# 点云示例-PointCloud
功能描述:连接设备开流 ,生成深度点云或RGBD点云并保存成ply格式文件,并通过ESC_KEY键退出程序
> 本示例基于C++ High Level API进行演示
创建点云保存成ply格式文件函数,ply文件格式详细描述可在网络上查看
首先创建两个函数来保存从流里面获取到的点云数据,这是保存普通点云数据的函数
//保存点云数据到ply
void savePointsToPly(std::shared_ptr
int pointsSize = frame->dataSize() / sizeof(OBPoint);
FILE *fp = fopen(fileName.c_str(), "wb+");
fprintf(fp, "ply\n");
fprintf(fp, "format ascii 1.0\n");
fprintf(fp, "element vertex %d\n", pointsSize);
fprintf(fp, "property float x\n");
fprintf(fp, "property float y\n");
fprintf(fp, "property float z\n");
fprintf(fp, "end_header\n");
OBPoint *point = (OBPoint *)frame->data();
for(int i = 0; i < pointsSize; i++) {
fprintf(fp, "%.3f %.3f %.3f\n", point->x, point->y, point->z);
point++;
}
fflush(fp);
fclose(fp);
}
再创建一个保存彩色点云数据的函数用于存储彩色点云数据
//保存彩色点云数据到ply
void saveRGBPointsToPly(std::shared_ptr
int pointsSize = frame->dataSize() / sizeof(OBColorPoint);
FILE *fp = fopen(fileName.c_str(), "wb+");
fprintf(fp, "ply\n");
fprintf(fp, "format ascii 1.0\n");
fprintf(fp, "element vertex %d\n", pointsSize);
fprintf(fp, "property float x\n");
fprintf(fp, "property float y\n");
fprintf(fp, "property float z\n");
fprintf(fp, "property uchar red\n");
fprintf(fp, "property uchar green\n");
fprintf(fp, "property uchar blue\n");
fprintf(fp, "end_header\n");
OBColorPoint *point = (OBColorPoint *)frame->data();
for(int i = 0; i < pointsSize; i++) {
fprintf(fp, "%.3f %.3f %.3f %d %d %d\n", point->x, point->y, point->z, (int)point->r, (int)point->g, (int)point->b);
point++;
}
fflush(fp);
fclose(fp);
}
设置Log等级,避免过多Info等级的Log影响点云输出的结果
ob::Context::setLoggerSeverity(OB_LOG_SEVERITY_ERROR);
创建一个Pipeline,通过Pipeline可以很容易的打开和关闭多种类型的流并获取一组帧数据
ob::Pipeline pipeline;
配置color流
auto colorProfiles = pipeline.getStreamProfileList(OB_SENSOR_COLOR);
if(colorProfiles) {
auto profile = colorProfiles->getProfile(OB_PROFILE_DEFAULT);
colorProfile = profile->as
}
config->enableStream(colorProfile);
配置深度流
std::shared_ptr
OBAlignMode alignMode = ALIGN_DISABLE;
if(colorProfile) {
// Try find supported depth to color align hardware mode profile
depthProfileList = pipeline.getD2CDepthProfileList(colorProfile, ALIGN_D2C_HW_MODE);
if(depthProfileList->count() > 0) {
alignMode = ALIGN_D2C_HW_MODE;
}
else {
// Try find supported depth to color align software mode profile
depthProfileList = pipeline.getD2CDepthProfileList(colorProfile, ALIGN_D2C_SW_MODE);
if(depthProfileList->count() > 0) {
alignMode = ALIGN_D2C_SW_MODE;
}
}
}
else {
depthProfileList = pipeline.getStreamProfileList(OB_SENSOR_DEPTH);
}
if(depthProfileList->count() > 0) {
std::shared_ptr
try {
// Select the profile with the same frame rate as color.
if(colorProfile) {
depthProfile = depthProfileList->getVideoStreamProfile(OB_WIDTH_ANY, OB_HEIGHT_ANY, OB_FORMAT_ANY, colorProfile->fps());
}
}
catch(...) {
depthProfile = nullptr;
}
if(!depthProfile) {
// If no matching profile is found, select the default profile.
depthProfile = depthProfileList->getProfile(OB_PROFILE_DEFAULT);
}
config->enableStream(depthProfile);
开启D2C对齐, 生成RGBD点云时需要开启
// 开启D2C对齐, 生成RGBD点云时需要开启
config->setAlignMode(ALIGN_D2C_HW_MODE);
启动Pipeline
pipeline.start( config );
创建点云Filter对象,并且设置相机内参
// 创建点云Filter对象(点云Filter创建时会在Pipeline内部获取设备参数, 所以尽量在Filter创建前配置好设备)
ob::PointCloudFilter pointCloud;
//获取相机内参传入点云Filter中
auto cameraParam = pipeline.getCameraParam();
pointCloud.setCameraParam(cameraParam)
设置些操作提示
std::cout << "Press R to create rgbd pointCloud and save to ply file! " << std::endl;
std::cout << "Press d to create depth pointCloud and save to ply file! " << std::endl;
std::cout << "Press ESC to exit! " << std::endl;
设置主流程通过上面创建的点云Filter对象获取并保存点云数据
if(key == 'R' || key == 'r') {
count = 0;
//限制最多重复10次
while(count++ < 10) {
//等待一帧数据,超时时间为100ms
auto frameset = pipeline.waitForFrames(100);
if(frameset != nullptr && frameset->depthFrame() != nullptr && frameset->colorFrame() != nullptr) {
try {
//生成彩色点云并保存
std::cout << "Save RGBD PointCloud ply file..." << std::endl;
pointCloud.setCreatePointFormat(OB_FORMAT_RGB_POINT);
std::shared_ptr
saveRGBPointsToPly(frame, "RGBPoints.ply");
std::cout << "RGBPoints.ply Saved" << std::endl;
}
catch(std::exception &e) {
std::cout << "Get point cloud failed" << std::endl;
}
break;
}
}
}
else if(key == 'D' || key == 'd') {
count = 0;
//限制最多重复10次
while(count++ < 10) {
//等待一帧数据,超时时间为100ms
auto frameset = pipeline.waitForFrames(100);
if(frameset != nullptr && frameset->depthFrame() != nullptr) {
try {
//生成点云并保存
std::cout << "Save Depth PointCloud to ply file..." << std::endl;
pointCloud.setCreatePointFormat(OB_FORMAT_POINT);
std::shared_ptr
savePointsToPly(frame, "DepthPoints.ply");
std::cout << "DepthPoints.ply Saved" << std::endl;
}
catch(std::exception &e) {
std::cout << "Get point cloud failed" << std::endl;
}
break;
}
}
}
最后通过Pipeline来停止流
pipeline.stop();
程序正常退出后会释放资源
预期输出: