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#include "simdjson.h"
#include "test_ondemand.h"
using namespace simdjson;
namespace error_location_tests {
bool array() {
TEST_START();
auto json = R"( [1,2,3] )"_padded;
ondemand::parser parser;
ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
std::vector<char> expected = {'1','2','3'};
std::vector<int64_t> expected_values = {1,2,3};
size_t count{0};
for (auto value : doc) {
int64_t i;
const char* c;
// Must call current_location first because get_int64() will consume values
ASSERT_SUCCESS(doc.current_location().get(c));
ASSERT_EQUAL(*c, expected[count]);
ASSERT_SUCCESS(value.get_int64().get(i));
ASSERT_EQUAL(i, expected_values[count]);
count++;
}
ASSERT_EQUAL(count,3);
ASSERT_ERROR(doc.current_location(), OUT_OF_BOUNDS);
TEST_SUCCEED();
}
bool object() {
TEST_START();
auto json = R"( {"a":1, "b":2, "c":3} )"_padded;
ondemand::parser parser;
ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
std::vector<char> expected = {'1','2','3'};
std::vector<int64_t> expected_values = {1,2,3};
size_t count{0};
for (auto field : doc.get_object()) {
int64_t i;
const char* c;
// Must call current_location first because get_int64() will consume values
ASSERT_SUCCESS(doc.current_location().get(c));
ASSERT_EQUAL(*c,expected[count]);
ASSERT_SUCCESS(field.value().get(i));
ASSERT_EQUAL(i,expected_values[count]);
count++;
}
ASSERT_EQUAL(count,3);
ASSERT_ERROR(doc.current_location(), OUT_OF_BOUNDS);
TEST_SUCCEED();
}
bool json_pointer() {
TEST_START();
auto json = R"( {"a": [1,2,[3,4,5]], "b": {"c": [1.2, 2.3]}} )"_padded;
ondemand::parser parser;
ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
const char * ptr;
uint64_t i;
ASSERT_SUCCESS(doc.at_pointer("/a/2/1").get(i));
ASSERT_EQUAL(i, 4);
ASSERT_SUCCESS(doc.current_location().get(ptr));
std::string expected = ",5]], \"b\": {\"c\": [1.2, 2.3]}} ";
ASSERT_EQUAL(std::string(ptr, expected.size()), expected);
double d;
ASSERT_SUCCESS(doc.at_pointer("/b/c/1").get(d));
ASSERT_EQUAL(d, 2.3);
ASSERT_SUCCESS(doc.current_location().get(ptr));
expected = "]}} ";
ASSERT_EQUAL(std::string(ptr, expected.size()), expected);
TEST_SUCCEED();
}
bool json_pointer_with_errors() {
TEST_START();
auto json = R"( {"a": [1,2,[3 4,5]], "b": {"c": [1.2., 2.3]}} )"_padded;
ondemand::parser parser;
ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
const char * ptr;
double d;
ASSERT_ERROR(doc.at_pointer("/b/c/0").get(d), NUMBER_ERROR);
ASSERT_SUCCESS(doc.current_location().get(ptr));
std::string expected = "1.2., 2.3]}} ";
ASSERT_EQUAL(std::string(ptr, expected.size()), expected);
uint64_t i;
ASSERT_ERROR(doc.at_pointer("/a/2/1").get(i), TAPE_ERROR);
ASSERT_SUCCESS(doc.current_location().get(ptr));
expected = "4,5]], \"b\": {\"c\": [1.2., 2.3]}} ";
ASSERT_EQUAL(std::string(ptr, expected.size()), expected);
TEST_SUCCEED();
}
bool broken_json1() {
TEST_START();
auto json = " \xc3\x94\xc3\xb8\xe2\x84\xa6{\"a\":1, 3} "_padded;
ondemand::parser parser;
ondemand::document doc;
const char * ptr;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
ASSERT_ERROR(doc["a"], INCORRECT_TYPE);
ASSERT_SUCCESS(doc.current_location().get(ptr));
ASSERT_EQUAL(std::string(ptr, 18), "\xc3\x94\xc3\xb8\xe2\x84\xa6{\"a\":1, 3} ");
TEST_SUCCEED();
}
bool broken_json2() {
TEST_START();
auto json = R"( [[[]] )"_padded;
ondemand::parser parser;
ondemand::document doc;
ondemand::array arr;
const char * ptr;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
ASSERT_SUCCESS(doc.get_array().get(arr));
ASSERT_ERROR(arr.count_elements(), TAPE_ERROR);
ASSERT_SUCCESS(doc.current_location().get(ptr));
ASSERT_EQUAL(std::string(ptr - 2,2), "] ");
TEST_SUCCEED();
}
bool broken_json3() {
TEST_START();
auto json = R"( [1 1.23, 2] )"_padded;
ondemand::parser parser;
ondemand::document doc;
size_t count{0};
const char * ptr;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
for (auto val : doc) {
if (count == 1) {
ASSERT_ERROR(val, TAPE_ERROR);
break;
}
count++;
}
ASSERT_EQUAL(count, 1);
ASSERT_SUCCESS(doc.current_location().get(ptr));
ASSERT_EQUAL(std::string(ptr, strlen("1.23, 2] ")), "1.23, 2] ");
TEST_SUCCEED();
}
bool broken_json4() {
TEST_START();
auto json = R"( {"a":1, 3.5, "b":5} )"_padded;
ondemand::parser parser;
ondemand::document doc;
const char * ptr;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
ASSERT_ERROR(doc["b"], TAPE_ERROR);
ASSERT_SUCCESS(doc.current_location().get(ptr));
ASSERT_EQUAL(std::string(ptr, strlen("3.5, \"b\":5} ")), "3.5, \"b\":5} ");
TEST_SUCCEED();
}
bool incomplete_json() {
TEST_START();
auto json = R"( [1,2,3 )"_padded;
ondemand::parser parser;
ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
const char * ptr;
for (auto val : doc) {
ASSERT_ERROR(val, INCOMPLETE_ARRAY_OR_OBJECT);
}
ASSERT_SUCCESS(doc.current_location().get(ptr));
ASSERT_EQUAL(std::string(ptr, strlen("[1,2,3 ")), "[1,2,3 ");
TEST_SUCCEED();
}
bool boolean_error() {
TEST_START();
auto json = R"( [tru, fals] )"_padded;
ondemand::parser parser;
ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
for (auto val : doc) {
bool b;
ASSERT_ERROR(val.get(b), INCORRECT_TYPE);
}
ASSERT_ERROR(doc.current_location(), OUT_OF_BOUNDS);
TEST_SUCCEED();
}
bool no_such_field() {
TEST_START();
auto json = R"( {"a":5, "b":4} )"_padded;
ondemand::parser parser;
ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
ASSERT_ERROR(doc["c"], NO_SUCH_FIELD);
ASSERT_ERROR(doc.current_location(), OUT_OF_BOUNDS);
TEST_SUCCEED();
}
bool object_with_no_such_field() {
TEST_START();
auto json = R"( {"a":5, "b":4} )"_padded;
ondemand::parser parser;
ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
const char * ptr;
uint64_t i;
ASSERT_SUCCESS(doc["a"].get(i));
ASSERT_EQUAL(i, 5);
ASSERT_SUCCESS(doc.current_location().get(ptr));
ASSERT_EQUAL(ptr, ", \"b\":4} ");
ASSERT_ERROR(doc["c"], NO_SUCH_FIELD);
ASSERT_SUCCESS(doc.current_location().get(ptr));
ASSERT_EQUAL(ptr, ", \"b\":4} ");
TEST_SUCCEED();
}
bool number_parsing_error() {
TEST_START();
auto json = R"( [13.34.514] )"_padded;
ondemand::parser parser;
ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
const char * ptr;
double d;
ASSERT_ERROR(doc.at_pointer("/0").get_double().get(d), NUMBER_ERROR);
ASSERT_SUCCESS(doc.current_location().get(ptr));
ASSERT_EQUAL(ptr, "13.34.514] ");
TEST_SUCCEED();
}
bool number_parsing_root_error() {
TEST_START();
auto json = R"( 13.34.514 )"_padded;
ondemand::parser parser;
ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
const char * ptr;
double d;
ASSERT_ERROR(doc.get_double().get(d), NUMBER_ERROR);
ASSERT_SUCCESS(doc.current_location().get(ptr));
ASSERT_EQUAL(ptr, "13.34.514 ");
TEST_SUCCEED();
}
bool current_location_in_value() {
TEST_START();
auto json = R"( {"a": {"b": "c"}} )"_padded;
ondemand::parser parser;
ondemand::document doc;
ASSERT_SUCCESS(parser.iterate(json).get(doc));
simdjson_result<ondemand::value> a = doc["a"];
ASSERT_SUCCESS(a);
const char * ptr;
ASSERT_SUCCESS(a.current_location().get(ptr));
ASSERT_EQUAL(ptr, R"({"b": "c"}} )");
simdjson_result<ondemand::value> b = a["b"];
ASSERT_SUCCESS(b);
ASSERT_SUCCESS(b.current_location().get(ptr));
ASSERT_EQUAL(ptr, R"("c"}} )");
double d;
ASSERT_ERROR(b.get_double().get(d), INCORRECT_TYPE);
ASSERT_SUCCESS(b.current_location().get(ptr));
ASSERT_EQUAL(ptr, R"("c"}} )");
TEST_SUCCEED();
}
bool run() {
return array() &&
object() &&
json_pointer() &&
json_pointer_with_errors() &&
broken_json1() &&
broken_json2() &&
broken_json3() &&
broken_json4() &&
incomplete_json() &&
boolean_error() &&
no_such_field() &&
object_with_no_such_field() &&
number_parsing_error() &&
number_parsing_root_error() &&
current_location_in_value() &&
true;
}
} // namespace error_location_tests
int main(int argc, char *argv[]) {
return test_main(argc, argv, error_location_tests::run);
}
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