBTEST("simdjson_result<ondemand::document>", test_ondemand_doc(json, [&](simdjson_result<ondemand::document> val) {
// Get everything that can fail in both forward and backwards order
ASSERT_ERROR( val.get_bool(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_object(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_bool(), INCORRECT_TYPE );
bool is_null_value;
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, true );
TEST_SUCCEED();
}));
SUBTEST("ondemand::document", test_ondemand_doc(json, [&](auto doc) {
ondemand::document val;
ASSERT_SUCCESS( std::move(doc).get(val) ); // Get everything that can fail in both forward and backwards order
ASSERT_ERROR( val.get_bool(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_object(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_int64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_uint64(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_double(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_string(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_array(), INCORRECT_TYPE );
ASSERT_ERROR( val.get_bool(), INCORRECT_TYPE );
bool is_null_value;
ASSERT_SUCCESS( val.is_null().get(is_null_value) );
ASSERT_EQUAL( is_null_value, true );
TEST_SUCCEED();
}));
TEST_SUCCEED();
}
#if SIMDJSON_EXCEPTIONS
bool invalid_type() {
TEST_START();
ONDEMAND_SUBTEST("]", "]", doc.type() == ondemand::json_type::unknown);
ONDEMAND_SUBTEST("}", "}", doc.type() == ondemand::json_type::unknown);
ONDEMAND_SUBTEST(":", ":", doc.type() == ondemand::json_type::unknown);
ONDEMAND_SUBTEST(",", ",", doc.type() == ondemand::json_type::unknown);
ONDEMAND_SUBTEST("+", "+", doc.type() == ondemand::json_type::unknown);
TEST_SUCCEED();
}
#endif // SIMDJSON_EXCEPTIONS
#if SIMDJSON_EXCEPTIONS
bool operator_tests() {
TEST_START();
ondemand::parser parser;
// Test successful case
auto json = R"({ "key": "value", "number": 42 })"_padded;
parser.iterate(json).value(); // Test operator*
*parser.iterate(json); // Test operator*
auto doc_result = parser.iterate(json);
ASSERT_SUCCESS(doc_result.error());
ASSERT_TRUE(doc_result.has_value());
double x = doc_result->find_field("number").get<double>();
ASSERT_EQUAL(x, 42.0);
TEST_SUCCEED();
}
#endif // SIMDJSON_EXCEPTIONS
bool run() {
return
issue2120() &&
badbadjson() &&
badbadjson2() &&
issue1834() &&
issue1834_2() &&
#if SIMDJSON_EXCEPTIONS
document_in_class() &&
direct_document() &&
raw_json_string_except() &&
raw_json_string_except_with_io() &&
#endif
raw_json_string_error() &&
empty_document_error() &&
parser_max_capacity() &&
get_fail_then_succeed_bool() &&
get_fail_then_succeed_null() &&
simple_error_example() &&
#if SIMDJSON_EXCEPTIONS
invalid_type() &&
simple_error_example_except() &&
operator_tests() &&
#endif
true;
}
}
int main(int argc, char *argv[]) {
return test_main(argc, argv, error_tests::run);
}
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