void CMC_Material::write(rapidjson::PrettyWriter<rapidjson::StringBuffer> &writer)
{
writer.StartObject ();
writer.String ("ambient_color");
writer.StartArray ();
writer.Double (ambientColor.x());
writer.Double (ambientColor.y());
writer.Double (ambientColor.z());
writer.EndArray ();
writer.String ("diffuse_color");
writer.StartArray ();
writer.Double (diffuseColor.x());
writer.Double (diffuseColor.y());
writer.Double (diffuseColor.z());
writer.EndArray ();
writer.String ("specular_color");
writer.StartArray ();
writer.Double (specularColor.x());
writer.Double (specularColor.y());
writer.Double (specularColor.z());
writer.EndArray ();
writer.String ("diffuse_texture_path");
writer.String (diffuseTexturePath.c_str ());
writer.String("normal_map_texture_path");
writer.String (normalTexturePath.c_str ());
writer.EndObject ();
}
void CMC_MeshData::write(rapidjson::PrettyWriter<rapidjson::StringBuffer> &writer)
{
writer.StartObject ();
//material index
writer.String ("material_index");
writer.Int (m_materialIndex);
//write vertices.
writer.String ("vertices");
writer.StartArray ();
for(int i =0;i<m_vertices.size ();i++)
{
m_vertices[i].write (writer);
}
writer.EndArray ();
//write indices.
writer.String ("indices");
writer.StartArray ();
for(auto i : m_indices)
{
writer.Int (i);
}
writer.EndArray ();
writer.EndObject ();
}
void SkeletonTracker::WriteHeader(const char *action, time_t timestamp, rapidjson::PrettyWriter<rapidjson::StringBuffer>& writer) {
std::stringstream ss;
ss << timestamp;
writer.String("HEAD");
writer.StartObject();
writer.String("service");
writer.String("skeletons");
writer.String("timestamp");
writer.String(ss.str().c_str());
writer.String("action");
writer.String(action);
writer.EndObject();
}
void SkeletonFrame::WriteJson(rapidjson::PrettyWriter<rapidjson::StringBuffer>& writer) {
std::map<std::string,Position>::iterator it;
std::stringstream ss;
ss << this->id;
writer.String(ss.str().c_str());
writer.StartObject();
for (it=this->deltas.begin(); it != this->deltas.end(); ++it) {
writer.String(it->first.c_str());
it->second.WriteJson(writer);
}
writer.EndObject();
}
void spawner_new_c::json_report(runner *runner_instance,
rapidjson::PrettyWriter<rapidjson::StringBuffer, rapidjson::UTF16<> > &writer) {
writer.StartObject();
//for {
report_class runner_report = runner_instance->get_report();
options_class runner_options = runner_instance->get_options();
//temporary
#define rapidjson_write(x) (writer.String(a2w(x)))
rapidjson_write("Application");
rapidjson_write(runner_report.application_name.c_str());
rapidjson_write("Arguments");
writer.StartArray();
for (size_t i = 0; i < runner_options.get_arguments_count(); ++i) {
rapidjson_write(runner_options.get_argument(i).c_str());
}
writer.EndArray();
rapidjson_write("Limit");
writer.StartObject();
restrictions_class runner_restrictions = ((secure_runner*)runner_instance)->get_restrictions();
struct {
const char *field;
unit_t unit;
degrees_enum degree;
restriction_kind_t restriction;
} restriction_items[] = {
{ "Time", unit_time_second, degree_micro, restriction_processor_time_limit },
{ "WallClockTime", unit_time_second, degree_micro, restriction_user_time_limit },
{ "Memory", unit_memory_byte, degree_default, restriction_memory_limit },
{ "SecurityLevel", unit_no_unit, degree_default, restriction_security_limit },
{ "IOBytes", unit_memory_byte, degree_default, restriction_write_limit },
{ "IdlenessTime", unit_time_second, degree_micro, restriction_idle_time_limit },
{ "IdlenessProcessorLoad", unit_no_unit, degree_centi, restriction_load_ratio },
{ nullptr, unit_no_unit, degree_default, restriction_max },
};
for (int i = 0; restriction_items[i].field; ++i) {
if (!runner_restrictions.check_restriction(restriction_items[i].restriction)) {
continue;
}
rapidjson_write(restriction_items[i].field);
if (restriction_items[i].degree == degree_default) {
writer.Uint64(runner_restrictions[restriction_items[i].restriction]);
}
else {
writer.Double((double)convert(
value_t(restriction_items[i].unit, restriction_items[i].degree),
value_t(restriction_items[i].unit),
(long double)runner_restrictions[restriction_items[i].restriction]
));
}
}
writer.EndObject();
rapidjson_write("Options");
writer.StartObject();
rapidjson_write("SearchInPath");
writer.Bool(runner_options.use_cmd);
writer.EndObject();
rapidjson_write("Result");
writer.StartObject();
struct {
const char *field;
uint64_t value;
unit_t unit;
degrees_enum degree;
} result_items[] = {
{ "Time", runner_report.processor_time, unit_time_second, degree_micro },
{ "WallClockTime", runner_report.user_time, unit_time_second, degree_micro },
{ "Memory", runner_report.peak_memory_used, unit_memory_byte, degree_default },
{ "BytesWritten", runner_report.write_transfer_count, unit_memory_byte, degree_default },
{ "KernelTime", runner_report.kernel_time, unit_time_second, degree_micro },
{ "ProcessorLoad", (uint64_t)(runner_report.load_ratio * 100), unit_no_unit, degree_micro },
{ nullptr, 0, unit_no_unit, degree_default },
};
for (int i = 0; result_items[i].field; ++i) {
rapidjson_write(result_items[i].field);
if (result_items[i].degree == degree_default) {
writer.Uint64(result_items[i].value);
}
else {
writer.Double((double)convert(
value_t(result_items[i].unit, result_items[i].degree),
value_t(result_items[i].unit),
(long double)result_items[i].value
));
}
}
rapidjson_write("WorkingDirectory");
rapidjson_write(runner_report.working_directory.c_str());
writer.EndObject();
rapidjson_write("StdOut");
writer.StartArray();
for (const auto& i : runner_options.stdoutput) {
rapidjson_write(i.original.c_str());
}
writer.EndArray();
rapidjson_write("StdErr");
writer.StartArray();
for (const auto& i : runner_options.stderror) {
rapidjson_write(i.original.c_str());
}
writer.EndArray();
rapidjson_write("StdIn");
writer.StartArray();
for (const auto& i : runner_options.stdinput) {
rapidjson_write(i.original.c_str());
}
writer.EndArray();
rapidjson_write("CreateProcessMethod");
rapidjson_write(options.login.empty() ? "CreateProcess" : "WithLogon");
rapidjson_write("UserName");
writer.String(runner_report.login.c_str());
rapidjson_write("TerminateReason");
rapidjson_write(get_terminate_reason(runner_report.terminate_reason).c_str());
rapidjson_write("ExitCode");
writer.Uint(runner_report.exit_code);
rapidjson_write("ExitStatus");
rapidjson_write(ExtractExitStatus(runner_report).c_str());
rapidjson_write("SpawnerError");
writer.StartArray();
std::vector<std::string> errors;
errors.push_back(get_error_text());
for (const auto& error : errors) {
rapidjson_write(error.c_str());
}
writer.EndArray();
writer.EndObject();
}