MultiSourceVideoProcess.cpp
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#include "MultiSourceVideoProcess.h"
#ifdef _MSC_VER
#include <direct.h>
#include <io.h>
//#include "putText.h"
#endif
#include <algorithm>
#include <fstream>
#include <future>
#include <thread>
#ifdef POST_USE_RABBITMQ
#include "helpers/gen_json.hpp"
#endif
#include "helpers/logger.hpp"
#include "helpers/os_helper.hpp"
//#define AUTHORIZATION
//#define DQ_AUTHORIZATION
#ifdef DQ_AUTHORIZATION
#include "license_validator.h"
#ifdef _MSC_VER
#define productSN "2AC69C4638EF46c884BD2BF132FF41D9" // 大千定制-定制授权ID
#else
#define productSN "683E9D5E56474da5A4C2D3EA9A00568E" // 大千定制-定制授权ID
#endif
#endif
#include "authority.h"
#ifdef AUTHORIZATION
#include <boost/thread.hpp>
#ifdef _MSC_VER
#define productSN "4ACFCBE67EF645AB8F0B4CFCDD1926F1" // WINDOWS
#else
#define productSN "4FD45501D5104F0C8C4BE530FC872F46" // LINUX
#endif
#endif
//#define LOG_INFO //
#define SKIP_FRAME 5 //
#define WAIT_TIME 1 // 等待时间 分钟 -byzsh 220614
void check_thread(void *handle);
DWORD ThreadProcess(LPVOID param);
CMultiSourceVideoProcess::CMultiSourceVideoProcess() = default;
CMultiSourceVideoProcess::~CMultiSourceVideoProcess() = default;
/* @FinishProcessThread
* @Description: 分析结束 最终释放全局资源+释放算法句柄资源
*/
int CMultiSourceVideoProcess::FinishProcessThread() {
if (thread_status_ == 0) {
thread_.interrupt();
thread_.join();
thread_status_ = -1;
}
ProcessThread.interrupt(); // interrupt thread
ProcessThread.join(); // waiting thread finish
VPT_Release(VPT_Handle_);
((save_snapshot_reprocessing *)m_save_snapshot_reprocessing)->save_snapshot_reprocessing_release();
if (m_save_snapshot_reprocessing) {
delete m_save_snapshot_reprocessing;
m_save_snapshot_reprocessing = nullptr;
}
m_task_param_manager->task_param_manager_release();
DxDecoderInterface::UninitDecoderModule();
return 1;
}
/* @InitAlgorthim
* @Description: 初始化全局参数 + 根据配置初始化算法模型
*/
int CMultiSourceVideoProcess::InitAlgorthim(tsl_aiplatform_param vptParam) {
licence_status_ = -1;
thread_status_ = -1;
int ret = SUCCESS;
#ifdef AUTHORIZATION
#ifdef _WIN32
if (SUCCESS == (ret = sy_licence(productSN)))
#elif __linux__
char wtime[15];
memset(wtime, 0, 15);
char *time = wtime;
if (SUCCESS == (ret = sy_licence(productSN, &time)))
#endif //
#else // ifdef AUTHORIZATION
ret = sy_time_check(2023, 2); // license_check(param.auth_license, productSN);//
if (ret == SUCCESS)
#endif // ifdef AUTHORIZATION
{
/*初始化全局参数*/
viewTaskID = -1;
TaskInPlay = 0;
TotalTask = 0;
ProcessFlag = false;
SourceFlag = false;
mModeSnapshotVideo = "cpu";
mModeSnapshotLittle = "cpu";
taskFinishCallbackFunc = nullptr;
taskObjInfoCallbackFunc = nullptr;
set_default_logger(LogLevel(vptParam.log_level), "multi_source_video_process", vptParam.log_path, vptParam.log_mem,
vptParam.log_mem);
cuInit(0);
int device_count = 0;
cuDeviceGetCount(&device_count);
if (vptParam.gpuid >= device_count) {
LOG_ERROR("gpu id ge host gpu device num ({} vs {})", vptParam.gpuid, device_count);
return GPUID_PARAM_ERROR;
}
CUdevice dev = 0;
size_t memSize = 0;
dev = vptParam.gpuid;
CUresult rlt = CUDA_SUCCESS;
rlt = cuDeviceTotalMem(&memSize, dev);
gpu_total_memory = (float)memSize / (1024 * 1024);
if (gpu_total_memory < 9000) // small gpu memory
section_batch_size_ = 10;
else
section_batch_size_ = 20;
/*初始化各个模块:任务管理、快照处理、快照保存、MQ*/
m_task_param_manager = task_param_manager::getInstance();
m_snapshot_reprocessing = snapshot_reprocessing::getInstance();
m_save_snapshot_reprocessing = new save_snapshot_reprocessing();
#ifdef POST_USE_RABBITMQ
mq_manager_ = new mq::Manager();
#endif
/*初始化各个算法模块*/
/* Init Model */
{
VPTProcess_PARAM param{};
{
param.gpuid = vptParam.gpuid;
// param.threshold = 0.6;
param.threshold = 0.45;
param.max_batch = section_batch_size_;
param.serialize_file = "./serialize_file/FPN_VPT";
param.auth_license = /*vptParam.auth_license*/ "sy_tsl_aiplatform_sdk_2021";
gpu_id_ = vptParam.gpuid;
}
VPT_Handle_ = nullptr;
if (0 != (ret = VPT_Init(VPT_Handle_, param))) {
LOG_FATAL("Init VPT failed");
return ret;
}
#ifdef WITH_SECOND_PROCESS
if (!takeaway_member_.init(vptParam.gpuid)) {
LOG_FATAL("Init TakeAwayMember failed");
return FALSE;
}
if (!fight_fall_cls_.init(vptParam.gpuid)) {
LOG_FATAL("Init FightFellCls failed");
return FALSE;
}
if (m_human_gather_statistics.human_gather_statistics_init() != 0) {
LOG_FATAL("Init Human Gather failed");
return FALSE;
}
{
hat_callsmoke_vestuniform_det_param init_param;
{
init_param.gpuid = vptParam.gpuid;
init_param.mode = init_param.gpuid >= 0 ? DEVICE_GPU : DEVICE_CPU;
init_param.engine = ENGINE_TENSORRT;
init_param.max_batch = section_batch_size_;
init_param.auth_license = "shiyu_zhian_2021_jetson_sdk";
init_param.serialize_file = "./serialize_file/pedestrian_safety_det";
}
if (!pedestrian_safety_detector_.init(init_param)) {
LOG_FATAL("Init Pedestrian Safety failure");
return FALSE;
}
}
{
// pedestrian_vehicle_retrograde_.init()
}
#endif
#ifdef WITH_FACE_DET_SS
// 人脸检测初始化
facedet_ai_engine_param fd_param;
fd_param.sdk_param.gpuid = vptParam.gpuid;
fd_param.sdk_param.mode = DEVICE_GPU;
fd_param.sdk_param.log = SY_CONFIG_CLOSE;
fd_param.sdk_param.thresld = 0.6;
fd_param.sdk_param.facial_fea_point_config = SY_CONFIG_OPEN;
fd_param.sdk_param.pose_config = SY_CONFIG_OPEN;
fd_param.sdk_param.quality_config = SY_CONFIG_CLOSE;
fd_param.sdk_param.score_config = SY_CONFIG_OPEN;
fd_param.sdk_param.max_result_count = 50;
fd_param.sdk_param.max_batch_size_detect = section_batch_size_;
fd_param.sdk_param.max_batch_size_ldmk = section_batch_size_;
fd_param.sdk_param.max_batch_size_score = section_batch_size_;
fd_param.sdk_param.max_batch_size_pose = section_batch_size_;
fd_param.sdk_param.serialize_file = "./serialize_file/FD";
fd_param.sdk_param.auth_license = "sy_tsl_aiplatform_sdk_2021";
if (0 > m_face_det_ai_engine.init_ai_engine(fd_param)) {
LOG_FATAL("Init face detection failed");
return FALSE;
}
#endif
}
if (ret == SUCCESS) //
{
licence_status_ = 0;
#ifdef AUTHORIZATION
thread_ = boost::thread(check_thread, this);
#endif
thread_status_ = 0;
}
} else {
return AUTHOR_ERROR;
}
#ifdef AUTHORIZATION
#ifdef __linux__
if (wtime) {
delete[] wtime;
wtime = NULL;
}
#endif // #ifdef __linux__
#endif // #ifdef AUTHORIZATION
return ret;
}
DWORD ThreadProcess(LPVOID param) {
CMultiSourceVideoProcess *pThreadParam = (CMultiSourceVideoProcess *)param;
auto task_has_vpt_algor = [&pThreadParam](const std::string &task_id) {
//! TODO: create enum iterator.
auto algor_map = pThreadParam->m_task_param_manager->get_task_other_param(task_id);
if (algor_map == nullptr)
return false;
return (algor_map->find(algorithm_type_t::HUMAN_GATHER) != algor_map->end() ||
algor_map->find(algorithm_type_t::HUMAN_SNAPSHOT) != algor_map->end() ||
algor_map->find(algorithm_type_t::NONMOTOR_VEHICLE_SNAPSHOT) != algor_map->end() ||
algor_map->find(algorithm_type_t::SMOKING_DET) != algor_map->end() ||
algor_map->find(algorithm_type_t::NO_REFLECTIVE_CLOTHING) != algor_map->end() ||
algor_map->find(algorithm_type_t::NO_SAFETY_HELMET) != algor_map->end() ||
algor_map->find(algorithm_type_t::CALL_PHONE_DET) != algor_map->end() ||
algor_map->find(algorithm_type_t::VEHICLE_SNAPSHOT) != algor_map->end() ||
algor_map->find(algorithm_type_t::TAKEAWAY_MEMBER_CLASSIFICATION) != algor_map->end() ||
algor_map->find(algorithm_type_t::PEDESTRIAN_FALL) != algor_map->end() ||
algor_map->find(algorithm_type_t::PEDESTRIAN_FIGHT) != algor_map->end() ||
algor_map->find(algorithm_type_t::PEDESTRIAN_RETROGRADE) != algor_map->end() ||
algor_map->find(algorithm_type_t::VEHICLE_RETROGRADE) != algor_map->end() ||
algor_map->find(algorithm_type_t::PEDESTRIAN_TRESPASS) != algor_map->end() ||
algor_map->find(algorithm_type_t::VEHICLE_TRESPASS) != algor_map->end());
};
auto task_has_face_algor = [&pThreadParam](const std::string &task_id) {
auto algor_map = pThreadParam->m_task_param_manager->get_task_other_param(task_id);
return algor_map->find(algorithm_type_t::FACE_SNAPSHOT) != algor_map->end();
};
cudaError_t cudaStatus = {};
sy_img *batch_img = new sy_img[20]{};
DxGPUFrame frame = {};
#ifdef _MSC_VER
LARGE_INTEGER nFreq, nBeginTime, nEndTime;
LARGE_INTEGER nSaveBeginTime, nSaveEndTime;
QueryPerformanceFrequency(&nFreq);
#endif
cudaSetDevice(pThreadParam->gpu_id_);
cuda_common::setColorSpace2(ITU709, 0);
CHECK(cudaMalloc((void **)&pThreadParam->FrameTemp, 3 * 4096 * 4096 * sizeof(unsigned char)));
long long costTime1 = 0;
int total_count = 0;
auto begintime1 = std::chrono::system_clock::now();
set<string> k;
#ifdef MTASK_DEBUG_
#endif
map<string, int> task_id_to_n_frame;
static int test_frame = 0;
/* 主流程 while循环,循环内容< 任务处理 -> 解码数据获取 -> 一级检测器 -> 快照更新 -> 每帧后续分析 ->
* delete目标的最后帧分析 >*/
while (true) {
CHECK(cudaGetLastError());
/* step1. 授权check */
if (pThreadParam->licence_status_ <= -3) {
LOG_FATAL("authority failed!");
break;
}
/* step2. 处理缓存中待更新的任务 */
{
std::lock_guard<std::mutex> l(pThreadParam->taskMutex);
pThreadParam->OperatorTask();
}
pThreadParam->taskCondVar.notify_all();
/* step3. 获取当前任务的情况,任务都结束则退出主循环,没有PLAY任务循环等待 */
int curTaskSize = pThreadParam->system_all_tasks_.size(); // 总任务数
int task_play = 0; // 当前活跃任务数
int task_finish = 0; // 当前已结束任务数
for (auto cur_task : pThreadParam->system_all_tasks_) {
if (cur_task.second.task_state == PLAY)
++task_play;
if (cur_task.second.task_state == FINISH)
++task_finish;
}
if (task_finish >= curTaskSize) // have no decode video, break
{
std::lock_guard<std::mutex> l(pThreadParam->taskMutex);
if (pThreadParam->HasNewTask())
continue;
else
break;
}
if (task_play <= 0) {
Sleep(30);
continue;
}
k.clear();
pThreadParam->TaskInPlayID.clear();
// /* step4. 获取各路解码数据 */
/* get one frame from per task. */
auto getdatat1 = std::chrono::system_clock::now(); //----zsh 220614 添加超时等待
getdata_flag:
for (auto &cur_task : pThreadParam->system_all_tasks_) {
task_resource &cur_task_resource = cur_task.second;
/* 当前路数处于PLAY状态 获取解码数据 */
if (k.find(cur_task.first) == k.end() && cur_task_resource.task_state == PLAY) {
if (cur_task_resource.taskcuvid->DxDecoderIsRun()) {
/* 解码器完成解码 解码数据存在 */
if (cur_task_resource.taskcuvid->DxLockFrame(&frame) == 0) {
/* 第一次获取 申请显存 */
if (!cur_task_resource.task_algorithm_data.frame && frame.width > 0 && frame.height > 0) {
cudaError_t cudaStatus = cudaMalloc((void **)&cur_task_resource.task_algorithm_data.frame,
3 * frame.size * frame.height * sizeof(float));
if (cudaStatus != cudaSuccess) {
LOG_ERROR("here cudaMalloc m_pRGBData[0] failed! error: {}", cudaGetErrorString(cudaStatus));
break;
}
cur_task_resource.task_algorithm_data.height = frame.height;
cur_task_resource.task_algorithm_data.width = frame.width;
cur_task_resource.task_algorithm_data.size = frame.size;
if (task_has_vpt_algor(cur_task.first))
AddTaskTracker(pThreadParam->VPT_Handle_, cur_task.first);
#ifdef WITH_FACE_DET_SS
if (task_has_face_algor(cur_task.first))
pThreadParam->m_face_det_ai_engine.operator_tracker(cur_task.first, ADDTASK,
SKIP_FRAME); // 跳帧数暂时写死
#endif
}
// 可省略2次cpy, zqli
/* 已申请好显存 直接cpy */
// copy decoded data and convert to rgb color space.
if (cur_task_resource.task_algorithm_data.frame) {
cudaStatus =
cudaMemcpy(cur_task_resource.task_algorithm_data.frame, frame.frame,
1.5 * frame.size * frame.height * sizeof(unsigned char), cudaMemcpyDeviceToDevice);
if (cudaStatus != cudaSuccess)
LOG_ERROR("cudaMemcpy failed: {}", cudaGetErrorString(cudaStatus));
cudaStatus = cuda_common::NV12ToRGBnot(
(CUdeviceptr)cur_task_resource.task_algorithm_data.frame, cur_task_resource.task_algorithm_data.size,
(unsigned char *)pThreadParam->FrameTemp, cur_task_resource.task_algorithm_data.width,
cur_task_resource.task_algorithm_data.height);
if (cudaStatus != cudaSuccess) {
cur_task_resource.taskcuvid->DxUnlockFrame();
CHECK(cudaDeviceSynchronize());
continue;
}
CHECK(cudaDeviceSynchronize());
cudaStatus = cudaMemcpy(cur_task_resource.task_algorithm_data.frame, pThreadParam->FrameTemp,
3 * cur_task_resource.task_algorithm_data.width *
cur_task_resource.task_algorithm_data.height * sizeof(unsigned char),
cudaMemcpyDeviceToDevice);
if (cudaStatus != cudaSuccess) {
cur_task_resource.taskcuvid->DxUnlockFrame();
CHECK(cudaDeviceSynchronize());
continue;
}
auto &task_id = cur_task.first;
k.insert(task_id);
++task_id_to_n_frame[task_id];
pThreadParam->TaskInPlayID.insert(task_id);
} else {
LOG_ERROR("NOT MALLOC: pThreadParam->tasks[i].taskDataToBackup.frame {}",
cur_task_resource.task_algorithm_data.frame);
}
cur_task_resource.taskcuvid->DxUnlockFrame();
}
} else /* 解码出现异常 DECODEERROR,结束该路任务 */
{
cur_task_resource.task_state = DECODEERROR;
task_play--;
if (!FinishTaskTracker(pThreadParam->VPT_Handle_, cur_task.first))
LOG_ERROR("Finish VPT Tracker failed, task_id: {}", cur_task.first);
}
}
}
// continue;
if (task_play <= 0) {
Sleep(30);
continue;
}
/* 解码数据未凑满 则循环等待(可加超时等待) */
//-------------------------------------------------------------------------------------------------
// if (k.size() < task_play) {
// boost::this_thread::sleep(boost::posix_time::milliseconds(1));
// goto getdata_flag;
// }
//----zsh 220614 添加超时等待
auto getdatat2 = std::chrono::system_clock::now();
auto getdata_time = std::chrono::duration_cast<std::chrono::minutes>(getdatat2 - getdatat1).count();
// auto getdata_time = std::chrono::duration_cast<std::chrono::seconds>(getdatat2 - getdatat1).count();
if (k.size() < task_play && getdata_time < WAIT_TIME) {
boost::this_thread::sleep(boost::posix_time::milliseconds(1));
goto getdata_flag;
}
for (auto &cur_task : pThreadParam->system_all_tasks_) {
auto &task_id = cur_task.first;
task_resource &cur_task_resource = cur_task.second;
if (k.find(cur_task.first) == k.end() && cur_task_resource.task_state == PLAY) {
cout << "------------decode too slow: " << cur_task.first << endl;
// 解码慢就结束任务?
LOG_INFO("decode too slow: task id: {} task state: {}", cur_task.first.c_str(), cur_task.second.task_state);
pThreadParam->FinishTask(cur_task.first, false);
pThreadParam->FinishDecode(cur_task.first);
task_play--;
}
}
//-------------------------------------------------------------------------------------------------
CHECK(cudaDeviceSynchronize());
/* step5. 凑齐的解码数据 拼batch */
int idx = 0;
sy_img *batch_img = new sy_img[task_play];
for (auto iter : pThreadParam->TaskInPlayID) // 先处理第一个MAX_BATCH
{
task_resource &cur_task_resource = pThreadParam->system_all_tasks_[iter];
batch_img[idx++].set_data(cur_task_resource.task_algorithm_data.width,
cur_task_resource.task_algorithm_data.height, 3,
(unsigned char *)cur_task_resource.task_algorithm_data.frame);
}
/* step6. 开始一级检测器 */
/* for vpt detection. */
{
decltype(pThreadParam->TaskInPlayID) vpt_interest_task_id;
std::vector<sy_img> vpt_interest_imgs(0);
/* 确定待检测的任务和图片 */
int _idx = 0;
for (auto _task_id_iter = pThreadParam->TaskInPlayID.begin(); _task_id_iter != pThreadParam->TaskInPlayID.end();
++_task_id_iter, ++_idx) // loop task_id;
{
auto task_id = *_task_id_iter;
if (!task_has_vpt_algor(task_id))
continue;
vpt_interest_task_id.insert(task_id);
vpt_interest_imgs.emplace_back(batch_img[_idx]);
}
// vpt_interest_imgs.reverse(vpt_interest_imgs.size());
/* 待检测的图片不为空 开始检测 */
if (!vpt_interest_imgs.empty()) {
vector<vector<int>> deleteObjectID;
deleteObjectID.resize(vpt_interest_task_id.size());
vector<vector<onelevel_det_result>> unUsedResult;
vector<onelevel_det_result> vptResult(0);
/* 一级检测器,内部已完成跟踪操作 */
VPT_Process_GPU(pThreadParam->VPT_Handle_, vpt_interest_imgs.data(), vpt_interest_imgs.size(), vptResult,
deleteObjectID, unUsedResult); // do det & track.
/* 每帧都需要进行的操作函数(如人数统计功能) */
// pThreadParam->everyframe_process(vpt_interest_task_id, batch_img, vptResult);
pThreadParam->everyframe_process(vpt_interest_task_id, vpt_interest_imgs.data(), vptResult); // modified by zsh
/* 根据任务的配置 对目标进行筛选 */
pThreadParam->m_snapshot_reprocessing->screen_effective_snapshot(vpt_interest_task_id, vptResult); //
#ifdef MTASK_DEBUG_
int idx_tmp = 0;
for (auto task_id : vpt_interest_task_id)
LOG_DEBUG("after screen_effective_snapshot task_id {} obj count {}", task_id, vptResult[idx_tmp++].obj_count);
#endif
/* 快照优选(内部可实现不同的快照优选策略) */
pThreadParam->m_snapshot_reprocessing->update_bestsnapshot(vpt_interest_task_id, vpt_interest_imgs.data(),
vptResult, deleteObjectID);
#ifdef WITH_SECOND_PROCESS
/* for pedestrian safety det. 行人安全分析算法模块 */
{
decltype(pThreadParam->TaskInPlayID) interest_task_id;
decltype(vptResult) interest_vpt_result;
vector<sy_img> interest_imgs(0);
int _idx = 0;
for (auto _task_id_iter = vpt_interest_task_id.begin(); _task_id_iter != vpt_interest_task_id.end();
++_task_id_iter, ++_idx) // loop task_id;
{
auto task_id = *_task_id_iter;
auto algor_map = pThreadParam->m_task_param_manager->get_task_other_param(task_id);
if (algor_map->find(algorithm_type_t::NO_REFLECTIVE_CLOTHING) != algor_map->end() ||
algor_map->find(algorithm_type_t::NO_SAFETY_HELMET) != algor_map->end() ||
algor_map->find(algorithm_type_t::CALL_PHONE_DET) != algor_map->end() ||
algor_map->find(algorithm_type_t::SMOKING_DET) != algor_map->end()) {
interest_task_id.insert(task_id);
interest_imgs.emplace_back(vpt_interest_imgs[_idx]);
interest_vpt_result.emplace_back(vptResult[_idx]);
}
}
if (!interest_imgs.empty())
pThreadParam->pedestrian_safety_detector_.update_mstreams(interest_task_id, interest_imgs.data(),
interest_vpt_result);
}
/* for retrograde & trespass algor 逆行&非法闯入算法模块 */
{
decltype(pThreadParam->TaskInPlayID) interest_task_id;
decltype(vptResult) interest_vpt_result;
vector<sy_img> interest_imgs(0);
decltype(pThreadParam->TaskInPlayID) trespass_interest_task_id;
decltype(vptResult) trespass_interest_vpt_result;
decltype(deleteObjectID) trespass_interest_deleteobjs;
vector<sy_img> trespass_interest_imgs(0);
int _idx = 0;
for (auto _task_id_iter = vpt_interest_task_id.begin(); _task_id_iter != vpt_interest_task_id.end();
++_task_id_iter, ++_idx) // loop task_id;
{
auto task_id = *_task_id_iter;
auto algor_map = pThreadParam->m_task_param_manager->get_task_other_param(task_id);
if (algor_map->find(algorithm_type_t::PEDESTRIAN_RETROGRADE) != algor_map->end() ||
algor_map->find(algorithm_type_t::VEHICLE_RETROGRADE) != algor_map->end()) {
interest_task_id.insert(task_id);
interest_imgs.emplace_back(vpt_interest_imgs[_idx]);
interest_vpt_result.emplace_back(vptResult[_idx]);
}
if (algor_map->find(algorithm_type_t::PEDESTRIAN_TRESPASS) != algor_map->end() ||
algor_map->find(algorithm_type_t::VEHICLE_TRESPASS) != algor_map->end()) {
trespass_interest_task_id.insert(task_id);
trespass_interest_imgs.emplace_back(vpt_interest_imgs[_idx]);
trespass_interest_vpt_result.emplace_back(vptResult[_idx]);
// printf("push back deleteObjectID\n");
trespass_interest_deleteobjs.emplace_back(deleteObjectID[_idx]);
// printf("end push back deleteObjectID\n");
}
}
if (!interest_imgs.empty())
pThreadParam->pedestrian_vehicle_retrograde_.update_mstreams(interest_task_id, interest_imgs.data(),
interest_vpt_result);
if (!trespass_interest_imgs.empty()) {
pThreadParam->pedestrian_vehicle_trespass_.update_mstreams(
trespass_interest_task_id, trespass_interest_imgs.data(), trespass_interest_vpt_result,
trespass_interest_deleteobjs);
}
}
#endif
/* for snapshot algorithm. 轨迹结束目标 做最后的结果返回(当前返回算法结果+快照保存路径)*/
{
auto task_iter = vpt_interest_task_id.begin();
for (int i = 0; i < deleteObjectID.size(); i++, ++task_iter) // loop taskId.
{
for (int &j : deleteObjectID[i]) // loop algor type.
{
OBJ_KEY obj_key = {*task_iter, j};
pThreadParam->endframe_obj_process(obj_key, algorithm_type_t::PLACEHOLDER);
}
vector<int>().swap(deleteObjectID[i]); // free.
}
vector<vector<int>>().swap(deleteObjectID); // free.
}
#ifdef WITH_SECOND_PROCESS
/* for fight fall cls. sync code. 打架跌倒算法模块 */
{
auto cuda_free_wrap = [](sy_img &img) {
CHECK(cudaFree(img.data_)) {
img.c_ = 0;
img.h_ = 0;
img.w_ = 0;
img.data_ = nullptr;
}
};
/* a. find fight or fall classification taskId. */
decltype(pThreadParam->TaskInPlayID) interest_task_id;
decltype(vptResult) interest_vpt_result;
vector<sy_img> interest_imgs(0);
int _idx = 0;
for (auto _task_id_iter = vpt_interest_task_id.begin(); _task_id_iter != vpt_interest_task_id.end();
++_task_id_iter, ++_idx) // loop task_id;
{
const auto &task_id = *_task_id_iter;
auto algor_map = pThreadParam->m_task_param_manager->get_task_other_param(task_id);
if (algor_map->find(algorithm_type_t::PEDESTRIAN_FIGHT) != algor_map->end() ||
algor_map->find(algorithm_type_t::PEDESTRIAN_FALL) != algor_map->end()) {
interest_task_id.insert(task_id);
interest_imgs.emplace_back(vpt_interest_imgs[_idx]);
interest_vpt_result.emplace_back(vptResult[_idx]);
}
}
/* b. process result. */
if (!interest_imgs.empty()) {
std::vector<ai_engine_module::fight_fall_cls::result_data_t> results;
pThreadParam->fight_fall_cls_.process_mstreams(interest_task_id, interest_imgs.data(), interest_vpt_result,
results);
for (auto &result : results) {
for (auto &res : result.fight_data) {
auto &taskId = res.taskid;
auto json_str = helpers::gen_json::gen_pedestrian_fight_json(res, "");
pThreadParam->save_snapshot_process(OBJ_KEY{taskId, (int)*res.objectids.begin()},
algorithm_type_t::PEDESTRIAN_FIGHT, res.ori_img, res.roi_img,
res.id, json_str,
/* enable_async= */ false);
cuda_free_wrap(res.roi_img);
}
for (auto &res : result.fall_data) {
auto &taskId = res.taskid;
auto json_str = helpers::gen_json::gen_pedestrian_fall_json(res, "");
pThreadParam->save_snapshot_process(OBJ_KEY{taskId, (int)res.objectid},
algorithm_type_t::PEDESTRIAN_FALL, res.ori_img, res.roi_img, res.id,
json_str, false);
cuda_free_wrap(res.roi_img);
}
}
}
}
/* for takeaway member. 外卖员分析模块 */
{
/* find takeaway member classification taskId. */
decltype(pThreadParam->TaskInPlayID) interest_task_id;
decltype(vptResult) interest_vpt_result;
vector<sy_img> interest_imgs(0);
int _idx = 0;
for (auto _task_id_iter = vpt_interest_task_id.begin(); _task_id_iter != vpt_interest_task_id.end();
++_task_id_iter, ++_idx) // loop task_id;
{
const auto &task_id = *_task_id_iter;
auto algor_map = pThreadParam->m_task_param_manager->get_task_other_param(task_id);
if (algor_map->find(algorithm_type_t::TAKEAWAY_MEMBER_CLASSIFICATION) == algor_map->end())
continue;
interest_task_id.insert(task_id);
interest_imgs.emplace_back(vpt_interest_imgs[_idx]);
interest_vpt_result.emplace_back(vptResult[_idx]);
}
if (!interest_imgs.empty())
pThreadParam->takeaway_member_.update_mstreams(interest_task_id, interest_imgs.data(), interest_vpt_result);
}
#endif
}
}
#ifdef WITH_FACE_DET_SS
/* for face det 人脸检测抓拍算法模块 */
{
#if 0
unsigned image_size = pThreadParam->TaskInPlayID.size();
std::vector<onelevel_det_result> facedet_result(image_size);
std::vector<std::vector<int>> face_deleteObjectID(image_size);
pThreadParam->m_face_det_ai_engine.ai_engine_process_batch(batch_img, image_size,
pThreadParam->TaskInPlayID, facedet_result, face_deleteObjectID);
// 跟踪结果送入快照更新
pThreadParam->m_snapshot_reprocessing->update_face_bestsnapshot(pThreadParam->TaskInPlayID, batch_img, facedet_result, face_deleteObjectID);
#else
decltype(pThreadParam->TaskInPlayID) face_det_interest_task_id;
std::vector<sy_img> face_det_interest_imgs(0);
int _idx = 0;
for (auto _task_id_iter = pThreadParam->TaskInPlayID.begin(); _task_id_iter != pThreadParam->TaskInPlayID.end();
++_task_id_iter, ++_idx) // loop task_id;
{
const auto &task_id = *_task_id_iter;
if (!task_has_face_algor(task_id))
continue;
face_det_interest_task_id.insert(task_id);
face_det_interest_imgs.emplace_back(batch_img[_idx]);
}
if (!face_det_interest_imgs.empty()) {
unsigned image_size = face_det_interest_imgs.size();
// 人脸检测、跟踪
std::vector<onelevel_det_result> facedet_result(image_size);
std::vector<std::vector<int>> face_deleteObjectID(image_size);
pThreadParam->m_face_det_ai_engine.ai_engine_process_batch(
face_det_interest_imgs.data(), face_det_interest_imgs.size(), face_det_interest_task_id, facedet_result, face_deleteObjectID);
#if 0
// accum
int32_t accum = 0;
for (const auto &it: facedet_result)
accum += it.obj_count;
LOG_TRACE(" face result has: {}", accum);
#endif
// 跟踪结果送入快照更新
pThreadParam->m_snapshot_reprocessing->update_face_bestsnapshot(
face_det_interest_task_id, face_det_interest_imgs.data(), facedet_result, face_deleteObjectID);
// 保存已结束轨迹的目标
// auto task_iter_face = pThreadParam->TaskInPlayID.begin();
auto task_iter_face = face_det_interest_task_id.begin(); //debug by zsh
for (int i = 0; i < face_deleteObjectID.size(); i++) {
for (int j = 0; j < face_deleteObjectID[i].size(); ++j) {
OBJ_KEY deleteObj = {*task_iter_face, face_deleteObjectID[i][j]};
LOG_TRACE("[info]22222: {}: {}",*task_iter_face,face_deleteObjectID[i][j]);
pThreadParam->endframe_obj_process(deleteObj, algorithm_type_t::FACE_SNAPSHOT);
}
++task_iter_face;
}
for (int i = 0; i < face_deleteObjectID.size(); ++i)
std::vector<int>().swap(face_deleteObjectID[i]);
std::vector<std::vector<int>>().swap(face_deleteObjectID);
std::vector<onelevel_det_result>().swap(facedet_result);
}
#endif
}
#endif
boost::this_thread::sleep(boost::posix_time::milliseconds(1));
++total_count;
}
#ifdef WITH_SECOND_PROCESS
{
std::string msg("taskId to n_frame pair has");
for (auto &iter : task_id_to_n_frame)
msg.append(fmt::format("({}: {})", iter.first.c_str(), iter.second));
for (auto &iter : task_id_to_n_frame) {
auto &task_id = iter.first;
pThreadParam->pedestrian_safety_detector_.force_release_result(task_id);
pThreadParam->pedestrian_vehicle_retrograde_.force_release_result(task_id);
pThreadParam->takeaway_member_.force_release_result(task_id);
}
LOG_DEBUG("{}", msg);
}
#endif
// TODO
costTime1 +=
std::chrono::duration_cast<std::chrono::milliseconds>(std::chrono::system_clock::now() - begintime1).count();
LOG_INFO("Process Thread is Finished: per frame cost time: {} ms", costTime1);
// pThreadParam->m_snaphot_helper.snapShotInfo.clear();
/* while循环退出 ProcessFlag标志位置为false 清空申请资源 */
pThreadParam->ProcessFlag = false;
if (pThreadParam->FrameTemp) {
CHECK(cudaFree(pThreadParam->FrameTemp));
pThreadParam->FrameTemp = nullptr;
}
if (batch_img != nullptr) {
delete[] batch_img;
batch_img = nullptr;
}
// added by zsh 220801---------------------------------------------------------------------------------
for(auto ss = pThreadParam->system_all_tasks_.begin(); ss != pThreadParam->system_all_tasks_.end(); ) {
pThreadParam->system_all_tasks_.erase(ss++);
}
//-----------------------------------------------------------------------------------------------------
return 0;
}
/* 实现快照保存功能(还未真正保存 将显存图片cp到内存
* 直接保存本地或者存入缓存队列异步保存,保存方式看需求,报警类需要同步保存报警,分析类可异步保存后返回)*/
bool CMultiSourceVideoProcess::save_snapshot_process(const OBJ_KEY &obj_key, const algorithm_type_t &algorithm_type,
const sy_img &ori_img, const sy_img &roi_img, const long long id,
const std::string &json_str, bool enable_async,
const bool ori_img_is_in_gpu, const bool roi_img_is_in_gpu) {
auto task_other_params = m_task_param_manager->get_task_other_param(obj_key.video_id);
const auto &algor_other_params = task_other_params->find(algorithm_type);
if (algor_other_params == task_other_params->end()) {
LOG_ERROR("task_id {} not found {} error", obj_key.video_id, int(algorithm_type));
return false;
}
// TODO
const algor_basic_config_param_t *basic_param = algor_other_params->second->basic_param;
// modified by zsh 图片名添加时间戳----------------------------------------------------------------------------------------
std::string cur_timestamp_ms = std::to_string(helpers::timer::get_timestamp<std::chrono::milliseconds>());
const std::string fpath_ori = basic_param->result_folder + helpers::os::sep + obj_key.video_id + "_" +
std::to_string(obj_key.obj_id) + "_" + std::to_string(id) + "_" + cur_timestamp_ms + ".jpg";
const std::string fpath_roi = basic_param->result_folder_little + helpers::os::sep + obj_key.video_id + "_" +
std::to_string(obj_key.obj_id) + "_" + std::to_string(id) + "_" + cur_timestamp_ms + ".jpg";
//------------------------------------------------------------------------------------------------------------------------
multi_image_t m_image(ori_img, roi_img);
{
m_image.ori_fpath = fpath_ori;
m_image.roi_fpath = fpath_roi;
m_image.ori_data_device = ori_img_is_in_gpu ? data_device_t::GPU : data_device_t::CPU;
m_image.roi_data_device = roi_img_is_in_gpu ? data_device_t::GPU : data_device_t::CPU;
}
// 调用快照保存后处理模块 将快照保存
m_save_snapshot_reprocessing->reprocessing_process_wo_locus(obj_key, m_image, enable_async
#ifdef POST_USE_RABBITMQ
,
json_str
#endif
);
return true;
}
/* 每帧都需要做的算法模块 */
int CMultiSourceVideoProcess::everyframe_process(set<string> &task_in_play_id, sy_img *images,
vector<onelevel_det_result> &ol_det_result) {
#ifdef WITH_SECOND_PROCESS
/* 人数聚集算法功能 每帧都会获取算法结果 并返回 */
auto results = m_human_gather_statistics.human_gather_statistics_process(task_in_play_id, images, ol_det_result);
for (auto &result : results) {
#ifdef POST_USE_RABBITMQ
auto json_str = helpers::gen_json::gen_human_gather_json(result.task_id, result.boxes, "");
#endif
auto task_id = result.task_id;
auto task_other_params = m_task_param_manager->get_task_other_param(task_id);
const auto &algor_other_params = task_other_params->find(algorithm_type_t::HUMAN_GATHER);
if (algor_other_params == task_other_params->end()) {
LOG_ERROR("[Error] taskId {} not found algor {}", task_id.c_str(), (int)algorithm_type_t::HUMAN_GATHER);
continue;
}
const algor_basic_config_param_t *basic_param = algor_other_params->second->basic_param;
// modified by zsh 图片名添加时间戳----------------------------------------------------------------------------------------
std::string cur_timestamp_ms = std::to_string(helpers::timer::get_timestamp<std::chrono::milliseconds>());
const std::string fpath_ori = basic_param->result_folder + helpers::os::sep + task_id + "_" +
std::to_string(result.boxes.size()) + "_" + std::to_string(result.id) + "_" + cur_timestamp_ms + ".jpg";
//------------------------------------------------------------------------------------------------------------------------
multi_image_t m_image(*result.img, sy_img());
{
m_image.ori_fpath = fpath_ori;
m_image.ori_data_device = data_device_t::GPU;
}
OBJ_KEY obj_key{task_id, 0};
m_save_snapshot_reprocessing->reprocessing_process_wo_locus(obj_key, m_image, true
#ifdef POST_USE_RABBITMQ
,
json_str
#endif
);
}
#endif
return 0;
}
/* 轨迹结束帧需要做的算法模块 */
int CMultiSourceVideoProcess::endframe_obj_process(const OBJ_KEY &obj_key, algorithm_type_t algor_type) {
auto task_param_ptr = m_task_param_manager->get_task_algor_param(obj_key.video_id);
auto task_other_param_ptr = m_task_param_manager->get_task_other_param(obj_key.video_id);
// 该路任务开启了抓拍功能 开始抓拍保存;若未开启抓拍,清空显存资源
if ((task_param_ptr->human_algors.find(algorithm_type_t::HUMAN_SNAPSHOT) != task_param_ptr->human_algors.end() ||
task_param_ptr->vehicle_algors.find(algorithm_type_t::VEHICLE_SNAPSHOT) !=
task_param_ptr->vehicle_algors.end() ||
task_param_ptr->nonmotor_vehicle_algors.find(algorithm_type_t::NONMOTOR_VEHICLE_SNAPSHOT) !=
task_param_ptr->nonmotor_vehicle_algors.end())) {
#ifdef MTASK_DEBUG_
LOG_DEBUG("task_id {} endframe_obj_process obj_id {}", obj_key.video_id, obj_key.obj_id);
#endif
m_save_snapshot_reprocessing->reprocessing_process(obj_key);
} else {
// printf("delete snapshot\n");
m_snapshot_reprocessing->delete_finishtask_snapshot(obj_key.video_id, obj_key.obj_id);
}
#ifdef WITH_SECOND_PROCESS
/* 开启外卖员算法模块,获取该目标的算法分析结果 返回结果+快照 最后释放资源 */
if (task_param_ptr->nonmotor_vehicle_algors.find(algorithm_type_t::TAKEAWAY_MEMBER_CLASSIFICATION) !=
task_param_ptr->nonmotor_vehicle_algors.end()) {
auto result = takeaway_member_.get_result_by_objectid(ai_engine_module::obj_key_t{
obj_key.obj_id, obj_key.video_id, algorithm_type_t::TAKEAWAY_MEMBER_CLASSIFICATION});
if (result.get()) {
auto json_str = helpers::gen_json::gen_takeaway_member_cls_json(obj_key.video_id, obj_key.obj_id, result->box,
result->category);
save_snapshot_process(obj_key, algorithm_type_t::TAKEAWAY_MEMBER_CLASSIFICATION, result->ori_img, result->roi_img,
0, json_str);
CHECK(cudaFree((void *)(result->roi_img.data_)));
CHECK(cudaFree((void *)(result->ori_img.data_)));
}
}
/* 开启行人&机动车逆行算法模块,获取该目标的算法分析结果 返回结果+快照 最后释放资源 */
if (task_param_ptr->human_algors.find(algorithm_type_t::PEDESTRIAN_RETROGRADE) !=
task_param_ptr->human_algors.end() ||
task_param_ptr->vehicle_algors.find(algorithm_type_t::VEHICLE_RETROGRADE) !=
task_param_ptr->vehicle_algors.end()) {
auto func_wrap = [&](const algorithm_type_t &algor_type) {
auto results = pedestrian_vehicle_retrograde_.get_results_by_id(
ai_engine_module::obj_key_t{obj_key.obj_id, obj_key.video_id, algor_type});
if (results) {
bool flag_pRetroGrade{true}, flag_vRetroGrade{true}; // modified by zsh
for (unsigned idx = 0; idx < results->size(); ++idx) {
auto &result = results->at(idx);
// modified by zsh 一个id一种事件只报警一次------------------------------------------------------------------
if(algor_type==algorithm_type_t::PEDESTRIAN_RETROGRADE && flag_pRetroGrade == true) {
auto &&json_str = helpers::gen_json::gen_retrograde_json(obj_key.video_id, obj_key.obj_id, result.box, algor_type);
save_snapshot_process(obj_key, algor_type, result.ori_img, result.roi_img, /*id=*/idx, json_str, true, result.ori_img_is_in_gpu, result.roi_img_is_in_gpu);
flag_pRetroGrade = false;
}
if(algor_type==algorithm_type_t::VEHICLE_RETROGRADE && flag_vRetroGrade == true) {
auto &&json_str = helpers::gen_json::gen_retrograde_json(obj_key.video_id, obj_key.obj_id, result.box, algor_type);
save_snapshot_process(obj_key, algor_type, result.ori_img, result.roi_img, /*id=*/idx, json_str, true, result.ori_img_is_in_gpu, result.roi_img_is_in_gpu);
flag_vRetroGrade = false;
}
// -------------------------------------------------------------------------------------------------------
if(0) {
auto &&json_str =
helpers::gen_json::gen_retrograde_json(obj_key.video_id, obj_key.obj_id, result.box, algor_type);
save_snapshot_process(obj_key, algor_type, result.ori_img, result.roi_img, /*id=*/idx, json_str, true,
result.ori_img_is_in_gpu, result.roi_img_is_in_gpu);
}
if (result.roi_img.data_ != nullptr) {
if (result.roi_img_is_in_gpu) {
LOG_DEBUG("free roi gpu memory.");
CHECK(cudaFree((void *)(result.roi_img.data_)))
}
result.roi_img.data_ = nullptr;
}
if (result.ori_img.data_ != nullptr) {
if (result.ori_img_is_in_gpu) {
LOG_DEBUG("free ori gpu memory.");
CHECK(cudaFree((void *)(result.ori_img.data_)))
}
result.ori_img.data_ = nullptr;
}
}
}
};
if (task_param_ptr->human_algors.find(algorithm_type_t::PEDESTRIAN_RETROGRADE) !=
task_param_ptr->human_algors.end())
func_wrap(algorithm_type_t::PEDESTRIAN_RETROGRADE);
if (task_param_ptr->vehicle_algors.find(algorithm_type_t::VEHICLE_RETROGRADE) !=
task_param_ptr->vehicle_algors.end())
func_wrap(algorithm_type_t::VEHICLE_RETROGRADE);
}
/* 开启行人&机动车非法闯入算法模块,获取该目标的算法分析结果 返回结果+快照 最后释放资源 */
if (task_param_ptr->human_algors.find(algorithm_type_t::PEDESTRIAN_TRESPASS) != task_param_ptr->human_algors.end() ||
task_param_ptr->vehicle_algors.find(algorithm_type_t::VEHICLE_TRESPASS) != task_param_ptr->vehicle_algors.end()) {
auto func_wrap = [&](const algorithm_type_t &algor_type) {
auto results = pedestrian_vehicle_trespass_.get_results_by_id(
ai_engine_module::obj_key_t{obj_key.obj_id, obj_key.video_id, algor_type});
if (results) {
bool flag_pThePass{true}, flag_vThePass{true}; // modified by zsh
for (unsigned idx = 0; idx < results->size(); ++idx) {
auto &result = results->at(idx);
// modified by zsh 一个id一种事件只报警一次------------------------------------------------------------------
if(algor_type==algorithm_type_t::PEDESTRIAN_TRESPASS && flag_pThePass == true) {
auto &&json_str = helpers::gen_json::gen_retrograde_json(obj_key.video_id, obj_key.obj_id, result.box, algor_type);
save_snapshot_process(obj_key, algor_type, result.ori_img, result.roi_img, /*id=*/idx, json_str, true, result.ori_img_is_in_gpu, result.roi_img_is_in_gpu);
flag_pThePass = false;
}
if(algor_type==algorithm_type_t::VEHICLE_TRESPASS && flag_vThePass == true) {
auto &&json_str = helpers::gen_json::gen_retrograde_json(obj_key.video_id, obj_key.obj_id, result.box, algor_type);
save_snapshot_process(obj_key, algor_type, result.ori_img, result.roi_img, /*id=*/idx, json_str, true, result.ori_img_is_in_gpu, result.roi_img_is_in_gpu);
flag_vThePass = false;
}
// -------------------------------------------------------------------------------------------------------
if(0) {
auto &&json_str =
helpers::gen_json::gen_retrograde_json(obj_key.video_id, obj_key.obj_id, result.box, algor_type);
// printf("%s\n", json_str.c_str());
save_snapshot_process(obj_key, algor_type, result.ori_img, result.roi_img, /*id=*/idx, json_str, true,
result.ori_img_is_in_gpu, result.roi_img_is_in_gpu);
}
if (result.roi_img.data_ != nullptr) {
if (result.roi_img_is_in_gpu)
CHECK(cudaFree((void *)(result.roi_img.data_)))
result.roi_img.data_ = nullptr;
}
if (result.ori_img.data_ != nullptr) {
if (result.ori_img_is_in_gpu)
CHECK(cudaFree((void *)(result.ori_img.data_)))
result.ori_img.data_ = nullptr;
}
}
}
};
if (task_param_ptr->human_algors.find(algorithm_type_t::PEDESTRIAN_TRESPASS) != task_param_ptr->human_algors.end())
func_wrap(algorithm_type_t::PEDESTRIAN_TRESPASS);
if (task_param_ptr->vehicle_algors.find(algorithm_type_t::VEHICLE_TRESPASS) != task_param_ptr->vehicle_algors.end())
func_wrap(algorithm_type_t::VEHICLE_TRESPASS);
}
/* 开启行人安全分析算法模块,获取该目标的算法分析结果 返回结果+快照 最后释放资源 */
if (task_param_ptr->human_algors.find(algorithm_type_t::NO_REFLECTIVE_CLOTHING) !=
task_param_ptr->human_algors.end() ||
task_param_ptr->human_algors.find(algorithm_type_t::NO_SAFETY_HELMET) != task_param_ptr->human_algors.end() ||
task_param_ptr->human_algors.find(algorithm_type_t::CALL_PHONE_DET) != task_param_ptr->human_algors.end() ||
task_param_ptr->human_algors.find(algorithm_type_t::SMOKING_DET) != task_param_ptr->human_algors.end()) {
LOG_TRACE("get result task_id {} obj_id {}", obj_key.video_id, obj_key.obj_id);
auto results = pedestrian_safety_detector_.get_results_by_id(
ai_engine_module::unique_obj_id_t{obj_key.obj_id, obj_key.video_id});
// auto results = std::shared_ptr<ai_engine_module::pedestrian_safety_det::results_data_t>(nullptr);
if (results) {
//! loop per pedestrian safety attribute.
long id = 0;
bool flag_nReflect{true}, flag_nHelmet{true}, flag_cPhone{true}, flag_smoking{true}; // modified by zsh
LOG_DEBUG(" size of results is {}", results->size());
for (auto result : *results) {
for (auto algor_type_iter = result.algorithm_type_seq.begin();
algor_type_iter != result.algorithm_type_seq.end(); ++algor_type_iter) {
auto algor_type = *algor_type_iter;
// modified by zsh 一个id一种事件只报警一次------------------------------------------------------------------
if(algor_type==algorithm_type_t::NO_REFLECTIVE_CLOTHING && flag_nReflect == true) {
auto json_str = helpers::gen_json::gen_pedestrian_safety_json(obj_key.video_id, obj_key.obj_id, result.box, algor_type);
save_snapshot_process(obj_key, algor_type, result.ori_img, result.roi_img, /*id=*/id++, json_str, true, result.ori_img_is_in_gpu, result.roi_img_is_in_gpu);
flag_nReflect = false;
LOG_TRACE("PEDESTRIAN task_id {} obj_id {} algor_type {}", obj_key.video_id, obj_key.obj_id, int(algor_type));
}
if(algor_type==algorithm_type_t::NO_SAFETY_HELMET && flag_nHelmet == true) {
auto json_str = helpers::gen_json::gen_pedestrian_safety_json(obj_key.video_id, obj_key.obj_id, result.box, algor_type);
save_snapshot_process(obj_key, algor_type, result.ori_img, result.roi_img, /*id=*/id++, json_str, true, result.ori_img_is_in_gpu, result.roi_img_is_in_gpu);
flag_nHelmet = false;
LOG_TRACE("PEDESTRIAN task_id {} obj_id {} algor_type {}", obj_key.video_id, obj_key.obj_id, int(algor_type));
}
if(algor_type==algorithm_type_t::CALL_PHONE_DET && flag_cPhone == true) {
auto json_str = helpers::gen_json::gen_pedestrian_safety_json(obj_key.video_id, obj_key.obj_id, result.box, algor_type);
save_snapshot_process(obj_key, algor_type, result.ori_img, result.roi_img, /*id=*/id++, json_str, true, result.ori_img_is_in_gpu, result.roi_img_is_in_gpu);
flag_cPhone = false;
LOG_TRACE("PEDESTRIAN task_id {} obj_id {} algor_type {}", obj_key.video_id, obj_key.obj_id, int(algor_type));
}
if(algor_type==algorithm_type_t::SMOKING_DET && flag_smoking == true) {
auto json_str = helpers::gen_json::gen_pedestrian_safety_json(obj_key.video_id, obj_key.obj_id, result.box, algor_type);
save_snapshot_process(obj_key, algor_type, result.ori_img, result.roi_img, /*id=*/id++, json_str, true, result.ori_img_is_in_gpu, result.roi_img_is_in_gpu);
flag_smoking = false;
LOG_TRACE("PEDESTRIAN task_id {} obj_id {} algor_type {}", obj_key.video_id, obj_key.obj_id, int(algor_type));
}
// -------------------------------------------------------------------------------------------------------
if(0) {
LOG_TRACE("PEDESTRIAN task_id {} obj_id {} algor_type {}", obj_key.video_id, obj_key.obj_id, int(algor_type));
auto json_str =
helpers::gen_json::gen_pedestrian_safety_json(obj_key.video_id, obj_key.obj_id, result.box, algor_type);
save_snapshot_process(obj_key, algor_type, result.ori_img, result.roi_img, /*id=*/id++, json_str, true,
result.ori_img_is_in_gpu, result.roi_img_is_in_gpu); }
}
if (result.roi_img.data_ != nullptr) {
if (result.roi_img_is_in_gpu)
CHECK(cudaFree((void *)(result.roi_img.data_)));
result.roi_img.data_ = nullptr;
}
if (result.ori_img.data_ != nullptr) {
if (result.ori_img_is_in_gpu)
CHECK(cudaFree((void *)(result.ori_img.data_)));
result.ori_img.data_ = nullptr;
}
}
}
}
#endif
/* 开启人脸抓拍分析算法模块,获取该目标的算法分析结果 返回结果+快照 最后释放资源 */
if (task_other_param_ptr->find(algorithm_type_t::FACE_SNAPSHOT) != task_other_param_ptr->end() &&
algor_type == algorithm_type_t::FACE_SNAPSHOT) {
LOG_TRACE("--- face snapshot will save snapshot IAMGE, task: {} obj: {}.", obj_key.video_id, obj_key.obj_id);
m_save_snapshot_reprocessing->reprocessing_process_face(obj_key);
}
return 0;
}
/* 结束解码器并释放资源 */
bool CMultiSourceVideoProcess::FinishDecode(std::pair<const std::string, task_resource> &iter) {
boost::thread::sleep(boost::get_system_time() + boost::posix_time::milliseconds(400));
{
task_resource &tmp_task = iter.second;
tmp_task.task_state == FINISH;
tmp_task.taskcuvid->DxCloseDecoder();
delete tmp_task.taskcuvid;
tmp_task.taskcuvid = nullptr;
}
return true;
}
/* 结束解码器并释放资源 */
void CMultiSourceVideoProcess::FinishDecode(const string taskID) {
boost::thread::sleep(boost::get_system_time() + boost::posix_time::milliseconds(400));
for (const auto &iter : system_all_tasks_) {
if (iter.first == taskID && system_all_tasks_[iter.first].taskcuvid != nullptr) {
task_resource &tmp_task = system_all_tasks_[iter.first];
tmp_task.task_state == FINISH;
tmp_task.taskcuvid->DxCloseDecoder();
delete tmp_task.taskcuvid;
tmp_task.taskcuvid = nullptr;
LOG_INFO("finish task: {:s}", taskID.c_str());
break;
}
}
}
/* 带超时等待的结束任务接口 */
int CMultiSourceVideoProcess::WaitAndFinishTask(const string taskID, const int max_timeout_ms) {
int error_code = FAILED;
std::unique_lock<std::mutex> lk(taskMutex);
AddOperator(taskID, FINISHTASK);
taskCondVar.wait_for(lk, std::chrono::milliseconds(max_timeout_ms));
if (system_all_tasks_.count(taskID)) {
task_resource &tmp_task = system_all_tasks_[taskID];
error_code = tmp_task.task_state == FINISH ? SUCCESS : FAILED;
}
if (SUCCESS != error_code)
// if (!DeleteTaskQ(taskID))
if (DeleteTaskQ(taskID)) // modifed by zsh 220729
LOG_ERROR("finish {} failed", taskID.c_str());
return error_code;
}
/* 带超时等待的暂停任务接口 */
int CMultiSourceVideoProcess::WaitAndPauseTask(const string taskID, const int max_timeout_ms) {
int error_code = FAILED;
std::unique_lock<std::mutex> lk(taskMutex);
AddOperator(taskID, PAUSETASK);
taskCondVar.wait_for(lk, std::chrono::milliseconds(max_timeout_ms));
if (system_all_tasks_.count(taskID)) {
task_resource &tmp_task = system_all_tasks_[taskID];
error_code = tmp_task.task_state == PAUSE ? SUCCESS : FAILED;
}
if (SUCCESS != error_code)
// if (!DeleteTaskQ(taskID))
if (DeleteTaskQ(taskID)) // modifed by zsh 220729
LOG_ERROR("pause {} failed", taskID.c_str());
return error_code;
}
/* 带超时等待的重启任务接口 */
int CMultiSourceVideoProcess::WaitAndRestartTask(const string taskID, const int max_timeout_ms) {
int error_code = FAILED;
std::unique_lock<std::mutex> lk(taskMutex);
AddOperator(taskID, RESTARTTASK);
taskCondVar.wait_for(lk, std::chrono::milliseconds(max_timeout_ms));
if (system_all_tasks_.count(taskID)) {
task_resource &tmp_task = system_all_tasks_[taskID];
error_code = tmp_task.task_state == PLAY ? SUCCESS : FAILED;
}
if (SUCCESS != error_code)
// if (!DeleteTaskQ(taskID))
if (DeleteTaskQ(taskID)) // modifed by zsh 220729
LOG_ERROR("restart {} failed", taskID.c_str());
return error_code;
}
/* 结束任务接口 */
void CMultiSourceVideoProcess::FinishTask(const string taskID, const bool delete_snapshot) {
if (!system_all_tasks_.count(taskID)) {
LOG_ERROR("finish task: {} failed (task id error)", taskID.c_str());
return;
}
task_resource &tmp_task = system_all_tasks_[taskID];
// added by zsh 220801 针对已finish但未从system_all_tasks_删除的任务
if (tmp_task.task_state == FINISH) {
LOG_ERROR("finish task: {} failed (task has already been finished.)", taskID.c_str());
return;
}
if (tmp_task.task_state == PLAY)
TaskInPlay--;
tmp_task.task_state = FINISH;
task_id_to_processed_frame_[taskID] = 0;
// m_snaphot_helper.finish_task_ss_analysis(taskID, m_hp_analysis_config, m_hcp_analysis_config,
// m_vehicle_analysis_config, m_hf_recg_config, m_hcf_recg_config, m_vcf_recg_config); //是否开启车辆特征识刿;
FinishTaskTracker(VPT_Handle_, taskID);
#ifdef WITH_FACE_DET_SS
// 人脸任务结束
auto task_param_ptr = m_task_param_manager->get_task_algor_param(taskID);
if (task_param_ptr->human_face_algors.find(algorithm_type_t::FACE_SNAPSHOT) !=
task_param_ptr->human_face_algors.end()) {
m_face_det_ai_engine.operator_tracker(taskID, FINISHTASK, 0);
m_face_det_ai_engine.finish_task(taskID);
}
#endif
if (tmp_task.task_algorithm_data.frame != nullptr) {
CHECK(cudaFree(tmp_task.task_algorithm_data.frame));
tmp_task.task_algorithm_data.frame = nullptr;
}
m_task_param_manager->delete_task_param(taskID);
// TODO: ???
if (delete_snapshot) {
m_snapshot_reprocessing->delete_finishtask_snapshot(taskID);
((save_snapshot_reprocessing *)m_save_snapshot_reprocessing)->delete_finishtask(taskID);
}
if (strcmp(taskID.c_str(), viewTaskID.c_str()) == 0)
viewTaskID = "";
LOG_INFO("finish task: {}", taskID.c_str());
}
/* 暂停任务接口 */
void CMultiSourceVideoProcess::PauseTask(const string taskID) {
if (!system_all_tasks_.count(taskID)) {
LOG_ERROR("pause task: {} failed (task id error)", taskID.c_str());
return;
}
task_resource &tmp_task = system_all_tasks_[taskID];
// added by zsh 220801 针对已finish但未从system_all_tasks_删除的任务
if (tmp_task.task_state == FINISH) {
LOG_ERROR("pause task: {} failed (task has already been finished.)", taskID.c_str());
return;
}
if (tmp_task.task_state == PLAY)
TaskInPlay--;
tmp_task.task_state = PAUSE;
task_id_to_processed_frame_[taskID] = 0;
PauseTaskTracker(VPT_Handle_, taskID);
#ifdef WITH_FACE_DET_SS
// 人脸任务暂停
auto task_param_ptr = m_task_param_manager->get_task_algor_param(taskID);
if (task_param_ptr->human_face_algors.find(algorithm_type_t::FACE_SNAPSHOT) !=
task_param_ptr->human_face_algors.end()) {
m_face_det_ai_engine.operator_tracker(taskID, PAUSETASK, 0);
}
#endif
tmp_task.taskcuvid->PauseDecoder();
if (strcmp(taskID.c_str(), viewTaskID.c_str()) == 0)
viewTaskID = "";
LOG_INFO("pause task: {}", taskID.c_str());
}
/* 重启任务接口 */
void CMultiSourceVideoProcess::RestartTask(const string taskID) {
if (!system_all_tasks_.count(taskID)) {
LOG_ERROR("restart task: {} failed (task id error)", taskID.c_str());
return;
}
task_resource &tmp_task = system_all_tasks_[taskID];
// added by zsh 220801 针对已finish但未从system_all_tasks_删除的任务
if (tmp_task.task_state == FINISH) {
LOG_ERROR("restart task: {} failed (task has already been finished.)", taskID.c_str());
return;
}
tmp_task.task_state = PLAY;
TaskInPlay++;
RestartTaskTracker(VPT_Handle_, taskID);
#ifdef WITH_FACE_DET_SS
// 人脸任务重启
auto task_param_ptr = m_task_param_manager->get_task_algor_param(taskID);
if (task_param_ptr->human_face_algors.find(algorithm_type_t::FACE_SNAPSHOT) !=
task_param_ptr->human_face_algors.end()) {
m_face_det_ai_engine.operator_tracker(taskID, RESTARTTASK, 0);
}
#endif
tmp_task.taskcuvid->ResumeDecoder();
LOG_INFO("restart task: {}", taskID.c_str());
}
bool CMultiSourceVideoProcess::DeleteTaskQ(const string taskID) {
// std::lock_guard<std::mutex> lk(taskMutex); // modifed by zsh 220729
for (auto it = TaskOperatorQ.begin(); it != TaskOperatorQ.end();) {
if (it->changeTaskID == taskID) {
TaskOperatorQ.erase(it);
return true;
} else
++it;
}
return false;
}
/* 添加任务接口 */
bool CMultiSourceVideoProcess::add_task_operation(task_param _cur_task_param) {
/* 通过ProcessFlag标志位来判断 是否是初次启动,若为初次启动,申请必要资源 开启主线程 */
if (!ProcessFlag)
DxDecoderInterface::InitDecoderModule();
/* 给新任务创建解码器 */
/* step1.判断流是否支持解码 */
int ret = DxDecoderInterface::IsSupport(_cur_task_param.ipc_url);
if (0 != ret) {
LOG_ERROR("not support codec {}.", ret);
return false;
}
task_resource &new_add_task_param = system_all_tasks_[_cur_task_param.task_id];
/* step2.创建新的解码器 */
DxConfig cfg = {0};
cfg.devId = gpu_id_;
cfg.decMode = 0;
cfg.colorFmt = 0;
// cfg.forceTcp = false;
cfg.forceTcp = true;
cfg.type = DX_DECODER_TYPE_CUDA;
new_add_task_param.taskcuvid = new DxDecoderWrap(&cfg);
if (nullptr == new_add_task_param.taskcuvid) {
LOG_ERROR("Add New DxDecoder Failed!");
system_all_tasks_.erase(_cur_task_param.task_id);
AddTaskSucFlag = FAILED;
return false;
}
/* step3.打开解码器 取一帧数据 获取流宽高 用于非法闯入功能初始化mask */
int input_image_width = 0, input_image_height = 0;
if (new_add_task_param.taskcuvid->DxOpenDecoder(_cur_task_param.ipc_url, SKIP_FRAME) != 0) {
LOG_ERROR("Add Task Failed! Please check you video file name!");
delete new_add_task_param.taskcuvid;
new_add_task_param.taskcuvid = nullptr;
system_all_tasks_.erase(_cur_task_param.task_id);
AddTaskSucFlag = VIDEOFILEERROR;
return false;
} else {
DxGPUFrame frame = {};
if (new_add_task_param.taskcuvid->DxDecoderIsRun()) {
while (1) {
if (new_add_task_param.taskcuvid->DxLockFrame(&frame) == 0) {
input_image_width = frame.width;
input_image_height = frame.height;
new_add_task_param.taskcuvid->DxUnlockFrame();
break;
}
}
}
}
/* 第一次这里添加任务参数 后续在AddOperator里面直接添加 */
if (!ProcessFlag)
m_task_param_manager->add_task_param(_cur_task_param.task_id, _cur_task_param);
#ifdef WITH_SECOND_PROCESS
/* 如果开启了行人 机动车非法闯入功能 生成闯入区域mask */
auto new_task_algor_param = m_task_param_manager->get_task_other_param(_cur_task_param.task_id);
if (new_task_algor_param->find(algorithm_type_t::PEDESTRIAN_TRESPASS) != new_task_algor_param->end()) {
pedestrian_vehicle_trespass_.pedestrianvehicletrespass_init_region(
_cur_task_param.task_id, algorithm_type_t::PEDESTRIAN_TRESPASS, input_image_width, input_image_height);
}
if (new_task_algor_param->find(algorithm_type_t::VEHICLE_TRESPASS) != new_task_algor_param->end()) {
pedestrian_vehicle_trespass_.pedestrianvehicletrespass_init_region(
_cur_task_param.task_id, algorithm_type_t::VEHICLE_TRESPASS, input_image_width, input_image_height);
}
#endif
new_add_task_param.task_state = PLAY;
/* 第一次添加任务 开启算法主线程 */
if (!ProcessFlag) {
LOG_DEBUG("open ThreadProcess");
ProcessThread = boost::thread(ThreadProcess, this);
ProcessFlag = true;
}
((save_snapshot_reprocessing *)m_save_snapshot_reprocessing)->add_newtask(_cur_task_param.task_id);
LOG_INFO("add task: {}", _cur_task_param.task_id);
AddTaskSucFlag = SUCCESS;
return true;
}
#ifdef POST_USE_RABBITMQ
/* MQ队列的初始化 */
int CMultiSourceVideoProcess::AddMqConn(mq_type_t mq_type, rabbitmq_conn_params_t mq_conn_param) {
/* 初始化MQ队列 */
if (!mq_manager_->add_conn(mq_type, mq_conn_param)) {
LOG_ERROR("Connection MQ failed, ip: {} port: {} uname: {} passwd: {}", mq_conn_param.ip, mq_conn_param.port,
mq_conn_param.uname, mq_conn_param.passwd);
return MQ_CONN_ERROR;
}
/* 为报警类 绑定回调 传入mq_manager_.publish 内部直接调用*/
if (mq_type_t::ALARM_MQ == mq_type)
m_save_snapshot_reprocessing->set_callback(
std::bind(&mq::Manager::publish, mq_manager_, mq_type, std::placeholders::_1, true));
return SUCCESS;
}
/* 获取任务的状态 MQ返回 */
int CMultiSourceVideoProcess::GetTaskStatus(const string taskID) {
std::vector<std::string> taskids;
std::vector<int> statues;
for (auto iter = system_all_tasks_.begin(); iter != system_all_tasks_.end(); ++iter) {
if (taskID.empty() || iter->first == taskID) {
int status = 0;
LOG_TRACE("task_state: {}: {}",iter->first,iter->second.task_state); // debug by zsh
switch (iter->second.task_state) {
case PLAY:
status = 1;
break;
case PAUSE:
status = 2;
break;
}
taskids.emplace_back(iter->first);
statues.emplace_back(status);
}
}
if (!taskids.empty()) {
auto json_str = helpers::gen_json::gen_task_status_json(taskids, statues);
// mq_manager_->publish(mq_type_t::GET_TASK_MQ, json_str.c_str());
mq_manager_->publish(mq_type_t::GET_TASK_MQ, json_str.c_str(),true);
}
return SUCCESS;
}
#endif
/* 添加任务操作 此处的添加 指添加任务的添加 */
int CMultiSourceVideoProcess::AddOperator(task_param tparam) {
if (!ProcessFlag) {
LOG_INFO("==> begin first add");
auto ret = add_task_operation(tparam);
boost::thread::sleep(boost::get_system_time() + boost::posix_time::microseconds(500));
return ret == true ? SUCCESS : FAILED;
} else {
std::unique_lock<std::mutex> l(taskMutex);
// 先做算法参数初始化
m_task_param_manager->add_task_param(tparam.task_id, tparam);
AddTaskSucFlag = 1; // 待处理
Operator newOper;
newOper.changeTaskID = tparam.task_id;
newOper.changeTaskOperator = ADDTASK;
newOper.videoFileName = tparam.ipc_url;
newOper.resultFolderLittleName = nullptr;
newOper.resultFolderName = nullptr;
TaskOperatorQ.push_back(newOper);
taskCondVar.wait_for(l, std::chrono::seconds(20));
}
int addRes = FAILED;
if (AddTaskSucFlag == SUCCESS) // 添加成功
{
addRes = SUCCESS;
} else if (AddTaskSucFlag < SUCCESS) // 添加失败 请求已处理
{
addRes = AddTaskSucFlag;
} else if (AddTaskSucFlag == 1) // 超时 一直为处理这条请求
{
if (!TaskOperatorQ.empty()) {
Operator newOper = TaskOperatorQ.back();
if (strcmp(newOper.videoFileName, tparam.ipc_url) == 0) {
TaskOperatorQ.pop_back();
}
LOG_ERROR("Failed Add New Task! Algorithm Process Error!");
}
addRes = TIMEOUT_ERROR;
}
return addRes;
}
/* 添加对任务的操作至缓存队列 此处的添加 指添加任务的(暂停、重启、结束)的添加,等待while结束后集中处理 */
void CMultiSourceVideoProcess::AddOperator(string taskID, int taskOper) {
if (taskOper > 0 && taskOper < 4) {
Operator newOper = {};
newOper.changeTaskID = taskID;
newOper.changeTaskOperator = TaskOperator(taskOper);
newOper.videoFileName = nullptr;
TaskOperatorQ.push_back(newOper);
}
}
/* 任务操作缓存队列 真正操作对任务的修改 */
void CMultiSourceVideoProcess::OperatorTask() {
for (const auto &cur_task : system_all_tasks_) {
if ((cur_task.second.task_state == PLAY || cur_task.second.task_state == DECODEERROR)) {
if (!cur_task.second.taskcuvid->DxDecoderIsRun()) {
LOG_INFO("decoder can not run: task id: {} task state: {}", cur_task.first.c_str(), cur_task.second.task_state);
FinishTask(cur_task.first, false);
FinishDecode(cur_task.first);
#ifdef POST_USE_RABBITMQ
auto json_str = helpers::gen_json::gen_office_task_heart_beat_json({cur_task.first});
mq_manager_->publish(mq_type_t::HEART_BEAT_MQ, json_str.c_str(), true);
#endif
}
}
}
while (!TaskOperatorQ.empty()) {
Operator newOperator = TaskOperatorQ.front();
TaskOperatorQ.pop_front();
switch (newOperator.changeTaskOperator) {
case ADDTASK:
task_param tparam;
tparam.task_id = newOperator.changeTaskID.c_str();
tparam.ipc_url = newOperator.videoFileName;
tparam.algor_counts = newOperator.algor_counts;
add_task_operation(tparam);
break;
case PAUSETASK:
PauseTask(newOperator.changeTaskID);
break;
case RESTARTTASK:
RestartTask(newOperator.changeTaskID);
break;
case FINISHTASK: {
LOG_DEBUG("{} start Finish Task.", newOperator.changeTaskID);
FinishTask(newOperator.changeTaskID, true);
} break;
default:
break;
}
}
}
/* 授权校验线程 */
#ifdef AUTHORIZATION
void check_thread(void *handle) {
int res = -1;
#ifndef _MSC_VER
char wtime[15];
memset(wtime, 0, 15);
char *time = wtime;
#endif
CMultiSourceVideoProcess *pThreadParam = (CMultiSourceVideoProcess *)handle;
while (1) {
#ifdef _MSC_VER
res = sy_licence(productSN);
#else
res = sy_licence(productSN, &time);
#endif
if (res < 0) {
pThreadParam->licence_status = pThreadParam->licence_status - 1;
} else {
if (pThreadParam->licence_status < 0) {
pThreadParam->licence_status = 0;
}
}
boost::this_thread::sleep(boost::posix_time::seconds(300)); // 5min
}
}
#endif