void CLjz153View::OnPic2() 
{
	// TODO: Add your command handler code here
	CFileDialog pic2( TRUE, _T( ".bmp" ), _T( "test.bmp" ), OFN_FILEMUSTEXIST | OFN_HIDEREADONLY, _T( "图片(bmp)|*.bmp|所有文件|*||" ) );
	if ( pic2.DoModal() == IDOK ) 
	{
		CString path = pic2.GetPathName();	//获取路径
		//AfxMessageBox(path);
		char* name = path.GetBuffer(path.GetLength());
		path.ReleaseBuffer();
		lpBitsInfo1 = LoadBmpFile(name);
		Invalidate();
		picNum++;
	}
}
Ejemplo n.º 2
0
int main(int argn, char* args[])
{
	static char *desc[] = {
		"This script will read the xtc trajectory from an MD simulation",
		"performed by GROMACS and output all data related to the analysis",
		"of preferential interactions.",
		"[PAR]",
		"Generated: Thu Aug 20 16:49:21 EDT 2015.[BR]",
		"Last updated: Thu Aug 27 17:26:01 EDT 2015.",
		"[PAR]",
		"Future Developments:[BR]",
		"[BB]1.[bb] Partition calculation into groups (constituent amino acids).[BR]",
		"[BB]2.[bb] Calculate residence times.[BR]",
		"[BB]3.[bb] Include a measure for geometric orientation.[BR]",
		"[BB]4.[bb] Calculate molecular distributions.[BR]",
		"[BB]5.[bb] Parallelize it.",
		"[PAR]",
		"Remember to check the dependencie of the results on the number of block",
		" used by using [TT]-block[tt].",
		"Also, check that your simulation has been properly equilibrated by using [TT]-f0[tt].",
		"In terms of reducing the computational cost of the analysis, use the option",
		"[TT]-skip[tt] to only use every nr[TT]-th[tt] frame from the trajectory."
	};
	
	unsigned int protein_sequence=20; 	/* parse tpr.itp for info 			*/
        unsigned int N_co=4; 			/* look at topology for number of co-solvents 	*/
        unsigned int num_sol=7906; 		/* look at topology as well 			*/
	unsigned int skip_nr=1;
	unsigned int granularity=2*100;
	unsigned int f0=0;
	bool bIndex=false;

	t_pargs pa[] = {
		{"-start", FALSE, etINT, {&f0}, "Start after n-th frame."},
		{"-skip", FALSE, etINT, {&skip_nr}, "Only write every nr-th frame."},
		{"-grid", FALSE, etINT, {&granularity}, "Number points to calculate."},
		{"-seq", FALSE, etINT,{&protein_sequence}, "Number of amino acids in protein sequence."},
		{"-Nco", FALSE, etINT,{&N_co}, "Number of cosolvent molecules."},
		{"-Sol", FALSE, etINT,{&num_sol}, "Number of water molecules."}
	};	

	char 		title[STRLEN];	
	t_topology 	top;
	int		ePBC;
	rvec		*xtop;
	matrix		box;
	
	t_filenm fnm[] = { 			/* See filenm.h */
		{ efTOP, NULL,  NULL, ffREAD  },
		{ efTPS, NULL, NULL, ffREAD },	/*  topology 	*/
		{ efTRX, "-f", NULL, ffREAD },	/*  trajcetory  */
		{ efNDX, "-n", NULL, ffOPTRD }  /*  index file  */
	};

#define NFILE asize(fnm)

/* Interface. Adds default options. */	
CopyRight(stderr,args[0]);
parse_common_args(&argn,args,PCA_CAN_TIME | PCA_CAN_VIEW, NFILE,fnm,asize(pa),pa,asize(desc),desc,0,NULL);
read_tps_conf( ftp2fn(efTPS, NFILE, fnm), title, &top, &ePBC, &xtop, NULL, box, TRUE);
sfree(xtop);

/*******************************************************************************************************************/
/*
int iter;
for (iter=0;iter<top.atoms.nr/100;++iter)
{
printf("Atom name: %s\tAtom charge: %f\n", *(top.atoms.atomname[iter]), top.atoms.atom[iter].q );
printf("Atom type: %d\tAtomic Residue NUmber: %d\n", top.atoms.atom[iter].type, top.atoms.atom[iter].resnr );
printf("Chain Identifier: %u\tNr of residues names: %d\n", top.atoms.atom[iter].ptype, top.atoms.nres );
printf("Residue name: %s\n\n", *(top.atoms.resname[iter]) );
}
*/
/*******************************************************************************************************************/

int status;
t_trxframe fr;
int flags = TRX_READ_X;

/* Count Number of Frames */
        unsigned int bframes=0, frames=0;	
	int bwrite;
	read_first_frame(&status, ftp2fn(efTRX,NFILE,fnm), &fr, flags);
        do {
		bwrite = bframes % skip_nr; 
		++bframes; 
		if ((bframes>f0) && (bwrite==0)){ ++frames; }
	} while ( read_next_frame(status,&fr) );

/* Preparing Block Analysis */
	bIndex = ftp2bSet(efNDX,NFILE,fnm);
	std::vector<int> blocks_list;
	if (bIndex)
	{
		FILE *fp = ffopen(opt2fn("-n",NFILE,fnm),"r");
		int numblock;
		while(fscanf(fp,"%d",&numblock)!=EOF)
		{
			blocks_list.push_back(numblock);
		}
		fclose(fp);
	} else {
		blocks_list.push_back(1);
	}

/* Actual Calculation */
	std::vector<Info> protein;
        std::vector<Info> cosolvent;
	std::vector<Info> solvent;

	std::vector<double> cutoff, coefficients;
	double molals=0, molars=0;

/* BLOCK AVERAGE */
typedef std::vector<double> Row;
typedef std::vector<Row> Matrix;
unsigned int num_blocks;
/////////////
//////////// std::ofstream test_partition("partition.txt");

for (unsigned int iter=0; iter<blocks_list.size(); ++iter)
{
	num_blocks = blocks_list[iter];

	unsigned int partition = (frames)/num_blocks;
	unsigned int frame_counter=0;
	std::vector<double> positions(granularity), averages(granularity), averages_sqr(granularity), sigma(granularity);
	Matrix values(num_blocks,Row(granularity)), values_sqr(num_blocks,Row(granularity));

	unsigned int frame=0, twrite=0;
	read_first_frame(&status, ftp2fn(efTRX,NFILE,fnm), &fr, flags);
	do 
	{
		twrite = frame % skip_nr;	/* if twrite==0 then read frame. */
		++frame;
		if ((frame > f0) && (twrite==0))
		{
		/* READING */
			unsigned int protein_co=protein_sequence+N_co;
			unsigned int solvated=protein_co+num_sol;	
			for (unsigned int n=0; n<top.atoms.nr; ++n)
			{
				/* Parsing */
				Info atomo;
				atomo.setAtom( (std::string) *(top.atoms.atomname[n]) );
				atomo.setResnum( (unsigned int) top.atoms.atom[n].resnr );
				atomo.setResname( (std::string) *(top.atoms.resname[atomo.getResnum()]) );
				atomo.setCoords( (double) fr.x[n][XX], (double) fr.x[n][YY], (double) fr.x[n][ZZ] );
					
				/* Testing for partition of groups */
			///////	atomo.print(test_partition);
					
	
				/* Appending */
				// if 
				if ( atomo.getAtom()[0]!='H')   // atomo.atom[0]!='H')
				{
					if ( atomo.getResnum() < protein_sequence ){ 
						protein.push_back(atomo);
					} else if ( (atomo.getResnum() >= protein_sequence) && (atomo.getResnum() < protein_co) ){ 
						cosolvent.push_back(atomo); 
					} else if ( (atomo.getResnum() >= protein_co) && (atomo.getResnum() < solvated) ){
						// if (atomo.getResname().compare("SOL")!=0)
						// we want to avoid inputing number of waters for analysis
						solvent.push_back(atomo);
					}
				}					
			}
		/* MAIN */      
			double box_size = fr.box[0][0];

	        	/* Local calculation for cosolvents */
                	std::vector<double> close_co;                                     /* Stores Distances of closest */
			for (unsigned int i=0; i<N_co; ++i)
                	{
                	        std::vector<double> local_co;
                	        double minimum_calculated = box_size*box_size;
				unsigned int Nco_size=cosolvent.size()/N_co;
                	        for (unsigned int n=(i*Nco_size); n<((i+1)*Nco_size); ++n)
                	        {
                	                for (unsigned int j=0; j<protein.size(); ++j)
                	                {
                	                        double dist = cosolvent[n].distance(protein[j],box_size);
                	                        if (dist < minimum_calculated ){ minimum_calculated = dist; }
                	                }
                	                local_co.push_back(minimum_calculated);
                	        }
                	        close_co.push_back( *min_element(local_co.begin(), local_co.end()) );
                	}	
			/* Local calculation for water */
                	std::vector<double> local_wat;
                	for (unsigned int i=0; i<solvent.size(); ++i)
                	{
                	        double minimum_calculated = box_size*box_size;
                	        for (unsigned int j=0; j<protein.size(); ++j)
                	        {
                        	        double dist = solvent[i].distance(protein[j],box_size);
                        	        if (dist < minimum_calculated){ minimum_calculated = dist; }
         	                }
         	                local_wat.push_back(minimum_calculated);
                	} 

			/* Preferential Interaction Coefficient */
                	double N_wat = solvent.size();
			linspace(0,box_size,granularity,cutoff);
                	for (unsigned int x=0; x<granularity; ++x)
                	{
                        	unsigned int n3=0, n1=0;
                        	for (unsigned int i=0; i<close_co.size(); ++i){ if (close_co[i] < (cutoff[x]*cutoff[x])) ++n3; }
                        	for (unsigned int i=0; i<local_wat.size(); ++i){ if (local_wat[i] < (cutoff[x]*cutoff[x])) ++n1; }
                        	coefficients.push_back(pref_coef(N_co, N_wat, n3, n1));
                	}
			molals+= molality(N_co, (int) N_wat);
                	molars+= molarity(N_co, box_size);

	        	/* Storage */
	        	for (unsigned int i=0; i<granularity; ++i){ positions[i] += cutoff[i]; }
                	for (unsigned int j=0; j<granularity; ++j)
                	{
                	        values[(int) (frame_counter/(partition+1))][j] += coefficients[j];
                	        values_sqr[(int) (frame_counter/(partition+1))][j] += coefficients[j]*coefficients[j];
                	}


			cutoff.clear();
        		coefficients.clear();
			protein.clear();
			cosolvent.clear();
			solvent.clear();
	
			++frame_counter;
		}
	} while ( read_next_frame(status,&fr) );
	//thanx(stderr);

	/* FINAL REUSLTS */
        double normalization = partition;
        molals /= (num_blocks*normalization);
        molars /= (num_blocks*normalization);
        for (unsigned int i=0; i<granularity; ++i){ positions[i] /= (num_blocks*normalization); }
        for (unsigned int i=0; i<num_blocks; ++i)
	{
        	for (unsigned int j=0; j<granularity; ++j)
                {
                	values[i][j] /= normalization;
                        values_sqr[i][j] /= normalization;
                }
        }

	/* AVERAGES */
        for (unsigned int i=0; i<granularity; ++i)
        {
                for (unsigned int j=0; j<num_blocks; ++j)
                {
                        averages[i] += values[j][i];
                        averages_sqr[i] += values_sqr[j][i];
                }
                averages[i] /= (double) num_blocks;
                averages_sqr[i] /= (double) num_blocks;
        }

	/* STANDARD DEVIATIONS */
       for (unsigned int i=0; i<granularity; ++i)
        {
                sigma[i] += sqrt( averages_sqr[i] - averages[i]*averages[i] );
        }

	/* OUTPUT */
        std::ofstream distances("dimensions.dat");
        for (unsigned int i=0; i<granularity/2; ++i){ distances << std::setw(1) << positions[i] <<'\n'; }
        distances.close();

        std::string output1="preferential_val.dat";
        std::string output2="preferential_sig.dat";
        std::string result;
        std::ostringstream convert;
        convert << num_blocks; //skip;
        result = convert.str();
        output1.insert(16,result);
        output2.insert(16,result);
        std::ofstream pic1(output1.c_str());
        std::ofstream pic2(output2.c_str());
        for (unsigned int i=0; i<granularity/2; ++i)
        {
                pic1 << std::setw(10)<< averages[i] <<'\n';
                pic2 << std::setw(10)<< sigma[i] <<'\n';
        }
        pic1.close();
        pic2.close();

        std::ofstream concentrations("concentrations.dat");
        concentrations<< std::setw(10) << "Molality" <<'\t'<< std::setw(10) << "Molarity" <<'\n';
        concentrations<< std::setw(10) << molals <<'\t'<< std::setw(10) << molars << '\n';
        concentrations.close();

        std::cout << "ANALYSIS COMPLETED!" <<'\n';
	std::cout<<"Total number of frames: "<<frame_counter<<'\n';
}

//////////////// test_partition.close();

thanx(stderr);
return 0;
}
Ejemplo n.º 3
0
int compare( const void *arg1, const void *arg2 )
{
	try {

		const I_MapItem *i1 = *reinterpret_cast<I_MapItem**>(const_cast<void*>(arg1));
		const I_MapItem *i2 = *reinterpret_cast<I_MapItem**>(const_cast<void*>(arg2));

		C_TextPtr text1(const_cast<I_MapItem*>(i1));
		C_TextPtr text2(const_cast<I_MapItem*>(i2));

		if (text1 && !text2) {
			return 1;
		}
		else if (text2 && !text1) {
			return -1;
		}

		C_PicturePtr pic1(const_cast<I_MapItem*>(i1));
		C_PicturePtr pic2(const_cast<I_MapItem*>(i2));

		if (pic1 && !pic2) {
			return 1;
		}
		else if (pic2 && !pic1) {
			return -1;
		}

		C_PositionPtr p1(const_cast<I_MapItem*>(i1));
		C_PositionPtr p2(const_cast<I_MapItem*>(i2));

		if (p1 && p2) {

			C_Area area1(p1.GetPoints());
			C_Area area2(p2.GetPoints());

			int n = 0;
			int cnt1 = area1.GetLength();
			int cnt2 = area2.GetLength();

			if (0 == cnt1) {
				return -1;
			}

			if (0 == cnt2) {
				return 1;
			}

			POINT3D *ptr1 = area1[cnt1 - 1];
			POINT3D *ptr2 = area2[cnt2 - 1];

			if (ptr1->x < 0 && ptr2->x > 0) {
				n = -1;
			}
			else if (ptr1->x > 0 && ptr2->x < 0) {
				n = 1;
			}
			else if (ptr1->y < ptr2->y) {
				n = -1;
			}
			else if (ptr1->y > ptr2->y) {
				n = 1;
			}

			if (0 == n) {

				if (cnt1 < cnt2) {
					n = -1;
				}
				else if (cnt1 > cnt2) {
					n = 1;
				}
			}

			if (0 != n) {
				return n;
			}
		}

		C_UniquePtr u1(const_cast<I_MapItem*>(i1));
		C_UniquePtr u2(const_cast<I_MapItem*>(i2));

		if (!u1 && !u2) {
			return 0;
		}
		else if (!u1) {
			return -1;
		}
		else if (!u2) {
			return 1;
		}
		else {

			BSTR bs1 = NULL;
			BSTR bs2 = NULL;

			u1->get_UID(&bs1);
			u2->get_UID(&bs2);

			int n = ::wcscmp(bs1, bs2);

			String::FreeBSTR(&bs1);
			String::FreeBSTR(&bs2);

			return n;
		}
	}
	catch (C_STLNonStackException const &exception) {
		exception.Log(_T("Exception in Items.cpp (compare)"));
	}

	return 0;
}
Ejemplo n.º 4
0
void mainwindow::setacscene()
{
    QRectF acbounds(0,0,2480,1754);
    scene2=new QGraphicsScene(acbounds,this);
    QPixmap pic2("./pic/bpic.png");
    pix2 = new QGraphicsPixmapItem(pic2);
    scene2->addItem(pix2);

    s_no2 = new QGraphicsTextItem("");
    s_no2->setZValue(pix2->zValue()+1);
    //s_no2->setPos(QPointF(908,784));

    sname2 = new QGraphicsTextItem("");
    sname2->setZValue(pix2->zValue()+1);
    sname2->setPos(QPointF(908,784));

    fname2 = new QGraphicsTextItem("");
    fname2->setZValue(pix2->zValue()+1);
    fname2->setPos(QPointF(440,896));

    sdetail2 = new QGraphicsTextItem("");
    sdetail2->setZValue(pix2->zValue()+1);
    sdetail2->setPos(QPointF(1128,1108));

    periodfrom2 = new QGraphicsTextItem("");
    periodfrom2->setZValue(pix2->zValue()+1);
    periodfrom2->setPos(QPointF(784,1228));

    periodto2 = new QGraphicsTextItem("");
    periodto2->setZValue(pix2->zValue()+1);
    periodto2->setPos(QPointF(1176,1228));

    date2 = new QGraphicsTextItem(dt);
    date2->setZValue(pix2->zValue()+1);
    date2->setPos(QPoint(2112,540));

    roll2 = new QGraphicsTextItem("");
    roll2->setZValue(pix2->zValue()+1);
    roll2->setPos(QPointF(808,1000));

    gen2 = new QGraphicsTextItem("");
    gen2->setZValue(pix2->zValue()+1);
    gen2->setPos(QPointF(140,904));

    purpose2 = new QGraphicsTextItem("");
    purpose2->setZValue(pix2->zValue()+1);
    purpose2->setPos(QPointF(1024,1372));

    purposetext2 = new QGraphicsTextItem("");
    purposetext2->setZValue(pix2->zValue()+1);
    purposetext2->setPos(QPointF(128,1372));

    scene2->addItem(fname2);
    scene2->addItem(sname2);
    scene2->addItem(sdetail2);
    scene2->addItem(periodfrom2);
    scene2->addItem(periodto2);
    scene2->addItem(roll2);
    scene2->addItem(date2);
    scene2->addItem(gen2);
    scene2->addItem(purpose2);
    scene2->addItem(purposetext2);
}
Ejemplo n.º 5
0
void LinkStatusWidget::paintEvent(QPaintEvent *event){

    initLines();

    QPainter painter(this);

    QPixmap pic(QString::fromUtf8(":/computer_white.png"));

    QRectF dest(0,0,pic.width(),pic.height());



    QPixmap pic2(QString::fromUtf8(":/honeywell.png"));

    QRectF dest2(0,0,pic2.width(),pic2.height());
    //220*180

    QRectF target_0(this->left_left,this->left_top,this->left_width,this->left_height);

    QRectF target_1(this->width()-this->right_right-this->right_width,this->right_top,this->right_width,this->right_height);

    QRectF target_2(this->width()-this->right_right-this->right_width,this->right_top+this->right_height+this->right_space,this->right_width,this->right_height);

    painter.setPen(Qt::white);
    painter.drawPixmap(target_0,pic2,dest2);

    painter.drawText(this->left_left+this->left_width+this->left_space,this->left_top+painter.fontMetrics().height(),Config::LINKSTATUS_LABEL.split("#").at(2));



    painter.drawPixmap(target_1,pic,dest);

    QString text=Config::LINKSTATUS_LABEL.split("#").at(0);
    int f_w=painter.fontMetrics().width(text);

    painter.drawText(this->width()-this->right_right-this->right_width-this->right_space*2-f_w,this->right_top+painter.fontMetrics().height()+this->right_space,text);

    painter.drawPixmap(target_2,pic,dest);

    text=Config::LINKSTATUS_LABEL.split("#").at(1);
    f_w=painter.fontMetrics().width(text);


    painter.drawText(this->width()-this->right_right-this->right_width-this->right_space*2-f_w,this->right_top+this->right_height+this->right_space*2+painter.fontMetrics().height(),text);



    //draw base line
    painter.save();
    //#353942
    QPen pen1(Qt::white,8,Qt::SolidLine, Qt::RoundCap, Qt::RoundJoin);
    pen1.setColor(QColor(53, 57, 66));

    painter.setPen(pen1);
    painter.drawLines(lines);
    painter.restore();

    if(!this->isConn){
        return;
    }

    int centerHeight=this->right_top+this->right_height+this->right_space/2;

    QColor co1 =QColor(146, 196, 15) ;
    QColor co2 =QColor(0, 255, 0, 0);

    QColor co3 =QColor( 255,0, 0,200);
    QColor co4 =QColor( 255,0,0, 0);


    int mleft=this->width()-this->right_right-this->right_width-this->right_space-this->countMain;
    int mright=mleft+this->line_width_main;

    if(this->isBroken_1){

        QLinearGradient linearGradient = QLinearGradient(mleft,centerHeight,mright,centerHeight);
        linearGradient.setColorAt(0,co3);
        linearGradient.setColorAt(1,co4);

        QPen pen2(linearGradient,5);
        pen2.setCapStyle(Qt::RoundCap);
        painter.setPen(pen2);

    }else{

        QLinearGradient linearGradient = QLinearGradient(mleft,centerHeight,mright,centerHeight);
        linearGradient.setColorAt(0,co1);
        linearGradient.setColorAt(1,co2);

        QPen pen2(linearGradient,5);
        pen2.setCapStyle(Qt::RoundCap);
        painter.setPen(pen2);

    }

    painter.drawLine(mleft,centerHeight,mright,centerHeight);


    int sbottom= this->right_top+this->right_height/2+this->countSub;
    int stop= sbottom-this->line_width_sub;
    int sright=this->width()-this->right_right+this->right_space;

    //message 2
    if(this->isBroken_2){

        QLinearGradient linearGradient2 = QLinearGradient(sright,stop,sright,sbottom);
        linearGradient2.setColorAt(0,co4);
        linearGradient2.setColorAt(1,co3);

        QPen pen3(linearGradient2,4);
        pen3.setCapStyle(Qt::RoundCap);
        painter.setPen(pen3);

    }else{


        QLinearGradient linearGradient2 = QLinearGradient(sright,stop,sright,sbottom);
        linearGradient2.setColorAt(0,co2);
        linearGradient2.setColorAt(1,co1);

        QPen pen3(linearGradient2,4);
        pen3.setCapStyle(Qt::RoundCap);
        painter.setPen(pen3);


    }

    painter.drawLine(sright,stop,sright,sbottom);


}