size_t count = 0;

for (size_t i = 0; i < length; i++) {

count += input[i] >> 7;

}

return count;

size_t count = 0;

for (size_t i = 0; i < length; i++) {

count += (input[i] == '\\') ? 1 : 0;

}

return count;

size_t integer_count;

size_t float_count;

size_t string_count;

size_t backslash_count;

size_t non_ascii_byte_count;

size_t object_count;

size_t array_count;

size_t null_count;

size_t true_count;

size_t false_count;

size_t byte_count;

size_t structural_indexes_count;

size_t key_count;

size_t key_maximum_length;

size_t maximum_depth;

size_t ascii_key_count;

size_t ascii_string_count;

size_t maximum_object_size;

size_t maximum_array_size;

size_t string_maximum_length;

bool valid;

for (size_t i = 0; i < v.size(); i++) {

if (static_cast<unsigned char>(v[i]) >= 128) {

return false;

}

}

return true;

if (depth > s.maximum_depth) {

s.maximum_depth = depth;

}

if (element.is<simdjson::dom::array>()) {

s.array_count++;

auto [array, array_error] = element.get<simdjson::dom::array>();

if (!array_error) {

size_t counter = 0;

for (auto child : array) {

counter++;

recurse(child, s, depth + 1);

}

if (counter > s.maximum_array_size) {

s.maximum_array_size = counter;

}

}

} else if (element.is<simdjson::dom::object>()) {

s.object_count++;

auto [object, object_error] = element.get<simdjson::dom::object>();

if (!object_error) {

size_t counter = 0;

for (auto [key, value] : object) {

counter++;

if (is_ascii(key)) {

s.ascii_key_count++;

s.ascii_string_count++;

}

if (key.size() > s.key_maximum_length) {

s.key_maximum_length = key.size();

}

if (key.size() > s.string_maximum_length) {

s.string_maximum_length = key.size();

}

s.string_count++;

s.key_count++;

recurse(value, s, depth + 1);

}

if (counter > s.maximum_object_size) {

s.maximum_object_size = counter;

}

}

} else {

simdjson::error_code error;

if (element.is<double>()) {

s.float_count++;

} else if (element.is<int64_t>()) {

s.integer_count++;

} else if (element.is<bool>()) {

bool v;

element.get<bool>().tie(v,error);

if (v) {

s.true_count++;

} else {

s.false_count++;

}

} else if (element.is_null()) {

s.null_count++;

} else if (element.is<std::string_view>()) {

s.string_count++;

std::string_view v;

element.get<std::string_view>().tie(v,error);

if (is_ascii(v)) {

s.ascii_string_count++;

}

std::string_view strval;

element.get<std::string_view>().tie(strval, error);

if (strval.size() > s.string_maximum_length) {

s.string_maximum_length = strval.size();

}

} else {

std::cerr << "unrecognized node." << std::endl;

abort();

}

}

stat_t s{};

simdjson::dom::parser parser;

auto [doc, error] = parser.parse(p);

if (error) {

s.valid = false;

std::cerr << error << std::endl;

return s;

}

s.valid = true;

s.backslash_count =

count_backslash(reinterpret_cast<const uint8_t *>(p.data()), p.size());

s.non_ascii_byte_count = count_nonasciibytes(

reinterpret_cast<const uint8_t *>(p.data()), p.size());

s.byte_count = p.size();

s.structural_indexes_count = parser.n_structural_indexes;

// simdjson::document::iterator iter(doc);

recurse(doc, s, 0);

return s;

int myoptind = 1;

if (myoptind >= argc) {

std::cerr << "Reads json, prints stats. " << std::endl;

std::cerr << "Usage: " << argv[0] << " <jsonfile>" << std::endl;

exit(1);

}

const char *filename = argv[myoptind];

if (myoptind + 1 < argc) {

std::cerr << "warning: ignoring everything after " << argv[myoptind + 1]

<< std::endl;

}

auto [p, error] = simdjson::padded_string::load(filename);

if (error) {

std::cerr << "Could not load the file " << filename << std::endl;

return EXIT_FAILURE;

}

stat_t s = simdjson_compute_stats(p);

if (!s.valid) {

std::cerr << "not a valid JSON" << std::endl;

return EXIT_FAILURE;

}

// Future work: the proper way to do the what follows would be to create

// a JSON object and then to serialize it.

printf(R"({

)",

s.integer_count, s.float_count, s.string_count, s.ascii_string_count,

s.string_maximum_length, s.backslash_count, s.non_ascii_byte_count,

s.object_count, s.maximum_object_size, s.array_count,

s.maximum_array_size, s.null_count, s.true_count, s.false_count,

s.byte_count, s.structural_indexes_count, s.key_count,

s.ascii_key_count, s.key_maximum_length, s.maximum_depth);

return EXIT_SUCCESS;

}