Пример #1
0
bool open_fiji::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
    if (func_name == tr("openfiji"))
    {
    vector<char*> infiles, outfiles;
    if(input.size()==0) {
        cout<<"for usage type: vaa3d -x open_fiji -f help"<<endl;
        return false;
    }
    if(input.size() >= 1) infiles = *((vector<char*> *)input.at(0).p);
    if(input.size() >= 2)
    {
    if(output.size() >= 1) outfiles = *((vector<char*> *)output.at(0).p);
    }
    char * inimg_file = ((vector<char*> *)(input.at(0).p))->at(0);
    char * outimg_file = ((vector<char*> *)(output.at(0).p))->at(0);


        call_open_using_imagej(false, QString(inimg_file    ),QString(outimg_file), callback);

    }
	else if (func_name == tr("help"))
	{
        cout<<"Usage : vaa3d -x open_fiji -f openfiji -i <input_file_name> -o <output_file_name>  "<<endl;
    }
	else return false;

	return true;
}
Пример #2
0
bool mostVesselTracerPlugin::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
    vector<char*> infiles, inparas, outfiles;
    if(input.size() >= 1) infiles = *((vector<char*> *)input.at(0).p);
    if(input.size() >= 2) inparas = *((vector<char*> *)input.at(1).p);
    if(output.size() >= 1) outfiles = *((vector<char*> *)output.at(0).p);

    if (func_name == tr("MOST_trace"))
    {
        return autotrace(input, output,callback);
    }
    else if (func_name == tr("help"))
    {
        cout<<"Usage : v3d -x dllname -f MOST_trace -i <inimg_file> -p <ch> <th> <seed> <slip>"<<endl;
        cout<<endl;
        cout<<"ch           the input channel value, start from 1, default 1"<<endl;
        cout<<"th           the threshold value, default 20"<<endl;
        cout<<"seed         window size of the seed, default 20"<<endl;
        cout<<"slip         window size to slip from seed, default 20"<<endl;
        cout<<"The output swc file will be named automatically based on the input image file nmae"<<endl;
        cout<<endl;
        cout<<endl;
    }
    else return false;

    return true;
}
Пример #3
0
bool SigenPlugin::dofunc(
    const QString &func_name,
    const V3DPluginArgList &input,
    V3DPluginArgList & /* output */,
    V3DPluginCallback2 &callback,
    QWidget *parent) {
  using std::vector;
  if (func_name == tr("trace")) {
    input_PARA PARA;
    vector<char *> *pinfiles = (input.size() >= 1) ? (vector<char *> *)input[0].p : 0;
    vector<char *> *pparas = (input.size() >= 2) ? (vector<char *> *)input[1].p : 0;
    vector<char *> infiles = (pinfiles != 0) ? *pinfiles : vector<char *>();
    vector<char *> paras = (pparas != 0) ? *pparas : vector<char *>();
    if (infiles.empty()) {
      fprintf(stderr, "Need input image. \n");
      return false;
    } else {
      PARA.inimg_file = infiles[0];
    }
    int k = 0;
    PARA.channel = ((int)paras.size() >= k + 1) ? atoi(paras[k]) : 1;
    k++;
    reconstruction_func(callback, parent, PARA, /* via_gui = */ false);
  } else if (func_name == tr("help")) {
    ////HERE IS WHERE THE DEVELOPERS SHOULD UPDATE THE USAGE OF THE PLUGIN
    printf("**** Usage of SIGEN tracing **** \n");
    printf("vaa3d -x SIGEN -f trace -i <inimg_file> -p <channel> <other parameters>\n");
    printf("inimg_file       The input image\n");
    printf("channel          Data channel for tracing. Start from 1 (default 1).\n");
    printf("outswc_file      Will be named automatically based on the input image file name, so you don't have to specify it.\n\n");
  } else {
    return false;
  }
  return true;
}
Пример #4
0
bool processImage(V3DPluginCallback2 &callback, const V3DPluginArgList & input, V3DPluginArgList & output, unsigned int rotateflag)
{
     cout<<"Welcome to Rotate image"<<endl;
	if (input.size() != 1 || output.size() != 1) return false;

	char * inimg_file = ((vector<char*> *)(input.at(0).p))->at(0);
	char * outimg_file = ((vector<char*> *)(output.at(0).p))->at(0);

     cout<<"rotateflag = "<<rotateflag<<endl;

	cout<<"inimg_file = "<<inimg_file<<endl;
	cout<<"outimg_file = "<<outimg_file<<endl;

	unsigned char * data1d = 0;
    V3DLONG in_sz[4];

	int datatype;
    if(!simple_loadimage_wrapper(callback, inimg_file, data1d, in_sz, datatype))
     {
          cerr<<"load image "<<inimg_file<<" error!"<<endl;
          return false;
     }

     unsigned char* outimg = 0;
     V3DLONG szx=in_sz[0], szy=in_sz[1], szz=in_sz[2], szc=in_sz[3];

     switch (datatype)
     {
          case 1: rotateimage(data1d, in_sz, V3D_UINT8, rotateflag, outimg); break;
          case 2: rotateimage(data1d, in_sz, V3D_UINT16, rotateflag, outimg); break;
          case 4: rotateimage(data1d, in_sz, V3D_FLOAT32, rotateflag, outimg); break;
          default:
               v3d_msg("Invalid datatype.");
               if (data1d) {delete []data1d; data1d=0;}
               return false;
     }

     // save image
     switch(rotateflag)
     {
          case 1:
          case 2:
               in_sz[0]=szy; in_sz[1]=szx;
               simple_saveimage_wrapper(callback, outimg_file, (unsigned char *)outimg, in_sz, datatype);
               break;

          case 3:
               in_sz[0]=szx; in_sz[1]=szy;
               simple_saveimage_wrapper(callback, outimg_file, (unsigned char *)outimg, in_sz, datatype);
               break;
          default:
               break;
     }

     if (outimg) {delete []outimg; outimg =0;}
     if (data1d) {delete []data1d; data1d=0;}

     return true;
}
Пример #5
0
bool swc2eswc_io(const V3DPluginArgList & input, V3DPluginArgList & output)
{
	cout<<"Welcome to swc2eswc_io"<<endl;
	
	vector<char*>* inlist = (vector<char*>*)(input.at(0).p);
	vector<char*>* outlist = NULL;

	if(input.size() != 1) 
	{
		printf("Please specify both input file name.\n");
		return false;
	}

	QString fileOpenName = QString(inlist->at(0));
	QString fileSaveName;
	QString tmp = fileOpenName;
	if (output.size()==0)
	{
		printf("No outputfile specified.\n");
		tmp.chop(3);
		fileSaveName = tmp + "eswc";
	}
	else if (output.size()==1)
	{
		outlist = (vector<char*>*)(output.at(0).p);
		fileSaveName = QString(outlist->at(0));
	}
	else
	{
		printf("You have specified more than 1 output file.\n");
		return false;
	}

	NeuronTree neuron;
	vector<V3DLONG> segment_id, segment_layer;
	if (fileOpenName.endsWith(".swc") || fileOpenName.endsWith(".SWC"))
	{
		neuron = readSWC_file(fileOpenName);
		segment_id, segment_layer;
		if (!swc2eswc(neuron,segment_id, segment_layer))
		{
			v3d_msg("Cannot convert swc to eswc.", 0);
			return false;
		}
	}
	else {
		v3d_msg("The file type you specified is not supported. Please check.", 0);
		return false;
	}
	
	if (!export_eswc(neuron,segment_id,segment_layer,qPrintable(fileOpenName),qPrintable(fileSaveName)))
	{
		v3d_msg("fail to write the output eswc file.", 0);
		return false;
	}
	return true;
}
Пример #6
0
bool retype_swc::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
    vector<char*> infiles, paras, outfiles;
    if(input.size() >= 1) infiles = *((vector<char*> *)input.at(0).p);
    if(input.size() >= 2) paras = *((vector<char*> *)input.at(1).p);
    if(output.size() >= 1) outfiles = *((vector<char*> *)output.at(0).p);

    if (func_name == tr("retype"))
    {
        cout<<"Welcome to swc retyping plugin"<<endl;
        if(infiles.empty())
        {
            cerr<<"Need input swc file"<<endl;
            return false;
        }

        QString  inswc_file =  infiles[0];
        int k=0;
        int type = (paras.size() >= k+1) ? atoi(paras[k]) : 3;  k++;//0;

        QString  outswc_file;
        if(!outfiles.empty())
            outswc_file = outfiles[0];
        else
            outswc_file = inswc_file + "_retyped.swc";

        cout<<"inswc_file = "<<inswc_file.toStdString().c_str()<<endl;
        cout<<"node type = "<<type<<endl;
        cout<<"outswc_file = "<<outswc_file.toStdString().c_str()<<endl;

        NeuronTree nt;
        nt = readSWC_file(inswc_file);
        for(V3DLONG i = 0; i < nt.listNeuron.size(); i++)
        {
            if(nt.listNeuron[i].parent == -1)
                nt.listNeuron[i].type = 1;
            else
                nt.listNeuron[i].type = type;
        }
        if (!export_list2file(nt.listNeuron,outswc_file,inswc_file))
        {
            v3d_msg("fail to write the output swc file.");
            return false;
        }
    }
    else if (func_name == tr("help"))
    {
        cout<<"Usage : v3d -x dllname -f retype -i <inswc_file> -o <outswc_file> -p <type>"<<endl;
        cout<<endl;
    }
	else return false;

	return true;
}
Пример #7
0
bool file_transform::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
	vector<char*> infiles, inparas, outfiles;
	if(input.size() >= 1) infiles = *((vector<char*> *)input.at(0).p);
	if(input.size() >= 2) inparas = *((vector<char*> *)input.at(1).p);
	if(output.size() >= 1) outfiles = *((vector<char*> *)output.at(0).p);

    if (func_name == tr("affineImage"))
	{
        qDebug()<<"==== affine and combine images ====";
        if(infiles.size()!=3 || outfiles.size()!=1){
            qDebug()<<"ERROR: please set input and output!";
            printHelp();
            return false;
        }
        QString fname_img_tar=((vector<char*> *)(input.at(0).p))->at(0);
        QString fname_img_sub=((vector<char*> *)(input.at(0).p))->at(1);
        QString fname_amat=((vector<char*> *)(input.at(0).p))->at(2);
        QString fname_output=((vector<char*> *)(output.at(0).p))->at(0);

        //init parameters
        bool b_channelSeperate = false;
        bool b_negativeShift = true;
        int interpMethod = 0;
        if(input.size() >= 2){
            vector<char*> paras = (*(vector<char*> *)(input.at(1).p));

            if(paras.size()>0){
                int tmp=atoi(paras.at(0));
                if(tmp==1)
                    interpMethod = 1;
            }
            if(paras.size()>1){
                int tmp=atoi(paras.at(1));
                if(tmp==0)
                    b_negativeShift = false;
            }
            if(paras.size()>2){
                int tmp=atoi(paras.at(2));
                if(tmp==1)
                    b_channelSeperate = true;
            }
        }
        doAffineImage(callback, fname_img_tar, fname_img_sub, fname_amat, fname_output, interpMethod, b_negativeShift, b_channelSeperate);
	}
	else if (func_name == tr("help"))
	{
        printHelp();
	}
	else return false;

	return true;
}
Пример #8
0
bool RivuletPlugin::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
	if (func_name == tr("tracing_func"))
	{
        bool bmenu = false;
        input_PARA PARA;

        vector<char*> * pinfiles = (input.size() >= 1) ? (vector<char*> *) input[0].p : 0;
        vector<char*> * pparas = (input.size() >= 2) ? (vector<char*> *) input[1].p : 0;
        vector<char*> infiles = (pinfiles != 0) ? * pinfiles : vector<char*>();
        vector<char*> paras = (pparas != 0) ? * pparas : vector<char*>();

        if(infiles.empty())
        {
            fprintf (stderr, "Need input image. \n");
            return false;
        }
        else
            PARA.inimg_file = infiles[0];
        int k=0;
        PARA.channel = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        PARA.threshold = (paras.size() >= k+1) ? atoi(paras[k]) : 10;  k++;
        PARA.stepsize = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        PARA.gap = (paras.size() >= k+1) ? atoi(paras[k]) : 15;  k++;
        PARA.dumpbranch = (paras.size() >= k+1) ? atoi(paras[k]) : 0;  k++;
        PARA.connectrate = (paras.size() >= k+1) ? atof(paras[k]) : 1.5;  k++;
        PARA.percentage = (paras.size() >= k+1) ? atof(paras[k]) : 0.98;  k++;
        if (PARA.percentage > 1.0)
            PARA.percentage = 1.0;
        PARA.sigma = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        PARA.alpha_one = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        PARA.alpha_two = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        reconstruction_func(callback,parent,PARA,bmenu);
	}
    else if (func_name == tr("help"))
    {
		printf("**** Usage of Rivulet tracing **** \n");
		printf("vaa3d -x Rivulet -f tracing_func -i <inimg_file> -p <channel> <threshold> <stepsize> <gap> <dumpbranch> <connectrate> <percentage>\n");
        printf("inimg_file\tThe input image\n");
        printf("channel\tData channel for tracing. Start from 1 (default 1).\n");
        printf("threshold\tThe background threshold for segmentation (default 10).\n");
        printf("stepsize\tThe step size of gradient descent tracing (default 1).\n");
        printf("gap\tThe gap allowed for steps on background voxels. Useful for noisy images (default 15)\n");
        printf("dumpbranch\tWhether the unconnected branches will be dumpped. (default 0)\n");
        printf("connectrate\tBranch terminis within connectrate*(radius+3) will be connected to the trunk. (default 1.5)\n");
        printf("percentage\tThe converage expected on the binary image before stopping tracing. (default 0.98)\n");
        printf("outswc_file\tWill be named automatically based on the input image file name, so you don't have to specify it.\n\n");

	}
	else return false;

	return true;
}
bool neurontracing_rotation::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
	if (func_name == tr("tracing_func"))
    {
        bool bmenu = false;
        input_PARA PARA;

        vector<char*> * pinfiles = (input.size() >= 1) ? (vector<char*> *) input[0].p : 0;
        vector<char*> * pparas = (input.size() >= 2) ? (vector<char*> *) input[1].p : 0;
        vector<char*> infiles = (pinfiles != 0) ? * pinfiles : vector<char*>();
        vector<char*> paras = (pparas != 0) ? * pparas : vector<char*>();

        if(infiles.empty())
        {
            fprintf (stderr, "Need input image. \n");
            return false;
        }

        PARA.inimg_file = infiles[0];
        PARA.image = 0;
        int k=0;
       // QString inmarker_file = paras.empty() ? "" : paras[k]; if(inmarker_file == "NULL") inmarker_file = ""; k++;
        PARA.rotation_degree = (paras.size() >= k+1) ? atoi(paras[k]) : 36;  k++;
        PARA.channel = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        PARA.bkg_thresh = (paras.size() >= k+1) ? atoi(paras[k]) : 10; if(PARA.bkg_thresh == atoi("AUTO")) PARA.bkg_thresh = -1;k++;
        PARA.b_256cube = (paras.size() >= k+1) ? atoi(paras[k]) : 0;  k++;
        PARA.b_RadiusFrom2D = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        PARA.is_gsdt = (paras.size() >= k+1) ? atoi(paras[k]) : 0;  k++;
        PARA.is_break_accept = (paras.size() >= k+1) ? atoi(paras[k]) : 0;  k++;
        PARA.length_thresh = (paras.size() >= k+1) ? atoi(paras[k]) : 5;  k++;

        reconstruction_func(callback,parent,PARA,bmenu);
	}
    else if (func_name == tr("help"))
    {

        ////HERE IS WHERE THE DEVELOPERS SHOULD UPDATE THE USAGE OF THE PLUGIN


		printf("**** Usage of neurontracing_rotation tracing **** \n");
		printf("vaa3d -x neurontracing_rotation -f tracing_func -i <inimg_file> -p <channel> <other parameters>\n");
        printf("inimg_file       The input image\n");
        printf("channel          Data channel for tracing. Start from 1 (default 1).\n");

        printf("outswc_file      Will be named automatically based on the input image file name, so you don't have to specify it.\n\n");

	}
	else return false;

	return true;
}
Пример #10
0
bool NeuroStalker::dofunc(const QString & func_name, 
                          const V3DPluginArgList & input,
                          V3DPluginArgList & output, 
                          V3DPluginCallback2 & callback,  
                          QWidget * parent)
{
    if (func_name == tr("tracing_func"))
    {
        bool bmenu = false;
        input_PARA PARA;

        vector<char*> * pinfiles = (input.size() >= 1) ? (vector<char*> *) input[0].p : 0;
        vector<char*> * pparas = (input.size() >= 2) ? (vector<char*> *) input[1].p : 0;
        vector<char*> infiles = (pinfiles != 0) ? * pinfiles : vector<char*>();
        vector<char*> paras = (pparas != 0) ? * pparas : vector<char*>();

        if(infiles.empty())
        {
            fprintf (stderr, "Need input image. \n");
            return false;
        }
        else
            PARA.inimg_file = infiles[0];
        int k=0;
        PARA.channel = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        PARA.preprocessing = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        PARA.unittest = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        PARA.step = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        PARA.stepsize = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        PARA.threshold = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        cout<<"Input step test: "<<PARA.step<<endl;
        reconstruction_func(callback,parent,PARA,bmenu);
    }
    else if (func_name == tr("help"))
    {

        ////HERE IS WHERE THE DEVELOPERS SHOULD UPDATE THE USAGE OF THE PLUGIN

        printf("**** Usage of NeuroStalker tracing **** \n");
        printf("vaa3d -x NeuroStalker -f tracing_func -i <inimg_file> -p <channel> <preprocessing> <run unit-tests>\n");
        printf("inimg_file       The input image\n");
        printf("channel          Data channel for tracing. Start from 1 (default 1).\n");
        printf("preprocessing    The preprocessing flag - 1: Crop Only; 2: Downsample; 3: Downsample and crop; \n");
        printf("run unit-tests   - 1: Run Tracing Only; 2: Run unit-tests only; 3: Run Both Unit Tests and Tracing; \n");
        printf("outswc_file      Will be named automatically based on the input image file name, so you don't have to specify it.\n\n");

    }
    else return false;

    return true;
}
Пример #11
0
bool resample_swc(const V3DPluginArgList & input, V3DPluginArgList & output)
{
	cout<<"Welcome to resample_swc"<<endl;
	vector<char*>* inlist = (vector<char*>*)(input.at(0).p);
	vector<char*>* outlist = NULL;
	vector<char*>* paralist = NULL;

	if(input.size() != 2) 
	{
		printf("Please specify both input file and step length parameter.\n");
		return false;
	}
	paralist = (vector<char*>*)(input.at(1).p);
	if (paralist->size()!=1)
	{
		printf("Please specify only one parameter - the resampling step length.\n");
		return false;
	}
	double step = atof(paralist->at(0));

	QString fileOpenName = QString(inlist->at(0));
	QString fileSaveName;
	if (output.size()==0)
	{
		printf("No outputfile specified.\n");
		fileSaveName = fileOpenName + "_resampled.swc";
	}
	else if (output.size()==1)
	{
		outlist = (vector<char*>*)(output.at(0).p);
		fileSaveName = QString(outlist->at(0));
	}
	else
	{
		printf("You have specified more than 1 output file.\n");
		return false;
	}

	NeuronTree nt;
	if (fileOpenName.toUpper().endsWith(".SWC") || fileOpenName.toUpper().endsWith(".ESWC"))
		nt = readSWC_file(fileOpenName);
	
	NeuronTree result = resample(nt,step);
	if (!export_list2file(result.listNeuron, fileSaveName, fileOpenName))
	{
		printf("fail to write the output swc file.\n");
		return false;
	}

	return true;
}
Пример #12
0
bool border_tips::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
	vector<char*> infiles, inparas, outfiles;
	if(input.size() >= 1) infiles = *((vector<char*> *)input.at(0).p);
	if(input.size() >= 2) inparas = *((vector<char*> *)input.at(1).p);
	if(output.size() >= 1) outfiles = *((vector<char*> *)output.at(0).p);

    if (func_name == tr("help"))
	{
        qDebug()<<"No do func available.";
    }
	else return false;

	return true;
}
bool markertree::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
	vector<char*> infiles, inparas, outfiles;
	if(input.size() >= 1) infiles = *((vector<char*> *)input.at(0).p);
	if(input.size() >= 2) inparas = *((vector<char*> *)input.at(1).p);
	if(output.size() >= 1) outfiles = *((vector<char*> *)output.at(0).p);

    if (func_name == tr("help"))
	{
        v3d_msg("To be implemented");
	}
	else return false;
    
    return true;
}
Пример #14
0
bool BlastNeuronPlugin::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
	vector<char*> infiles, inparas, outfiles;
	if(input.size() >= 1) infiles = *((vector<char*> *)input.at(0).p);
	if(input.size() >= 2) inparas = *((vector<char*> *)input.at(1).p);
	if(output.size() >= 1) outfiles = *((vector<char*> *)output.at(0).p);

	if (func_name == tr("global_retrieve"))
	{
		return(global_retrieve_main(input, output));
	}
	else if (func_name == tr("local_alignment"))
	{
		return(local_alignment_main(input, output));
	}
	else if (func_name == tr("batch_compute"))
	{
		return (batch_compute_main(input, output));
	}
	else if (func_name == tr("pre_processing"))
	{
		return (pre_processing_main(input, output));
	}
	else if (func_name == tr("inverse_projection"))
	{
		return (inverse_projection_main(input, output));
	}
	else
	{

		printf("\nBlastNeuron Plugin: rapid global retrieval and local alignent of 3D neuron morphologies. This plugin also includes pre-processing, inverse projection and batch feature computation. by Yinan Wan.\n\n");
		printf("Functions:\n");
		printf("\t pre_processing          prune, resample and align neuron swcs.\n");
		printf("\t global_retrieve         given a query neuron, retrieve morphologically similar neurons from a neuron feature database.\n");
		printf("\t local_alignment         point to point alignment of two morphologically similar neurosn.\n");
		printf("\t batch_compute           generate neuron feature database (.nfb) file first to speed up neuron retrieve\n");
		printf("\t invert_projection       find an optimal affine transform between neuron structures regardless of topology.\n\n");
		printf("Example: \n");
        printf("\t vaa3d -x blastneuron -f pre_processing -p  \"#i input.swc #o result.swc #l 3 #s 2 #r 1 \"\n");
		printf("\t vaa3d -x blastneuron -f batch_compute -p \"#i mydatabase.ano #o features.nfb\"\n");
		printf("\t vaa3d -x blastneuron -f global_retrieve -p \"#d features.nfb #q query.swc #n 10 #m 1,2,4 #o retrieve.ano\"\n");
		printf("\t vaa3d -x blastneuron -f local_alignment -p \"#t target.swc #s subject.swc #o match.swc\"\n");
		printf("\t vaa3d -x blastneuron -f inverse_projection -p \"#i target.swc #o target_invp.swc\"\n\n");
		printf("Type vaa3d -x blastneuron -f <function_name> for instructions to run individual functions.\n");
		printf("Alternatively, you can run a query search from the neuron feature database with a bash script: try \"sh blastneuron_plugin.sh\" for detailed instruction\n\n");
		return true;
	}
}
bool AnisoDiffPlugin_littlequick::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
	if (func_name == tr("anisodiff_littlequick_menu"))
	{
		cout<<"============== Welcome to anisodiff function ================="<<endl;

		bool bmenu = false;
		input_PARA PARA;

		vector<char*> * pinfiles = (input.size() >= 1) ? (vector<char*> *) input[0].p : 0;
		vector<char*> infiles = (pinfiles != 0) ? * pinfiles : vector<char*>();

		if(infiles.empty())
		{
			fprintf (stderr, "Need input image. \n");
			return false;
		}
		else
			PARA.inimg_file = infiles[0];

		anisodiff_func(callback,parent,PARA,bmenu);
	}
	else
	{
		printHelp();
	}

	return true;
}
bool neuronScore::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
	vector<char*> infiles, inparas, outfiles;
	if(input.size() >= 1) infiles = *((vector<char*> *)input.at(0).p);
	if(input.size() >= 2) inparas = *((vector<char*> *)input.at(1).p);
	if(output.size() >= 1) outfiles = *((vector<char*> *)output.at(0).p);

	if (func_name == tr("calculate_score"))
	{
        vector<char*> * pinfiles = (input.size() >= 1) ? (vector<char*> *) input[0].p : 0;
        vector<char*> * pparas = (input.size() >= 2) ? (vector<char*> *) input[1].p : 0;
        vector<char*> * poutfiles = (output.size() >= 1) ? (vector<char*> *) output[0].p : 0;
        vector<char*> infiles = (pinfiles != 0) ? * pinfiles : vector<char*>();
        vector<char*> paras = (pparas != 0) ? * pparas : vector<char*>();
        vector<char*> outfiles = (poutfiles != 0) ? * poutfiles : vector<char*>();

        if(infiles.size()<2)
        {
            fprintf (stderr, "Need input image and swc. \n");
            printHelp();
            return false;
        }

        if(outfiles.empty())
        {
            fprintf (stderr, "Need output file name. \n");
            printHelp();
            return false;
        }

        int k=0;
        int scoreType = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;
        float radiusFactor = (paras.size() >= k+1) ? atof(paras[k]) : 2;  k++;

        doCalculateScore(callback, infiles[0],infiles[1],outfiles[0],scoreType,radiusFactor,0);
	}
	else if (func_name == tr("help"))
	{
        printHelp();
	}
	else return false;

	return true;
}
bool median_swc_func(const V3DPluginArgList & input, V3DPluginArgList & output)
{
    if(input.size()==0) return false;

    //parsing input
    vector<char *> * inlist =  (vector<char*> *)(input.at(0).p);
    if (inlist->size() == 0)
    {
        cerr<<"You must specify input linker or swc files"<<endl;
        return false;
    }

    V3DLONG neuronNum = 0;
    vector<NeuronTree> nt_list;
    QString qs_linker;
    QStringList nameList;
    for (int i=0;i<inlist->size();i++)
    {
        qs_linker = QString(inlist->at(i));
        if (qs_linker.toUpper().endsWith(".ANO"))
        {
            cout<<"(0). reading a linker file."<<endl;
            P_ObjectFileType linker_object;
            if (!loadAnoFile(qs_linker,linker_object))
            {
                fprintf(stderr,"Error in reading the linker file.\n");
                return 1;
            }
            nameList = linker_object.swc_file_list;
            neuronNum += nameList.size();
            for (V3DLONG i=0;i<neuronNum;i++)
            {
                NeuronTree tmp = readSWC_file(nameList.at(i));
                nt_list.push_back(tmp);
            }
        }
        else if (qs_linker.toUpper().endsWith(".SWC"))
        {
            cout<<"(0). reading an swc file"<<endl;
            NeuronTree tmp = readSWC_file(qs_linker);
            nt_list.push_back(tmp);
            neuronNum++;
        }
    }


    cout << "There are "<<nt_list.size() <<" input neurons."<<endl;
    int idx = median_swc(nt_list);
    if (idx <0){
        cerr << "error in median_swc()" << endl;
        return false;
    }

    cout<<"Median swc is " << idx << endl;
    return true;
}
Пример #18
0
bool nctuTW::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
	if (func_name == tr("tracing_func"))
	{
        bool bmenu = false;
        input_PARA PARA;

        vector<char*> * pinfiles = (input.size() >= 1) ? (vector<char*> *) input[0].p : 0;
        vector<char*> * pparas = (input.size() >= 2) ? (vector<char*> *) input[1].p : 0;
        vector<char*> infiles = (pinfiles != 0) ? * pinfiles : vector<char*>();
        vector<char*> paras = (pparas != 0) ? * pparas : vector<char*>();

        if(infiles.empty())
        {
            fprintf (stderr, "Need input image. \n");
            return false;
        }
        else
            PARA.inimg_file = infiles[0];
        int k=0;
        PARA.inmarker_file = paras.empty() ? "" : paras[k]; if(PARA.inmarker_file == "NULL") PARA.inmarker_file = ""; k++;
        PARA.threshold = (paras.size() >= k+1) ? atof(paras[k]) : 0.9;
        reconstruction_func(callback,parent,PARA,bmenu);
	}
    else if (func_name == tr("help"))
    {

        ////HERE IS WHERE THE DEVELOPERS SHOULD UPDATE THE USAGE OF THE PLUGIN


		printf("**** Usage of nctuTW tracing **** \n");
        printf("vaa3d -x nctuTW -f tracing_func -i <inimg_file> -p <inmarker_file> <threshold>\n");
        printf("inimg_file       The input image\n");
        printf("inmarker_file    If no input marker file, please set this para to NULL and it will detect soma automatically.\n");
        printf("threshold        Default 0.9, otherwise the threshold (from 0 to 1) specified by a user will be used.\n");

        printf("outswc_file      Will be named automatically based on the input image file name, so you don't have to specify it.\n\n");

	}
	else return false;

	return true;
}
Пример #19
0
bool v3dneuron_tracing(const V3DPluginArgList & input, V3DPluginArgList & output)
{
	cout<<"Welcome to v3dneuron_tracing"<<endl;
	if(input.size() != 2 || output.size() != 1) return false;
	char * paras = 0;
	if(((vector<char*> *)(input.at(1).p))->empty()){paras = new char[1]; paras[0]='\0';}
	else paras = (*(vector<char*> *)(input.at(1).p)).at(0);
	cout<<"paras : "<<paras<<endl;

	for(int i = 0; i < strlen(paras); i++)
	{
		if(paras[i] == '#') paras[i] = '-';
	}
	cout<<"paras : "<<paras<<endl;

	cout<<string("v3dneuron_tracing ").append(paras).c_str()<<endl;
	system(string("v3dneuron_tracing ").append(paras).c_str());
	return true;
}
Пример #20
0
bool SWCRadiusPlugin::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
	vector<char*> infiles, inparas, outfiles;
	if(input.size() >= 1) infiles = *((vector<char*> *)input.at(0).p);
	if(input.size() >= 2) inparas = *((vector<char*> *)input.at(1).p);
	if(output.size() >= 1) outfiles = *((vector<char*> *)output.at(0).p);

	if (func_name == tr("neuron_radius"))
	{
		if(infiles.size() != 2 && infiles.size() != 3)
		{
			cerr<<"Invalid input"<<endl;
			return false;
		}
		string inimg_file = infiles[0];
		string inswc_file = infiles[1];
		string outswc_file = (infiles.size() == 3) ? infiles[2] : "";
		if(outswc_file == "") outswc_file = inswc_file + ".out.swc";

		double bkg_thresh = (inparas.size() >= 1) ? atof(inparas[0]) : 40;
		bool is_2d = (inparas.size() == 2) ? atoi(inparas[1]) : 0;

		cout<<"inimg_file = "<<inimg_file<<endl;
		cout<<"inswc_file = "<<inswc_file<<endl;
		cout<<"outswc_file = "<<outswc_file<<endl;
		cout<<"bkg_thresh = "<<bkg_thresh<<endl;
        
		cout<<"is2d = "<< (int)is_2d <<endl;

		unsigned char * inimg1d = 0; 
		V3DLONG * in_sz = 0;
		int datatype;
		if(!loadImage((char*)inimg_file.c_str(), inimg1d, in_sz, datatype)) return false;
		vector<MyMarker*> inswc = readSWC_file(inswc_file);
		if(inswc.empty()) return false;
		for(int i = 0; i < inswc.size(); i++)
		{
			MyMarker * marker = inswc[i];
			if(is_2d)
				marker->radius = markerRadiusXY(inimg1d, in_sz, *marker, bkg_thresh);
			else
				marker->radius = markerRadius(inimg1d, in_sz, *marker, bkg_thresh);
            
            //printf("2d=%5.3f  \t 3d=%5.3f\n", markerRadiusXY(inimg1d, in_sz, *marker, bkg_thresh),
            //       markerRadius(inimg1d, in_sz, *marker, bkg_thresh));

		}
		saveSWC_file(outswc_file, inswc);
		cout<<"The output swc is saved to "<<outswc_file<<endl;
		for(int i = 0; i < inswc.size(); i++) delete inswc[i];
		if(inimg1d){delete [] inimg1d; inimg1d = 0;}
		if(in_sz){delete [] in_sz; in_sz = 0;}
	}
	else //if (func_name == tr("help"))
	{
		cout<<"v3d -x <plugin_dll> -f neuron_radius -i <inimg_file> <inswc_file> -p <threshold> [<is2d>]"
        <<endl
        <<"The output will be appended  .out.swc automatically" 
        <<endl;
	}
    
    return true;
}
Пример #21
0
bool smartTrace_plugin::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
	if (func_name == tr("tracing_func"))
	{
        bool bmenu = false;
        input_PARA PARA;

        vector<char*> * pinfiles = (input.size() >= 1) ? (vector<char*> *) input[0].p : 0;
        vector<char*> * pparas = (input.size() >= 2) ? (vector<char*> *) input[1].p : 0;
        vector<char*> infiles = (pinfiles != 0) ? * pinfiles : vector<char*>();
        vector<char*> paras = (pparas != 0) ? * pparas : vector<char*>();

        if(infiles.empty())
        {
            fprintf (stderr, "Need input image. \n");
            return false;
        }
        else
            PARA.inimg_file = infiles[0];
        int k=0;
        PARA.channel = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;

        reconstruction_func(callback,parent,PARA,bmenu);
    }
    else if(func_name == tr("selfCorrection"))
    {
        vector<char*> * pinfiles = (input.size() >= 1) ? (vector<char*> *) input[0].p : 0;
        vector<char*> * pparas = (input.size() >= 2) ? (vector<char*> *) input[1].p : 0;
        vector<char*> * poutfiles = (output.size() >= 1) ? (vector<char*> *) output[0].p : 0;
        vector<char*> infiles = (pinfiles != 0) ? * pinfiles : vector<char*>();
        vector<char*> paras = (pparas != 0) ? * pparas : vector<char*>();
        vector<char*> outfiles = (poutfiles != 0) ? * poutfiles : vector<char*>();

        if(infiles.size()<2)
        {
            fprintf (stderr, "Need input image and swc file. \n");
            return false;
        }
        if(outfiles.empty())
        {
            fprintf (stderr, "Need output file. \n");
            return false;
        }
        if(paras.empty())
        {
            fprintf (stderr, "Need confidential score file. \n");
            return false;
        }

        nt_selfcorrect_func tracefunc;
        tracefunc.correct_tracing(infiles.at(0), infiles.at(1), paras.at(0), outfiles.at(0), &callback);
    }
    else if (func_name == tr("smartTrace"))
    {
        bool bmenu = false;
        input_PARA PARA;

        vector<char*> * pinfiles = (input.size() >= 1) ? (vector<char*> *) input[0].p : 0;
        vector<char*> * pparas = (input.size() >= 2) ? (vector<char*> *) input[1].p : 0;
        vector<char*> infiles = (pinfiles != 0) ? * pinfiles : vector<char*>();
        vector<char*> paras = (pparas != 0) ? * pparas : vector<char*>();

        if(infiles.empty())
        {
            fprintf (stderr, "Need input image. \n");
            return false;
        }
        else
            PARA.inimg_file = infiles[0];
        int k=0;
        PARA.channel = (paras.size() >= k+1) ? atoi(paras[k]) : 1;  k++;

        nt_selfcorrect_func tracefunc;
        tracefunc.smart_tracing(PARA.inimg_file,PARA.inimg_file+"_smartTracing",&callback);
    }
    else if (func_name == tr("help"))
    {

        ////HERE IS WHERE THE DEVELOPERS SHOULD UPDATE THE USAGE OF THE PLUGIN

        printf("\n\n**** Usage of smartTrace tracing **** \n");
        printf("vaa3d -x smartTrace -f selfCorrection -i <inimg_file> <inswc_file> -o <output> -p <score.txt> \n");
        printf("inimg_file       The input image\n");
        printf("inswc_file       The input tracing\n");
        printf("score.txt        Confidential score calculated by plugin: calculate_reliability_score.\n");

        printf("\n\nvaa3d -x smartTrace -f smartTrace -i <inimg_file> -p <channel>\n");
        printf("inimg_file       The input image\n");
        printf("channel          Data channel for tracing. Start from 1 (default 1).\n");

        printf("outswc_file      Will be named automatically based on the input image file name, so you don't have to specify it.\n\n");

	}
	else return false;

	return true;
}
Пример #22
0
bool ITilingPlugin::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
    if (func_name == tr("help"))
    {
        printf("\nUsage: v3d -x imageTiling.dylib -f itiling -i <input_image_file> -o <output_images_prefix_string> \n");
        return true;
    }
    else if (func_name == tr("itiling"))
    {
        // subpixel translation registration based on pixel-level translation estimation
        if(input.size()<1) return false; // no inputs

        vector<char*> * infilelist = (vector<char*> *)(input.at(0).p);
        vector<char*> * paralist;
        vector<char*> * outfilelist;
        if(infilelist->empty())
        {
            //print Help info
            printf("\nUsage: v3d -x imageTiling.dylib -f itiling -i <input_image_file> -o <output_images_prefix_string> \n");
            return true;
        }

        char * infile = infilelist->at(0); // input_image_folder
        char * paras = NULL; // parameters
        char * outfile = NULL; // output_image_file

        if(output.size()>0) { outfilelist = (vector<char*> *)(output.at(0).p); outfile = outfilelist->at(0);}  // specify output
        if(input.size()>1) { paralist = (vector<char*> *)(input.at(1).p); paras =  paralist->at(0);} // parameters

        // init

        int channel1 = 0;
        bool img_show = true; // save stitching file

        bool success = false;

        ImagePixelType imgdatatype;
        V3DLONG cdim;

        // parsing parameters
        if(paras)
        {
            int argc = 0;
            int len = strlen(paras);
            int posb[200];
            char * myparas = new char[len];
            strcpy(myparas, paras);
            for(int i = 0; i < len; i++)
            {
                if(i==0 && myparas[i] != ' ' && myparas[i] != '\t')
                {
                    posb[argc++] = i;
                }
                else if((myparas[i-1] == ' ' || myparas[i-1] == '\t') && (myparas[i] != ' ' && myparas[i] != '\t'))
                {
                    posb[argc++] = i;
                }
            }
            char ** argv = new char* [argc];
            for(int i = 0; i < argc; i++)
            {
                argv[i] = myparas + posb[i];
            }
            for(int i = 0; i < len; i++)
            {
                if(myparas[i]==' ' || myparas[i]=='\t')
                    myparas[i]='\0';
            }

            char* key;
            for(int i=0; i<argc; i++)
            {
                if(i+1 != argc) // check that we haven't finished parsing yet
                {
                    key = argv[i];

                    qDebug()<<">>key ..."<<key;

                    if (*key == '#')
                    {
                        while(*++key)
                        {
                            if (!strcmp(key, "c"))
                            {
                                channel1 = atoi( argv[i+1] ) - 1; // red 1 green 2 blue 3
                                i++;
                            }
                            else if (!strcmp(key, "s"))
                            {
                                img_show = atoi( argv[i+1] )?true:false;
                                i++;
                            }
                            else
                            {
                                cout<<"parsing ..."<<key<<i<<"Unknown command. Type 'v3d -x plugin_name -f function_name' for usage"<<endl;
                                return false;
                            }

                        }
                    }
                    else
                    {
                        cout<<"parsing ..."<<key<<i<<"Unknown command. Type 'v3d -x plugin_name -f function_name' for usage"<<endl;
                        return false;
                    }

                }
            }

            // error check
            if(channel1<0)
            {
                cout<<"illegal input parameters"<<endl;
                return false;
            }
            
            //free space
            if (argv) {delete []argv; argv=0;}
            if (myparas) {delete []myparas; myparas=0;}
        }

        // get stitch configuration
        //QDir myDir(infile);

        // group stitch in subspace
        int start_t = clock();

        //
        int datatype_tile = 0; // assume all tiles with the same datatype
        
        V3DLONG *sz_relative = 0;
        unsigned char* relative1d = 0;
        if(QFile(QString(infile)).exists())
        {
            if (!loadImage(const_cast<char *>(infile), relative1d, sz_relative, datatype_tile))
            {
                if (!do_blockwise_read(const_cast<char *>(infile)), outfile)
                {
                    fprintf(stderr, "Error happens in reading the subject file [%s]. Exit. \n",infile);
                    return false;
                }
                else
                {
                    v3d_msg("Succeed!");
                    return true;
                }
            }
        }
        else
        {
            v3d_msg("The input file is not supported!",0);
            return false;
        }
        
        //
        switch (datatype_tile) {
            case V3D_UINT8:
                if (!imgtiling<unsigned char, V3DLONG>((unsigned char *)relative1d, sz_relative[0], sz_relative[1], sz_relative[2], sz_relative[3], QString(outfile), datatype_tile))
                {
                    v3d_msg("Fail to call function imgtiling (8bit)! \n", 0);
                    return false;
                }
                break;
                
            case V3D_UINT16:
                if (!imgtiling<unsigned short, V3DLONG>((unsigned short *)relative1d, sz_relative[0], sz_relative[1], sz_relative[2], sz_relative[3], QString(outfile), datatype_tile))
                {
                    v3d_msg("Fail to call function imgtiling (16bit)! \n", 0);
                    return false;
                }
                break;
                
            case V3D_FLOAT32:
                if (!imgtiling<float, V3DLONG>((float *)relative1d, sz_relative[0], sz_relative[1], sz_relative[2], sz_relative[3], QString(outfile), datatype_tile))
                {
                    v3d_msg("Fail to call function imgtiling (32bit)! \n", 0);
                    return false;
                }
                break;
                
            default:
                v3d_msg("Currently this program only support UINT8, UINT16, and FLOAT32 datatype.\n",0);
                return false;
        }

        cout<<"time elapse ... "<<clock()-start_t<<endl;
        return true;
    }
    else
    {
        v3d_msg("\nWrong function specified.\n",0);
        return false;
    }
    
    return true;
}
Пример #23
0
bool eswc2swc_io(const V3DPluginArgList & input, V3DPluginArgList & output)
{
	cout<<"Welcome to eswc2swc_io"<<endl;
	
	vector<char*>* inlist = (vector<char*>*)(input.at(0).p);
	vector<char*>* outlist = NULL;

	if(input.size() != 1) 
	{
		printf("Please specify both input file name.\n");
		return false;
	}

	QString fileOpenName = QString(inlist->at(0));
	QString fileSaveName;
	QString tmp = fileOpenName;
	if (output.size()==0)
	{
		printf("No outputfile specified.\n");
		tmp.chop(4);
		fileSaveName = tmp + "swc";
	}
	else if (output.size()==1)
	{
		outlist = (vector<char*>*)(output.at(0).p);
		fileSaveName = QString(outlist->at(0));
	}
	else
	{
		printf("You have specified more than 1 output file.\n");
		return false;
	}

	NeuronTree neuron;
	vector<V3DLONG> segment_id, segment_layer;
	vector<double> feature;
	if (fileOpenName.endsWith(".eswc") || fileOpenName.endsWith(".ESWC"))
	{
		neuron = read_eswc(segment_id, segment_layer, feature, fileOpenName);
		if (!swc2eswc(neuron,segment_id, segment_layer))
		{
			v3d_msg("Cannot convert eswc to swc.\n");
			return false;
		}
	}
	else {
		v3d_msg("The file type you specified is not supported. Please check.");
		return false;
	}
	int ret = QMessageBox::Yes;
	if (check_eswc(neuron, segment_id, segment_layer)==-1)
	{
		v3d_msg("WARNING: Something is wrong with the eswc file", 0);
		v3d_msg("But we still put convert it to swc format", 0);
	}
	
	QString fileDefaultName = fileOpenName;
	fileDefaultName.chop(4);
	fileDefaultName += QString("swc");
	//write new SWC to file
	if (!export_swc(neuron,qPrintable(fileSaveName)))
	{
		v3d_msg("fail to write the output swc file.", 0);
		return false;
	}
	return true;
}
Пример #24
0
bool batch_compute_main(const V3DPluginArgList & input, V3DPluginArgList & output)
{
	printf("\nwelcome to batch_compute\n");


	vector<char*>* inlist = (vector<char*>*)(input.at(0).p);
	vector<char*>* outlist = NULL;
	vector<char*>* paralist = NULL;

	if(input.size() != 2) 
	{
		printf("Please specify parameter set.\n");
		printHelp_batch_compute();
		return false;
	}
	paralist = (vector<char*>*)(input.at(1).p);


    if (paralist->size()!=1)
    {
        printf("Please specify all paramters in one text string.\n");
        printHelp_batch_compute();
        return false;
    }
	
	
	char * paras = paralist->at(0);
	int argc = 1;
	enum {kArgMax = 64};
	char *argv[kArgMax];
	
	//parsing parameters
	if (paras)
	{
		int len = strlen(paras);
		for (int i=0;i<len;i++)
		{
			if (paras[i]=='#')
				paras[i] = '-';
		}

		char* pch = strtok(paras, " ");
		while (pch && argc<kArgMax)
		{
			argv[argc++] = pch;
			pch = strtok(NULL, " ");
		}
	}
	else
		printHelp_batch_compute();


	//read arguments
	char *dfile_database = NULL;
	char *dfile_result = NULL;

	double step_size = 2;

	int c;
    static char optstring[] = "h:i:o:";
	opterr = 0;
	while ((c = getopt(argc, argv, optstring))!=-1)
	{
		switch (c)
		{
			case 'h':
				printHelp_batch_compute();
				return 0;
				break;
			case 'i':
				if (strcmp(optarg,"(null)")==0 || optarg[0]=='-')
				{
					fprintf(stderr, "Found illegal or NULL parameter for the option -i.\n");
					return 1;
				}
				dfile_database = optarg;
				break;
			case 'o':
				if (strcmp(optarg,"(null)")==0 || optarg[0]=='-')
				{
					fprintf(stderr, "Found illegal or NULL parameter for the option -o.\n");
					return 1;
				}
				dfile_result = optarg;
				break;
			case '?':
				fprintf(stderr,"Unknown option '-%c' or incomplete argument lists.\n",optopt);
				return 1;
				break;
		}
	}

	//read database file
	QStringList nameList, filePathList;
	V3DLONG neuronNum;
	QString qs_database(dfile_database);

	QList<double*> morph_list, gmi_list;
	
	qs_database = qs_database.simplified();
	if (qs_database.endsWith(".ano") || qs_database.endsWith(".ANO"))
	{
		printf("(0). reading a linker file.\n");
		P_ObjectFileType linker_object;
		if (!loadAnoFile(QString(dfile_database),linker_object))
		{
			fprintf(stderr,"Error in reading the linker file.\n");
			return 1;
		}
		nameList = linker_object.swc_file_list;
		neuronNum = nameList.size();
		for (V3DLONG i=0;i<neuronNum;i++)
		{
			NeuronTree tmp = readSWC_file(nameList.at(i));
			printf(qPrintable("calculating features for" + tmp.file +".\n"));
			filePathList.append(tmp.file);
            // it makes more sense to run pre_processing seperately, so that the pre_processed steps can be adjusted (tuning step size), saved and verified.
            //NeuronTree tmp_preprocessed = pre_process(tmp, step_size);
			double * feature_morph = new double[21];
			double * feature_gmi = new double[14];
            computeFeature(tmp, feature_morph);
            computeGMI(tmp, feature_gmi);
			morph_list.append(feature_morph);
			gmi_list.append(feature_gmi);
		}
	}
	else {
		fprintf(stderr, "the reference file/list you specified is not supported.\n");
		return 1;
	}
	

	QString outfile(dfile_result);
	if (!dfile_result)
	{
		outfile = qs_database + "features.nfb";
	}

    //if sepcified format is csv file
    if (outfile.right(4) == ".csv")
    {
        FILE * fp;
        fp = fopen(qPrintable(outfile), "w");

        QString header = "swc_file,num_nodes,soma_surface,num_stems,"
                         "num_bifurcations,num_branches,num_of_tips,"
                         "overall_x_span,overall_y_span,overall_z_span,"
                         "average_diameter,total_length,total_surface,"
                         "total_volume,max_euclidean_distance,max_path_distance,"
                         "max_branch_order,average_contraction,average_fragmentation,"
                         "parent_daughter_ratio,bifurcation_angle_local,"
                         "bifurcation_angle_remote,"
                         "moment1,moment2,moment3,moment4,moment5,moment6,"
                         "moment7,moment8,moment9,moment10,moment11,moment12,"
                         "moment13,ave_R\n";

        fprintf(fp,qPrintable(header));
        for (V3DLONG i=0;i<neuronNum;i++)
        {
            fprintf(fp, qPrintable(filePathList[i]));
            for (int j=0;j<21;j++)
                fprintf(fp,", %.8f", morph_list[i][j]);
            for (int j=0;j<14;j++)
                fprintf(fp,", %.8f", gmi_list[i][j]);
            fprintf(fp,"\n");
        }
        fclose(fp);
    }

    else{
	//output a neuron featurebase (.nfb) file
	FILE * fp;
	fp = fopen(qPrintable(outfile), "w");
	for (V3DLONG i=0;i<neuronNum;i++)
	{
		fprintf(fp, qPrintable("SWCFILE=" + filePathList[i]));
		fprintf(fp, "\n");
		for (int j=0;j<21;j++)
			fprintf(fp,"%.8f\t", morph_list[i][j]);
		fprintf(fp,"\n");
		for (int j=0;j<14;j++)
			fprintf(fp,"%.8f\t", gmi_list[i][j]);
		fprintf(fp,"\n");
	}
	fclose(fp);
    }


	for (V3DLONG i=0;i<neuronNum;i++)
	{
		if (morph_list[i]) {delete []morph_list[i]; morph_list[i]=NULL;}
		if (gmi_list[i]) {delete []gmi_list[i]; gmi_list[i]=NULL;}
	}

	return true;
}
Пример #25
0
bool  profile_swc_func(V3DPluginCallback2 &callback, const V3DPluginArgList & input, V3DPluginArgList & output)
{
    vector<char*> infiles, inparas, outfiles;
    if(input.size() >= 1) infiles = *((vector<char*> *)input.at(0).p);
    if(input.size() >= 2) inparas = *((vector<char*> *)input.at(1).p);
    if(output.size() >= 1) outfiles = *((vector<char*> *)output.at(0).p);

    if(infiles.size() != 2 && infiles.size() != 3)
    {
        cerr<<"Invalid input"<<endl;
        return false;
    }
    QString imageFileName = QString(infiles[0]);
    QString swcFileName = QString(infiles[1]);
    QString output_csv_file;
    if(!outfiles.empty())
        output_csv_file = QString(outfiles[0]);
    else
        output_csv_file = swcFileName + ".csv";

    float  dilate_ratio = (inparas.size() >= 1) ? atof(inparas[0]) : 3.0;
    int  flip = (inparas.size() >= 2) ? atoi(inparas[1]) : 1;
    int  invert = (inparas.size() >= 3) ? atoi(inparas[2]) : 1;

    cout<<"inimg_file = "<< imageFileName.toStdString()<<endl;
    cout<<"inswc_file = "<< swcFileName.toStdString()<<endl;
    cout<<"output_file = "<< output_csv_file.toStdString()<<endl;
    cout<<"dilate_ratio = "<< dilate_ratio<<endl;
    cout<<"flip y = "<< flip <<endl;
    cout<<"invert intensity = "<< invert <<endl;

    NeuronTree  neuronTree;

    if (swcFileName.endsWith(".swc") || swcFileName.endsWith(".SWC"))
    {
        neuronTree = readSWC_file(swcFileName);
    }
    else
    {
        cout<<"The file type you specified is not supported."<<endl;
        return false;
    }

    Image4DSimple *image = callback.loadImage((char * )imageFileName.toStdString().c_str());

    QList<IMAGE_METRICS> result_metrics = intensity_profile(neuronTree, image, dilate_ratio,flip,invert, callback);
    IMAGE_METRICS m_stats = result_metrics[0];

    /*
    ENSEMBLE_METRICS m_stats = stats_ensemble(result_metrics);
    */

    cout << "Overall Contrast-to-Background Ratio:" << m_stats.cnr << "\n"
         << "Overall Dynamic Range:"<< m_stats.dy << "\n"
         << "Mean BG Intensity:" << m_stats.bg_mean << ", with std = "    << m_stats.bg_std << "\n"
         << "Mean FG Intensity:" << m_stats.fg_mean << ", with std = "    << m_stats.fg_std << "\n"
         << "Mean Tubularity:"   << m_stats.tubularity_mean << ", with std = " << m_stats.tubularity_std << "\n"
         << endl;

    if (result_metrics.isEmpty())
    {
        cout<<"Error in intensity_profile() !"<<endl;
        return false;
    }
    else{
        if (!writeMetrics2CSV(result_metrics, output_csv_file))
        {
            cout<< "error in writeMetrics2CSV()" <<endl;
        }
    }
    cout << "Segment type-specific screening metrics are exported in:  " << output_csv_file.toStdString() <<endl;

	return true;

}
Пример #26
0
bool processImage(V3DPluginCallback2 &callback, const V3DPluginArgList & input, V3DPluginArgList & output)
{
	if(input.size() < 1 || output.size() != 1) 
        return false;

	V3DLONG c = -1;
    if (input.size()>=2)
    {
        vector<char*> paras = *(vector<char*> *)(input.at(1).p);
        if(paras.size() >= 1) c = atoi(paras.at(0));
    }
    if (c<0)
    {
        v3d_msg("You explicitly or implicitly specified a channel number < 0, which means split-all-channels. \n",0);
    }
        
	char * inimg_file = ((vector<char*> *)(input.at(0).p))->at(0);
	char * outimg_file = ((vector<char*> *)(output.at(0).p))->at(0);
    cout<<"channel = "<<c<<endl;
	cout<<"inimg_file = "<<inimg_file<<endl;
	cout<<"outimg_file = "<<outimg_file<<endl;

	bool b_res=false;
    unsigned char * data1d = 0;
    V3DLONG in_sz[4];
    void* outimg = 0;
    V3DLONG cb, ce, k;
    
	int datatype;
    if(!simple_loadimage_wrapper(callback, inimg_file, data1d, in_sz, datatype))
    {
        cerr<<"load image "<<inimg_file<<" error!"<<endl; 
        return false;
    }
    
    if (c>=in_sz[3])
    {
        v3d_msg("The specified channel is not valid. Do nothing.", 0);
        goto Label_exit;
    }
    
    if (c<0) {cb=0; ce=in_sz[3]-1;}
    else {cb = ce = c;}
    
    for (k=cb; k<=ce; k++)
    {
        printf("\n... processing [%d] channel now...\n", k);
        switch(datatype)
        {
            case 1: b_res = extract_a_channel(data1d, in_sz, k, outimg); break;
            case 2: b_res = extract_a_channel((unsigned short int *)data1d, in_sz, k, outimg); break;
            case 4: b_res = extract_a_channel((float *)data1d, in_sz, k, outimg); break;
            default:
            b_res = false;
            v3d_msg("Right now this plugin supports only UINT8/UINT16/FLOAT32 data. Do nothing."); goto Label_exit;
        }

        // save image
        V3DLONG oldc = in_sz[3]; in_sz[3]=1;
        if (cb==ce)
            simple_saveimage_wrapper(callback, outimg_file, (unsigned char *)outimg, in_sz, datatype);
        else
            simple_saveimage_wrapper(callback,
                                     qPrintable(QString("").setNum(k).prepend("_C").prepend(outimg_file).append(".v3draw")),
                                     (unsigned char *)outimg, in_sz, datatype);
        
        //
        in_sz[3] = oldc; //this sentence is important
        
        printf("b_res=[%s]\n", (b_res)?"true":"false");
    }

Label_exit:
     if (data1d) {delete []data1d; data1d=0;}
     //should never delete outimg here, as it is just a wrapper. by PHC 20131105
     return b_res;
}
Пример #27
0
bool GVFplugin::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{


    if (func_name == tr("gvf_segmentation"))
	{
        int c=1;

        gvfsegPara segpara;  // default values
        segpara.diffusionIteration = 5;
        segpara.fusionThreshold = 3;
        segpara.minRegion = 10;

        vector<char*> infiles, inparas, outfiles;
        if(input.size() >= 1) infiles = *((vector<char*> *)input.at(0).p);
        if(input.size() >= 2)
        {
            inparas = *((vector<char*> *)input.at(1).p);
        if(inparas.size() >= 1) c = atoi(inparas.at(0));
        if(inparas.size() >= 2) segpara.diffusionIteration = atoi(inparas.at(1));
        if(inparas.size() >= 3) segpara.fusionThreshold = atoi(inparas.at(2));
        if(inparas.size() >= 4) segpara.minRegion = atoi(inparas.at(3));
        if(output.size() >= 1) outfiles = *((vector<char*> *)output.at(0).p);
        }
        char * inimg_file = ((vector<char*> *)(input.at(0).p))->at(0);
        char * outimg_file = ((vector<char*> *)(output.at(0).p))->at(0);




        cout<<"channel choice "<<c<<endl;
        cout<<"diffusion Iterations "<<segpara.diffusionIteration<<endl;
        cout<<"fusion threshold "<<segpara.fusionThreshold<<endl;
        cout<<"minimum region size "<<segpara.minRegion<<endl;
        cout<<"inimg_file = "<<inimg_file<<endl;
        cout<<"outimg_file = "<<outimg_file<<endl;

        // check the input parameters for invalid choices:

        if ((segpara.diffusionIteration<1)||(segpara.fusionThreshold<1)||(segpara.minRegion)<0)
        {
            cout<< "* * * * * * * * * * * * *  "<<endl;
            cout<< "*"<<endl;
            cout<< "INVALID parameter selection, type "<<endl;
            cout<<" vaa3d -x gvf_cellseg -f help "<<endl;
            cout<<"for more information"<<endl;
            cout<< "* * * * * * * * * * * * *  "<<endl;
            cout<<""<<endl;

return false;
        }


        V3DLONG in_sz[4];
        int datatype;
        unsigned char * data1d = 0;
        if(!simple_loadimage_wrapper(callback, inimg_file, data1d, in_sz, datatype))
        {
            cerr<<"load image "<<inimg_file<<" error!"<<endl;
            return false;
        }



        // allocate memory for the images

        Vol3DSimple <unsigned char> * tmp_inimg = 0;
        Vol3DSimple <USHORTINT16> * tmp_outimg = 0;
        try
        {
            tmp_inimg = new Vol3DSimple <unsigned char> (in_sz[0], in_sz[1], in_sz[2]);
            tmp_outimg = new Vol3DSimple <USHORTINT16> (in_sz[0], in_sz[1], in_sz[2]);
        }
        catch (...)
        {
            v3d_msg("Unable to allocate memory for processing.");
            if (tmp_inimg) {delete tmp_inimg; tmp_inimg=0;}
            if (tmp_outimg) {delete tmp_outimg; tmp_outimg=0;}
            return false;
        }



        //load image
        //
        Image4DSimple * temp4D = callback.loadImage(inimg_file);
        in_sz[0]=temp4D->getXDim();
        in_sz[1]=temp4D->getYDim();
        in_sz[2]=temp4D->getZDim();
        in_sz[3]=temp4D->getCDim();
                if (in_sz[3]==1)
                {
                    c=1;
                    cout<< "Image only has 1 channel, segmenting channel 1"<<endl;
                }

                if ((c>in_sz[3])||(c<1))
                {
                    cout<< "* * * * * * * * * * * * *  "<<endl;
                    cout<< "*"<<endl;
                    cout<< "INVALID CHANNEL SELECTION: User selected channel "<<c<< "; image has "<< in_sz[3] << "  channels."<<endl;
                    cout<< " aborting segmentation !"<<endl;
                    cout<<"*"<<endl;
                    cout<< "* * * * * * * * * * * * *  "<<endl;
                    cout<<""<<endl;

return false;
                }



//transfer single channel of data from Image4DSimple to old Vol3DSimple class

        memcpy((void *)tmp_inimg->getData1dHandle(), (void *)temp4D->getRawDataAtChannel(c-1), in_sz[0]*in_sz[1]*in_sz[2]);
        //now do computation using external function call

        bool b_res = gvfCellSeg(tmp_inimg, tmp_outimg, segpara);

        // clear out temporary space
        if (tmp_inimg) {delete tmp_inimg; tmp_inimg=0;}




        // now write to file
        in_sz[3]=1;//for single channel output from gvfCellSeg
        simple_saveimage_wrapper(callback, outimg_file, (unsigned char *)tmp_outimg->getData1dHandle(), in_sz, 2); //the output of gvfCellSeg is in 16bit


        // clear out temporary space
        if (tmp_outimg) {delete tmp_outimg; tmp_outimg=0;}

        if (temp4D) {delete temp4D; temp4D=0;}






        cout<<"Finished GVF Segmentation"<<endl;
	}
	else if (func_name == tr("help"))
	{
        cout<<endl;
        cout<<endl;
        cout<<" GVF segmentation plugin usage :  vaa3d -x gvf_cellseg  -f  gvf_segmentation -i <input filename> -o <output filename -p <c> <iter> <fusion> <size>"<<endl;
        cout<<" parameters:    (default values in parentheses) "<<endl;
        cout<<"c        =  channel of input file to use for segmentation    (1) "<<endl;
        cout<<"iter     =  number of diffusion iterations  (must be > 0)    (5)    "<<endl;
        cout<<"fusion   =  fusion size threshold         (must be > 0)      (3)  "<<endl;
        cout<<"size     =  minimum region size in voxels                   (10)"<<endl;


    }
	else return false;

	return true;
}
Пример #28
0
bool compute(V3DPluginCallback2 &callback, const V3DPluginArgList & input, V3DPluginArgList & output)
{
	cout<<"Welcome to histogram"<<endl;
	if(output.size() != 1) return true;
	
	vector<char*>* inlist = (vector<char*>*) (input.at(0).p);
	if (inlist->size() != 1)
	{
		cerr<<"You must specify 1 input file!"<<endl;
		return false;
	}
	char * infile = inlist->at(0);
	cout<<"input file: "<<infile<<endl;
	unsigned char * inimg1d = NULL;
    V3DLONG sz[4];
	int datatype;
    if (!simple_loadimage_wrapper(callback, infile, inimg1d, sz, datatype))
	{
		cerr<<"faile to load image"<<endl;
		return false;
	}

	//Read the output file
	vector<char*>* outlist = (vector<char*>*) (output.at(0).p);
	if (outlist->size()!=1)
	{
		cerr<<"You must specify 1 output file!"<<endl;
		return false;
	}
	char* outfile = outlist->at(0);
	cout<<"output file: "<<outfile<<endl;
	
	if (datatype!=1)
	{
		v3d_msg("Now we only support 8 bit image.\n");
		return -1;
	}

	//TODO add datatype judgment
	double max_value = 256;
	V3DLONG histscale = 256;
	QVector<QVector<int> > hist_vec;

	int nChannel = sz[3];

	for (int c=0;c<nChannel;c++)
	{
		QVector<int> tmp;
		getHistogram(inimg1d+ c*sz[0]*sz[1]*sz[2], sz[0]*sz[1]*sz[2], max_value, histscale, tmp);
		hist_vec.append(tmp);
	}

	//output histogram to csv file
	FILE *fp;
	fp = fopen(outfile, "w");
	for (int i=0;i<hist_vec.size();i++)
	{
		for (int j=0;j<hist_vec[i].size();j++)
			fprintf(fp, "%d,", hist_vec[i][j]);
		fprintf(fp,"\n");
	}
	fclose(fp);

	if (inimg1d) {delete []inimg1d; inimg1d=NULL;}
	return true;

}
Пример #29
0
bool IBioformatIOPlugin::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
     if (func_name == tr("imgiobiof"))
	{
          cout<<"Welcome to imageIOBioformat loader"<<endl;
          if(input.size() != 1 || output.size() != 1) return false;

          char * inimg_file = ((vector<char*> *)(input.at(0).p))->at(0);
          char * outimg_file = ((vector<char*> *)(output.at(0).p))->at(0);
          cout<<"inimg_file = "<<inimg_file<<endl;
          cout<<"outimg_file = "<<outimg_file<<endl;

          QString m_FileName(inimg_file); // use inimge_file name

          if(m_FileName.isEmpty())
          {
               printf("\nError: Your image does not exist!\n");
               return false;
          }

          // temp
          QString baseName = QFileInfo(m_FileName).baseName();
          //QString tmpfile = QDir::tempPath().append("/").append(baseName).append(".tif");
          QString tmpfile(outimg_file); //use outimg_file name

          //
          QFile tmpqfile(tmpfile);
          if (tmpqfile.exists()) system(qPrintable(QString("rm -f \"%1\"").arg(tmpfile)));

          //look for loci_tools.jar
          QString lociDir = ("loci_tools.jar");
          if (!QFile(lociDir).exists())
          {
               printf("loci_tools.jar is not in current directory, search v3d app path.\n");
               lociDir = getAppPath().append("/loci_tools.jar");
               printf(qPrintable(lociDir));
               printf("\n");
               if (!QFile(lociDir).exists())
               {
                    v3d_msg("Cannot find loci_tools.jar, please download it and make sure it is put under the Vaa3D executable folder, parallel to the Vaa3D executable and the plugins folder.", 0);
                    return false;
               }
          }

          QString cmd_loci = QString("java -cp %1 loci.formats.tools.ImageConverter \"%2\" \"%3\"").arg(lociDir.toStdString().c_str()).arg(m_FileName.toStdString().c_str()).arg(tmpfile.toStdString().c_str());
          v3d_msg(cmd_loci, 0);

          system(qPrintable(cmd_loci));

          if (!tmpqfile.exists())
          {
              v3d_msg("The temprary file does not exist. The conversion of format using Bioformats has failed. Please use another way to convert and load using Vaa3D.\n");
              return false;
          }

          return true;
	}
	else if(func_name == tr("help"))
	{
		cout<<"Usage : v3d -x imageIO_Bioformat -f imgiobiof -i <inimg_file> -o <outimg_file>"<<endl;
		cout<<"e.g. v3d -x imageIO_Bioformat -f imgiobiof -i input.raw -o output.raw"<<endl;
		cout<<endl;
		return true;
	}

}
Пример #30
0
bool MovieConverter::dofunc(const QString & func_name, const V3DPluginArgList & input, V3DPluginArgList & output, V3DPluginCallback2 & callback,  QWidget * parent)
{
    if (func_name == tr("convert_frames_to_movie"))
    {
        cout<<"Welcome to movie converter"<<endl;

        char * inimg_file = ((vector<char*> *)(input.at(0).p))->at(0);
        QString check_ffmpeg;
        const char * ffmpeg_file;

#if  defined(Q_OS_MAC)
    ffmpeg_file  = getAppPath().append("/mac_ffmpeg").toStdString().c_str();
#elif defined(Q_OS_LINUX)
    ffmpeg_file = getAppPath().append("/linux_ffmpeg").toStdString().c_str();
#elif defined(Q_OS_WIN32)
    ffmpeg_file = getAppPath().append("/linux_ffmpeg").toStdString().c_str();
#else
    v3d_msg("The OS is not recognized (not Mac, Linux or Windows). Do nothing.");
    return false;
#endif

        char * inimg_format = "a[NUM].BMP";
        char * output_fps = "14";
        char * output_Type = "avi";
        unsigned int  c = 1;

        if (input.size()>=2)
        {

            vector<char*> paras = (*(vector<char*> *)(input.at(1).p));
            cout<<paras.size()<<endl;
            if(paras.size() >= 1) check_ffmpeg = paras[0];
            if(check_ffmpeg != "NULL") ffmpeg_file = paras[0] ;
            if(paras.size() >= 2) inimg_format = paras[1];
            if(paras.size() >= 3) output_fps = paras[2];
            if(paras.size() >= 4) output_Type = paras.at(3);
            if(paras.size() >= 5) c = atoi(paras.at(4));
        }

        cout<<"input_folder = "<<inimg_file<<endl;
        cout<<"ffmpeg_file = "<<ffmpeg_file<<endl;
        cout<<"input_format = "<<inimg_format<<endl;
        cout<<"output_fps = "<<output_fps<<endl;
        cout<<"output_type = "<<output_Type<<endl;
        cout<<"compress = "<<c<<endl;

        QString selectedFile(inimg_file);
        QString selectffmpeg(ffmpeg_file);
        QString filename(inimg_format);
        QString fps(output_fps);
        QString videoType(output_Type);

        if (!QFile(selectffmpeg).exists())
        {
           printf("Can not find ffmpeg, please select again or download from http://www.ffmpeg.org");
           return false;
        }

        int indexL = filename.indexOf("[");
        QString filenameL =  filename.left(indexL);
        int indexR = filename.indexOf("]");
        QString filenameR =  filename.right(filename.size()-indexR-1);
        QString compress;

        if(videoType == "mp4")
        {
              compress = "-vcodec mpeg4 -acodec aac";
         }
        else if (videoType == "mpg")
        {
              compress = "-vcodec mpeg2video";
        }
        else if (c == 1 &&  videoType == "avi")
        {
              compress = "-vcodec mjpeg -qscale 0";
         }
        else if (c == 0 && videoType == "avi")
        {
              compress = "-vcodec rawvideo";
        }
        else
        {
            return false;
        }
#if defined(Q_OS_WIN32)
          QString cmd_ffmpeg = QString("\"\"%1\" -r %2 -i \"%3/%4%d%5\" -y %6 \"%7/movie.%8\"\"").arg(selectffmpeg.toStdString().c_str()).arg(fps.toStdString().c_str()).arg(selectedFile.toStdString().c_str()).arg(filenameL.toStdString().c_str()).arg(filenameR.toStdString().c_str()).arg(compress.toStdString().c_str()).arg(selectedFile.toStdString().c_str()).arg(videoType.toStdString().c_str());
#else
          QString cmd_ffmpeg = QString("\"%1\" -r %2 -i \"%3/%4%d%5\" -y %6 \"%7/movie.%8\"").arg(selectffmpeg.toStdString().c_str()).arg(fps.toStdString().c_str()).arg(selectedFile.toStdString().c_str()).arg(filenameL.toStdString().c_str()).arg(filenameR.toStdString().c_str()).arg(compress.toStdString().c_str()).arg(selectedFile.toStdString().c_str()).arg(videoType.toStdString().c_str());
#endif
         system(qPrintable(cmd_ffmpeg));
        //-vcodec mjpeg -qscale 0
        QString movieDir = selectedFile.append(QString("/movie.%1").arg(videoType));

        if (!QFile(movieDir).exists())
        {
           printf("The format is not supported, or can not find ffmpeg, please select again or download from http://www.ffmpeg.org\n");
           return false;
        }
        else
        {
           cout<<"The movie is saved in "<<movieDir.toStdString()<<endl;
           return true;
        }
    }
    else if (func_name == tr("help"))
	{
        printf("\n**** Usage of Movie Converter ****\n");
        printf("vaa3d -x plugin_name -f convert_frames_to_movie -i <inimg_folder> -p <converter_path> <frame_format> <output_fps> <video_type> <is_compress>\n");
        printf("inimg_folder     the video frame folder path \n");
        printf("converter_path   the movie converter(ffmpeg) path. If do not know, please set this para to NULL and the default path will be the vaa3d main path.\n");
        printf("frame_format     the format of video frames,e.g. for a1.BMP, please set this para to be a[NUM].BMP\n");
        printf("output_fps       the fps for the output video. Default 14\n");
        printf("video_type       the output video type (avi, mpg, or mp4). Default avi.\n");
        printf("is_compress      if compress the video (1 for yes and 0 for no). Default 1.\n");

        return true;
	}
	else return false;
}