/**
 * Zooms the area given by v1 and v2.
 *
 * @param keepAspectRatio true: keeps the aspect ratio 1:1
 *                        false: zooms exactly the selected range to the
 *                               current graphic view
 */
void RS_GraphicView::zoomWindow(RS_Vector v1, RS_Vector v2,
                                bool keepAspectRatio) {



    double zoomX=480.0;    // Zoom for X-Axis
    double zoomY=640.0;    // Zoom for Y-Axis   (Set smaller one)
    int zoomBorder = 0;

    // Switch left/right and top/bottom is necessary:
    if(v1.x>v2.x) {
        std::swap(v1.x,v2.x);
    }
    if(v1.y>v2.y) {
        std::swap(v1.y,v2.y);
    }

    // Get zoom in X and zoom in Y:
    if(v2.x-v1.x>1.0e-6) {
        zoomX = getWidth() / (v2.x-v1.x);
    }
    if(v2.y-v1.y>1.0e-6) {
        zoomY = getHeight() / (v2.y-v1.y);
    }

    // Take smaller zoom:
    if (keepAspectRatio) {
        if(zoomX<zoomY) {
            if(getWidth()!=0) {
                zoomX = zoomY = ((double)(getWidth()-2*zoomBorder)) /
                        (double)getWidth()*zoomX;
            }
        } else {
            if(getHeight()!=0) {
                zoomX = zoomY = ((double)(getHeight()-2*zoomBorder)) /
                        (double)getHeight()*zoomY;
            }
        }
    }

    zoomX=fabs(zoomX);
    zoomY=fabs(zoomY);

    // Borders in pixel after zoom
    int pixLeft  =(int)(v1.x*zoomX);
    int pixTop   =(int)(v2.y*zoomY);
    int pixRight =(int)(v2.x*zoomX);
    int pixBottom=(int)(v1.y*zoomY);
    if(  pixLeft == INT_MIN || pixLeft== INT_MAX ||
         pixRight == INT_MIN || pixRight== INT_MAX ||
         pixTop == INT_MIN || pixTop== INT_MAX ||
         pixBottom == INT_MIN || pixBottom== INT_MAX ) {
        RS_DIALOGFACTORY->commandMessage("Requested zooming factor out of range. Zooming not changed");
        return;
    }
    saveView();

    // Set new offset for zero point:
    offsetX = - pixLeft + (getWidth() -pixRight +pixLeft)/2;
    offsetY = - pixTop + (getHeight() -pixBottom +pixTop)/2;
    factor.x = zoomX;
    factor.y = zoomY;

    adjustOffsetControls();
    adjustZoomControls();
    //    updateGrid();

    redraw();
}
/**
 * performs autozoom
 *
 * @param axis include axis in zoom
 * @param keepAspectRatio true: keep aspect ratio 1:1
 *                        false: factors in x and y are stretched to the max
 */
void RS_GraphicView::zoomAuto(bool axis, bool keepAspectRatio) {

    RS_DEBUG->print("RS_GraphicView::zoomAuto");


    if (container!=NULL) {
        container->calculateBorders();

        double sx, sy;
        if (axis) {
            sx = std::max(container->getMax().x, 0.0)
                    - std::min(container->getMin().x, 0.0);
            sy = std::max(container->getMax().y, 0.0)
                    - std::min(container->getMin().y, 0.0);
        } else {
            sx = container->getSize().x;
            sy = container->getSize().y;
        }
        //    std::cout<<" RS_GraphicView::zoomAuto("<<axis<<","<<keepAspectRatio<<")"<<std::endl;

        double fx=1., fy=1.;
        unsigned short fFlags=0;

        if (sx>RS_TOLERANCE) {
            fx = (getWidth()-borderLeft-borderRight) / sx;
        } else {
            fFlags += 1; //invalid x factor
        }

        if (sy>RS_TOLERANCE) {
            fy = (getHeight()-borderTop-borderBottom) / sy;
        } else {
            fFlags += 2; //invalid y factor
        }
        //    std::cout<<"0: fx= "<<fx<<"\tfy="<<fy<<std::endl;

        RS_DEBUG->print("f: %f/%f", fx, fy);

        switch(fFlags){
        case 1:
            fx=fy;
            break;
        case 2:
            fy=fx;
            break;
        case 3:
            return; //do not do anything, invalid factors
        default:
            if (keepAspectRatio) {
                fx = fy = std::min(fx, fy);
            }
            //                break;
        }
        //    std::cout<<"1: fx= "<<fx<<"\tfy="<<fy<<std::endl;

        RS_DEBUG->print("f: %f/%f", fx, fy);
        //exclude invalid factors
        fFlags=0;
        if (fx<RS_TOLERANCE||fx>RS_MAXDOUBLE) {
            fx=1.0;
            fFlags += 1;
        }
        if (fy<RS_TOLERANCE||fy>RS_MAXDOUBLE) {
            fy=1.0;
            fFlags += 2;
        }
        if(fFlags == 3 ) return;
        saveView();
        //        std::cout<<"2: fx= "<<fx<<"\tfy="<<fy<<std::endl;
        setFactorX(fx);
        setFactorY(fy);

        RS_DEBUG->print("f: %f/%f", fx, fy);


//        RS_DEBUG->print("adjustOffsetControls");
        adjustOffsetControls();
//        RS_DEBUG->print("adjustZoomControls");
        adjustZoomControls();
//        RS_DEBUG->print("centerOffsetX");
        centerOffsetX();
//        RS_DEBUG->print("centerOffsetY");
        centerOffsetY();
//        RS_DEBUG->print("updateGrid");
        //    updateGrid();

        redraw();
    }
    RS_DEBUG->print("RS_GraphicView::zoomAuto OK");
}
示例#3
0
文件: viewer.cpp 项目: donSchoe/cgsee
void Viewer::on_actionSave_4_triggered() { saveView(3); }
示例#4
0
文件: viewer.cpp 项目: donSchoe/cgsee
void Viewer::on_actionSave_3_triggered() { saveView(2); }
示例#5
0
文件: viewer.cpp 项目: donSchoe/cgsee
void Viewer::on_actionSave_2_triggered() { saveView(1); }
示例#6
0
文件: viewer.cpp 项目: donSchoe/cgsee
void Viewer::on_actionSave_1_triggered() { saveView(0); }