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|
#include <string>
using namespace std::string_literals;
#include "simdjson.h"
#include "test_ondemand.h"
using namespace simdjson;
namespace document_stream_tests {
template <typename T>
bool process_doc(T &docref) {
int64_t val{};
ASSERT_SUCCESS(docref.at_pointer("/4").get(val));
ASSERT_EQUAL(val, 5);
return true;
}
bool truncated_utf8() {
TEST_START();
// truncated UTF-8
auto json = "\"document1\" \xC3"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
auto oderror = parser.iterate_many(json).get(stream);
if (oderror) {
std::cerr << "ondemand iterate_many error: " << oderror << std::endl;
return false;
}
int document_index = 0;
auto i = stream.begin();
for (; i != stream.end(); ++i) {
ondemand::document_reference doc;
auto err = (*i).get(doc);
document_index++;
// With the fallback routine, we might detect a 'document' since
// it does not do UTF-8 validation in stage one, but it will do
// so when we access the document.
if(err == SUCCESS) {
std::string_view document_string;
err = doc.get_string().get(document_string);
}
if((err == SUCCESS) && (document_index != 1)) {
std::cerr << "Only the first document should be valid." << std::endl;
return false;
}
if((err != SUCCESS) && (document_index != 2)) {
std::cerr << "ondemand iterate_many error: " << err << std::endl;
return false;
}
}
if(document_index < 1) {
std::cerr << "ondemand should have accessed at least one document" << std::endl;
return false;
}
TEST_SUCCEED();
}
bool issue1729() {
// This example is not a good application of iterate_many since there is
// a single JSON document.
TEST_START();
auto json = R"({
"t": 5649,
"ng": 5,
"lu": 4086,
"g": [{
"t": "Temps",
"xvy": 0,
"pd": 60,
"sz": 3,
"l": [
"Low Temp",
"High Temp",
"Smooth Avg"
],
"c": [
"green",
"orange",
"cyan"
],
"d": [
80.48750305,
80.82499694,
80.65625
]
},
{
"t": "Pump Status",
"xvy": 0,
"pd": 60,
"sz": 3,
"l": [
"Pump",
"Thermal",
"Light"
],
"c": [
"green",
"orange",
"cyan"
],
"d": [
0,
0,
0
]
},
{
"t": "Lux",
"xvy": 0,
"pd": 60,
"sz": 4,
"l": [
"Value",
"Smooth",
"Low",
"High"
],
"c": [
"green",
"orange",
"cyan",
"yellow"
],
"d": [
2274.62939453,
2277.45947265,
4050,
4500
]
},
{
"t": "Temp Diff",
"xvy": 0,
"pd": 60,
"sz": 4,
"l": [
"dFarenheit",
"sum",
"Low",
"High"
],
"c": [
"green",
"orange",
"cyan",
"yellow"
],
"d": [
0,
0,
0.5,
10
]
},
{
"t": "Power",
"xvy": 0,
"pd": 60,
"sz": 3,
"l": [
"watts (est. light) ",
"watts (1.9~gpm) ",
"watts (1gpm) "
],
"c": [
"green",
"orange",
"cyan"
],
"d": [
181.78063964,
114.88922882,
59.35943603
]
}
]
})"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
auto oderror = parser.iterate_many(json).get(stream);
if (oderror) {
std::cerr << "ondemand iterate_many error: " << oderror << std::endl;
return false;
}
auto i = stream.begin();
for (; i != stream.end(); ++i) {
ondemand::document_reference doc;
auto err = (*i).get(doc);
if(err != SUCCESS) {
std::cerr << "ondemand iterate_many error: " << err << std::endl;
return false;
}
}
TEST_SUCCEED();
}
bool issue2170() {
TEST_START();
auto json = R"(1 2 3)"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
auto i = stream.begin();
size_t count{0};
std::vector<size_t> indexes = { 0, 2, 4 };
std::vector<std::string_view> expected = { "1", "2", "3" };
for(; i != stream.end(); ++i) {
ASSERT_SUCCESS(i.error());
ASSERT_TRUE(count < 3);
ASSERT_EQUAL(i.current_index(), indexes[count]);
ASSERT_EQUAL(i.source(), expected[count]);
count++;
}
TEST_SUCCEED();
}
bool issue2181() {
TEST_START();
auto json = R"(1 2 34)"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
auto i = stream.begin();
size_t count{0};
std::vector<size_t> indexes = { 0, 2, 4 };
std::vector<std::string_view> expected = { "1", "2", "34" };
for(; i != stream.end(); ++i) {
ASSERT_SUCCESS(i.error());
ASSERT_TRUE(count < 3);
ASSERT_EQUAL(i.current_index(), indexes[count]);
ASSERT_EQUAL(i.source(), expected[count]);
count++;
}
TEST_SUCCEED();
}
bool issue1977() {
TEST_START();
std::string json = R"( 1111 })";
ondemand::parser odparser;
ondemand::document_stream odstream;
ASSERT_SUCCESS(odparser.iterate_many(json).get(odstream));
auto i = odstream.begin();
for (; i != odstream.end(); ++i) {
ASSERT_TRUE(false);
}
ASSERT_TRUE(i.current_index() == 0);
TEST_SUCCEED();
}
bool issue1683() {
TEST_START();
std::string json = R"([1,2,3,4,5]
[1,2,3,4,5]
[1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100]
[1,2,3,4,5])";
ondemand::parser odparser;
ondemand::document_stream odstream;
// iterate_many all at once
auto oderror = odparser.iterate_many(json, 50).get(odstream);
if (oderror) { std::cerr << "ondemand iterate_many error: " << oderror << std::endl; return false; }
size_t currindex = 0;
auto i = odstream.begin();
for (; i != odstream.end(); ++i) {
ondemand::document_reference doc;
auto err = (*i).get(doc);
if(err == SUCCESS) { if(!process_doc(doc)) {return false; } }
currindex = i.current_index();
if (err == simdjson::CAPACITY) {
ASSERT_EQUAL(currindex, 24);
ASSERT_EQUAL(odstream.truncated_bytes(), 305);
break;
} else if (err) {
TEST_FAIL("ondemand: error accessing jsonpointer: "s + simdjson::error_message(err));
}
}
ASSERT_EQUAL(odstream.truncated_bytes(), 305);
// iterate line-by-line
std::stringstream ss(json);
std::string oneline;
oneline.reserve(json.size() + SIMDJSON_PADDING);
while (getline(ss, oneline)) {
ondemand::document doc;
ASSERT_SUCCESS(odparser.iterate(oneline).get(doc));
if( ! process_doc(doc) ) { return false; }
}
TEST_SUCCEED();
}
bool simple_document_iteration() {
TEST_START();
auto json = R"([1,[1,2]] {"a":1,"b":2} {"o":{"1":1,"2":2}} [1,2,3])"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
std::string_view expected[4] = {"[1,[1,2]]", "{\"a\":1,\"b\":2}", "{\"o\":{\"1\":1,\"2\":2}}", "[1,2,3]"};
size_t counter{0};
for(auto doc : stream) {
ASSERT_TRUE(counter < 4);
std::string_view view;
ASSERT_SUCCESS(to_json_string(doc).get(view));
ASSERT_EQUAL(view, expected[counter++]);
}
ASSERT_EQUAL(counter, 4);
TEST_SUCCEED();
}
bool simple_document_iteration_multiple_batches() {
TEST_START();
auto json = R"([1,[1,2]] {"a":1,"b":2} {"o":{"1":1,"2":2}} [1,2,3])"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json,32).get(stream));
std::string_view expected[4] = {"[1,[1,2]]", "{\"a\":1,\"b\":2}", "{\"o\":{\"1\":1,\"2\":2}}", "[1,2,3]"};
size_t counter{0};
for(auto i = stream.begin(); i != stream.end(); ++i) {
ASSERT_TRUE(counter < 4);
ASSERT_EQUAL(i.source(), expected[counter++]);
}
ASSERT_EQUAL(counter, 4);
TEST_SUCCEED();
}
bool simple_document_iteration_with_parsing() {
TEST_START();
auto json = R"([1,[1,2]] {"a":1,"b":2} {"o":{"1":1,"2":2}} [1,2,3])"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
std::string_view expected[4] = {"[1,[1,2]]", "{\"a\":1,\"b\":2}", "{\"o\":{\"1\":1,\"2\":2}}", "[1,2,3]"};
size_t counter{0};
auto i = stream.begin();
int64_t x;
ASSERT_EQUAL(i.source(),expected[counter++]);
ASSERT_SUCCESS( (*i).at_pointer("/1/1").get(x) );
ASSERT_EQUAL(x,2);
++i;
ASSERT_EQUAL(i.source(),expected[counter++]);
simdjson_result<ondemand::document_reference> xxx = *i;
ASSERT_SUCCESS( xxx.find_field("a").get(x) );
ASSERT_EQUAL(x,1);
++i;
ASSERT_EQUAL(i.source(),expected[counter++]);
ASSERT_SUCCESS( (*i).at_pointer("/o/2").get(x) );
ASSERT_EQUAL(x,2);
++i;
ASSERT_EQUAL(i.source(),expected[counter++]);
ASSERT_SUCCESS( (*i).at_pointer("/2").get(x) );
ASSERT_EQUAL(x,3);
++i;
if (i != stream.end()) { return false; }
TEST_SUCCEED();
}
bool simple_document_iteration_advance() {
TEST_START();
auto json = R"([1,[1,2]] {"a":1,"b":2} {"o":{"1":1,"2":2}} [1,2,3])"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
std::string_view expected[4] = {"[1,[1,2]]", "{\"a\":1,\"b\":2}", "{\"o\":{\"1\":1,\"2\":2}}", "[1,2,3]"};
auto iter = stream.begin();
for (auto i = 0; i < 4; i++) {
auto doc = *iter;
std::string_view view;
ASSERT_SUCCESS(to_json_string(doc).get(view));
ASSERT_EQUAL(view, expected[i]);
std::advance(iter, 1);
}
TEST_SUCCEED();
}
bool skipbom() {
TEST_START();
auto json = "\xEF\xBB\xBF[1,[1,2]] {\"a\":1,\"b\":2} {\"o\":{\"1\":1,\"2\":2}} [1,2,3]"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
std::string_view expected[4] = {"[1,[1,2]]", "{\"a\":1,\"b\":2}", "{\"o\":{\"1\":1,\"2\":2}}", "[1,2,3]"};
size_t counter{0};
auto i = stream.begin();
int64_t x;
ASSERT_EQUAL(i.source(),expected[counter++]);
ASSERT_SUCCESS( (*i).at_pointer("/1/1").get(x) );
ASSERT_EQUAL(x,2);
++i;
ASSERT_EQUAL(i.source(),expected[counter++]);
simdjson_result<ondemand::document_reference> xxx = *i;
ASSERT_SUCCESS( xxx.find_field("a").get(x) );
ASSERT_EQUAL(x,1);
++i;
ASSERT_EQUAL(i.source(),expected[counter++]);
ASSERT_SUCCESS( (*i).at_pointer("/o/2").get(x) );
ASSERT_EQUAL(x,2);
++i;
ASSERT_EQUAL(i.source(),expected[counter++]);
ASSERT_SUCCESS( (*i).at_pointer("/2").get(x) );
ASSERT_EQUAL(x,3);
++i;
if (i != stream.end()) { return false; }
TEST_SUCCEED();
}
bool atoms_json() {
TEST_START();
auto json = R"(5 true 20.3 "string" )"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
std::string_view expected[4] = {"5", "true", "20.3", "\"string\""};
size_t counter{0};
for (auto i = stream.begin(); i != stream.end(); ++i) {
ASSERT_EQUAL(i.source(), expected[counter++]);
}
ASSERT_EQUAL(counter,4);
TEST_SUCCEED();
}
bool doc_index() {
TEST_START();
auto json = R"({"z":5} {"1":1,"2":2,"4":4} [7, 10, 9] [15, 11, 12, 13] [154, 110, 112, 1311])"_padded;
std::string_view expected[5] = {R"({"z":5})",R"({"1":1,"2":2,"4":4})","[7, 10, 9]","[15, 11, 12, 13]","[154, 110, 112, 1311]"};
size_t expected_indexes[5] = {0, 9, 29, 44, 65};
ondemand::parser parser;
ondemand::document_stream stream;
size_t counter{0};
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
for(auto i = stream.begin(); i != stream.end(); ++i) {
ASSERT_TRUE(counter < 5);
ASSERT_EQUAL(i.current_index(), expected_indexes[counter]);
ASSERT_EQUAL(i.source(), expected[counter]);
counter++;
}
ASSERT_EQUAL(counter, 5);
TEST_SUCCEED();
}
bool doc_index_multiple_batches() {
TEST_START();
auto json = R"({"z":5} {"1":1,"2":2,"4":4} [7, 10, 9] [15, 11, 12, 13] [154, 110, 112, 1311])"_padded;
std::string_view expected[5] = {R"({"z":5})",R"({"1":1,"2":2,"4":4})","[7, 10, 9]","[15, 11, 12, 13]","[154, 110, 112, 1311]"};
size_t expected_indexes[5] = {0, 9, 29, 44, 65};
ondemand::parser parser;
ondemand::document_stream stream;
size_t counter{0};
ASSERT_SUCCESS(parser.iterate_many(json,32).get(stream));
for(auto i = stream.begin(); i != stream.end(); ++i) {
ASSERT_TRUE(counter < 5);
ASSERT_EQUAL(i.current_index(), expected_indexes[counter]);
ASSERT_EQUAL(i.source(), expected[counter]);
counter++;
}
ASSERT_EQUAL(counter, 5);
TEST_SUCCEED();
}
bool source_test() {
TEST_START();
auto json = R"([1,[1,2]] {"a":1,"b":2} {"o":{"1":1,"2":2}} [1,2,3] )"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
std::string_view expected[4] = {"[1,[1,2]]", "{\"a\":1,\"b\":2}", "{\"o\":{\"1\":1,\"2\":2}}", "[1,2,3]"};
size_t counter{0};
for (auto i = stream.begin(); i != stream.end(); ++i) {
ASSERT_EQUAL(i.source(), expected[counter++]);
}
ASSERT_EQUAL(counter,4);
TEST_SUCCEED();
}
bool truncated() {
TEST_START();
// The last JSON document is intentionally truncated.
auto json = R"([1,2,3] {"1":1,"2":3,"4":4} [1,2 )"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
size_t counter{0};
for (auto i = stream.begin(); i != stream.end(); ++i) {
counter++;
}
size_t truncated = stream.truncated_bytes();
ASSERT_EQUAL(truncated, 6);
ASSERT_EQUAL(counter,2);
TEST_SUCCEED();
}
bool truncated_complete_docs() {
TEST_START();
auto json = R"([1,2,3] {"1":1,"2":3,"4":4} [1,2] )"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
size_t counter{0};
for (auto i = stream.begin(); i != stream.end(); ++i) {
counter++;
}
size_t truncated = stream.truncated_bytes();
ASSERT_EQUAL(truncated, 0);
ASSERT_EQUAL(counter,3);
TEST_SUCCEED();
}
bool truncated_unclosed_string() {
TEST_START();
// The last JSON document is intentionally truncated.
auto json = R"([1,2,3] {"1":1,"2":3,"4":4} "intentionally unclosed string )"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
// We use a window of json.size() though any large value would do.
ASSERT_SUCCESS( parser.iterate_many(json).get(stream) );
size_t counter{0};
for(auto i = stream.begin(); i != stream.end(); ++i) {
counter++;
}
size_t truncated = stream.truncated_bytes();
ASSERT_EQUAL(counter,2);
ASSERT_EQUAL(truncated,32);
TEST_SUCCEED();
}
bool truncated_unclosed_string_in_object() {
// The last JSON document is intentionally truncated.
auto json = R"([1,2,3] {"1":1,"2":3,"4":4} {"key":"intentionally unclosed string )"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS( parser.iterate_many(json).get(stream) );
size_t counter{0};
for(auto i = stream.begin(); i != stream.end(); ++i) {
counter++;
}
size_t truncated = stream.truncated_bytes();
ASSERT_EQUAL(counter,2);
ASSERT_EQUAL(truncated,39);
TEST_SUCCEED();
}
bool small_window() {
TEST_START();
std::vector<char> input;
input.push_back('[');
for(size_t i = 1; i < 1024; i++) {
input.push_back('1');
input.push_back(i < 1023 ? ',' : ']');
}
auto json = simdjson::padded_string(input.data(),input.size());
ondemand::parser parser;
size_t window_size{1024}; // deliberately too small
ondemand::document_stream stream;
ASSERT_SUCCESS( parser.iterate_many(json, window_size).get(stream) );
auto i = stream.begin();
ASSERT_ERROR(i.error(), CAPACITY);
ASSERT_EQUAL(stream.truncated_bytes(), json.length());
TEST_SUCCEED();
}
bool large_window() {
TEST_START();
#if SIZE_MAX > 17179869184
auto json = R"({"error":[],"result":{"token":"xxx"}}{"error":[],"result":{"token":"xxx"}})"_padded;
ondemand::parser parser;
uint64_t window_size{17179869184}; // deliberately too big
ondemand::document_stream stream;
ASSERT_SUCCESS( parser.iterate_many(json, size_t(window_size)).get(stream) );
auto i = stream.begin();
ASSERT_ERROR(i.error(),CAPACITY);
#endif
TEST_SUCCEED();
}
bool test_leading_spaces() {
TEST_START();
auto input = R"( [1,1] [1,2] [1,3] [1,4] [1,5] [1,6] [1,7] [1,8] [1,9] [1,10] [1,11] [1,12] [1,13] [1,14] [1,15] )"_padded;;
size_t count{0};
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(input, 32).get(stream));
for(auto i = stream.begin(); i != stream.end(); ++i) {
ASSERT_SUCCESS(i.error());
count++;
}
ASSERT_EQUAL(count,15);
TEST_SUCCEED();
}
bool test_crazy_leading_spaces() {
TEST_START();
auto input = R"( [1,1] [1,2] [1,3] [1,4] [1,5] [1,6] [1,7] [1,8] [1,9] [1,10] [1,11] [1,12] [1,13] [1,14] [1,15] )"_padded;;
size_t count{0};
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(input, 32).get(stream));
for(auto i = stream.begin(); i != stream.end(); ++i) {
ASSERT_SUCCESS(i.error());
count++;
}
ASSERT_EQUAL(count,15);
TEST_SUCCEED();
}
bool adversarial_single_document() {
TEST_START();
auto json = R"({"f[)"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
size_t count{0};
for (auto doc : stream) {
(void)doc;
count++;
}
ASSERT_EQUAL(count,0);
TEST_SUCCEED();
}
bool adversarial_single_document_array() {
TEST_START();
auto json = R"(["this is an unclosed string ])"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
size_t count{0};
for (auto doc : stream) {
(void)doc;
count++;
}
ASSERT_EQUAL(count,0);
TEST_SUCCEED();
}
bool document_stream_test() {
TEST_START();
fflush(NULL);
const size_t n_records = 100;
std::string data;
std::vector<char> buf(1024);
// Generating data
for (size_t i = 0; i < n_records; ++i) {
size_t n = snprintf(buf.data(),
buf.size(),
"{\"id\": %zu, \"name\": \"name%zu\", \"gender\": \"%s\", "
"\"ete\": {\"id\": %zu, \"name\": \"eventail%zu\"}}",
i, i, (i % 2) ? "homme" : "femme", i % 10, i % 10);
if (n >= buf.size()) { abort(); }
data += std::string(buf.data(), n);
}
for(size_t batch_size = 1000; batch_size < 2000; batch_size += (batch_size>1050?10:1)) {
fflush(NULL);
simdjson::padded_string str(data);
ondemand::parser parser;
ondemand::document_stream stream;
size_t count{0};
ASSERT_SUCCESS( parser.iterate_many(str, batch_size).get(stream) );
for (auto doc : stream) {
int64_t keyid{};
ASSERT_SUCCESS( doc["id"].get(keyid) );
ASSERT_EQUAL( keyid, int64_t(count) );
count++;
}
ASSERT_EQUAL(count,n_records);
}
TEST_SUCCEED();
}
bool issue2137() {
TEST_START();
auto json = "true { "_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(json).get(stream));
for (auto doc: stream) {
bool val{};
ASSERT_SUCCESS(doc.get_bool().get(val));
std::string_view raw_json;
ASSERT_SUCCESS(doc.raw_json_token().get(raw_json));
ASSERT_EQUAL(val, 1);
std::string s(raw_json);
ASSERT_EQUAL(s, "true ");
}
size_t t = stream.truncated_bytes();
ASSERT_EQUAL(3, t);
TEST_SUCCEED();
}
bool issue1668() {
TEST_START();
auto json = R"([1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100])"_padded;
ondemand::parser odparser;
ondemand::document_stream odstream;
ASSERT_SUCCESS( odparser.iterate_many(json.data(), json.length(), 50).get(odstream) );
for (auto doc: odstream) {
ondemand::value val;
ASSERT_ERROR(doc.at_pointer("/40").get(val), CAPACITY);
ASSERT_EQUAL(odstream.truncated_bytes(), json.length());
}
TEST_SUCCEED();
}
bool issue1668_long() {
TEST_START();
auto json = R"([1,2,3,4,5] [1,2,3,4,5] [1,2,3,4,5] [1,2,3,4,5] [1,2,3,4,5] [1,2,3,4,5] [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100])"_padded;
ondemand::parser odparser;
ondemand::document_stream odstream;
size_t counter{0};
ASSERT_SUCCESS( odparser.iterate_many(json.data(), json.length(), 50).get(odstream) );
for (auto doc: odstream) {
if(counter < 6) {
int64_t val{};
ASSERT_SUCCESS(doc.at_pointer("/4").get(val));
ASSERT_EQUAL(val, 5);
} else {
ondemand::value val;
ASSERT_ERROR(doc.at_pointer("/4").get(val), CAPACITY);
// We left 293 bytes unprocessed.
ASSERT_EQUAL(odstream.truncated_bytes(), 293);
}
counter++;
}
TEST_SUCCEED();
}
bool document_stream_utf8_test() {
TEST_START();
fflush(NULL);
const size_t n_records = 100;
std::string data;
std::vector<char> buf(1024);
// Generating data
for (size_t i = 0; i < n_records; ++i) {
size_t n = snprintf(buf.data(),
buf.size(),
"{\"id\": %zu, \"name\": \"name%zu\", \"gender\": \"%s\", "
"\"\xC3\xA9t\xC3\xA9\": {\"id\": %zu, \"name\": \"\xC3\xA9ventail%zu\"}}",
i, i, (i % 2) ? "\xE2\xBA\x83" : "\xE2\xBA\x95", i % 10, i % 10);
if (n >= buf.size()) { abort(); }
data += std::string(buf.data(), n);
}
for(size_t batch_size = 1000; batch_size < 2000; batch_size += (batch_size>1050?10:1)) {
fflush(NULL);
simdjson::padded_string str(data);
ondemand::parser parser;
ondemand::document_stream stream;
size_t count{0};
ASSERT_SUCCESS( parser.iterate_many(str, batch_size).get(stream) );
for (auto doc : stream) {
int64_t keyid{};
ASSERT_SUCCESS( doc["id"].get(keyid) );
ASSERT_EQUAL( keyid, int64_t(count) );
count++;
}
ASSERT_EQUAL( count, n_records )
}
TEST_SUCCEED();
}
bool stress_data_race() {
TEST_START();
// Correct JSON.
auto input = R"([1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] )"_padded;;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(input, 32).get(stream));
for(auto i = stream.begin(); i != stream.end(); ++i) {
ASSERT_SUCCESS(i.error());
}
TEST_SUCCEED();
}
bool stress_data_race_with_error() {
TEST_START();
#if SIMDJSON_THREAD_ENABLED
std::cout << "ENABLED" << std::endl;
#endif
// Intentionally broken
auto input = R"([1,23] [1,23] [1,23] [1,23 [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] [1,23] )"_padded;
ondemand::parser parser;
ondemand::document_stream stream;
ASSERT_SUCCESS(parser.iterate_many(input, 32).get(stream));
size_t count{0};
for(auto i = stream.begin(); i != stream.end(); ++i) {
auto error = i.error();
if(count <= 3) {
ASSERT_SUCCESS(error);
} else {
ASSERT_ERROR(error,TAPE_ERROR);
break;
}
count++;
}
TEST_SUCCEED();
}
bool fuzzaccess() {
TEST_START();
// Issue 38801 in oss-fuzz
auto json = "\xff \n~~\n{}"_padded;
ondemand::parser parser;
ondemand::document_stream docs;
ASSERT_SUCCESS(parser.iterate_many(json).get(docs));
size_t bool_count = 0;
size_t total_count = 0;
for (auto doc : docs) {
total_count++;
bool b;
if(doc.get_bool().get(b) == SUCCESS) { bool_count +=b; }
// If we don't access the document at all, other than get_bool(),
// then some simdjson kernels will allow you to iterate through
// 3 'documents'. By trying to access the content, we make the iteration
// terminate after the first 'document'.
std::string_view document_string;
if(doc.get_string().get(document_string) != SUCCESS) { break; }
}
return (bool_count == 0) && (total_count == 1);
}
bool string_with_trailing() {
TEST_START();
auto json = R"( "a string" badstuff )"_padded;
ondemand::parser parser;
ondemand::document_stream doc;
ASSERT_SUCCESS(parser.iterate_many(json).get(doc));
std::string_view view;
ASSERT_SUCCESS((*doc.begin()).get_string().get(view));
ASSERT_EQUAL(view,"a string");
TEST_SUCCEED();
}
bool uint64_with_trailing() {
TEST_START();
auto json = R"( 133 badstuff )"_padded;
ondemand::parser parser;
ondemand::document_stream doc;
ASSERT_SUCCESS(parser.iterate_many(json).get(doc));
uint64_t x;
ASSERT_SUCCESS((*doc.begin()).get_uint64().get(x));
ASSERT_EQUAL(x,133);
TEST_SUCCEED();
}
bool int64_with_trailing() {
TEST_START();
auto json = R"( 133 badstuff )"_padded;
ondemand::parser parser;
ondemand::document_stream doc;
ASSERT_SUCCESS(parser.iterate_many(json).get(doc));
int64_t x;
ASSERT_SUCCESS((*doc.begin()).get_int64().get(x));
ASSERT_EQUAL(x,133);
TEST_SUCCEED();
}
bool double_with_trailing() {
TEST_START();
auto json = R"( 133 badstuff )"_padded;
ondemand::parser parser;
ondemand::document_stream doc;
ASSERT_SUCCESS(parser.iterate_many(json).get(doc));
double x;
ASSERT_SUCCESS((*doc.begin()).get_double().get(x));
ASSERT_EQUAL(x,133);
TEST_SUCCEED();
}
bool bool_with_trailing() {
TEST_START();
auto json = R"( true badstuff )"_padded;
ondemand::parser parser;
ondemand::document_stream doc;
ASSERT_SUCCESS(parser.iterate_many(json).get(doc));
bool x;
ASSERT_SUCCESS((*doc.begin()).get_bool().get(x));
ASSERT_EQUAL(x,true);
TEST_SUCCEED();
}
bool null_with_trailing() {
TEST_START();
auto json = R"( null badstuff )"_padded;
ondemand::parser parser;
ondemand::document_stream doc;
ASSERT_SUCCESS(parser.iterate_many(json).get(doc));
bool n;
ASSERT_SUCCESS((*doc.begin()).is_null().get(n));
ASSERT_EQUAL(n,true);
TEST_SUCCEED();
}
bool run() {
return
issue2181() &&
issue2170() &&
issue2137() &&
skipbom() &&
issue1977() &&
string_with_trailing() &&
uint64_with_trailing() &&
int64_with_trailing() &&
bool_with_trailing() &&
null_with_trailing() &&
truncated_utf8() &&
issue1729() &&
fuzzaccess() &&
issue1683() &&
issue1668() &&
issue1668_long() &&
simple_document_iteration() &&
simple_document_iteration_multiple_batches() &&
simple_document_iteration_with_parsing() &&
simple_document_iteration_advance() &&
atoms_json() &&
doc_index() &&
doc_index_multiple_batches() &&
source_test() &&
truncated() &&
truncated_complete_docs() &&
truncated_unclosed_string() &&
small_window() &&
large_window() &&
test_leading_spaces() &&
test_crazy_leading_spaces() &&
adversarial_single_document() &&
adversarial_single_document_array() &&
document_stream_test() &&
document_stream_utf8_test() &&
stress_data_race() &&
stress_data_race_with_error() &&
true;
}
} // document_stream_tests
int main (int argc, char *argv[]) {
return test_main(argc, argv, document_stream_tests::run);
}
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