Ejemplo n.º 1
0
void set_animation(int step)
{
  for(unsigned int i = 0; i < PView::list.size(); i++){
    PView * p = PView::list[i];
    if(p->getOptions()->visible){
      p->getOptions()->timeStep = step;
      p->setChanged(true);
    }
  }
}
Ejemplo n.º 2
0
// This version sends VArrays using MPI
static void computeAndSendVertexArrays()
{
  // compute...
  for(unsigned int i = 0; i < PView::list.size(); i++)
    PView::list[i]->fillVertexArrays();

  // ...and send
  int nbArrays = PView::list.size()* 4;
  MPI_Send(&nbArrays, 1, MPI_INT, 0, MPI_GMSH_DATA_READY, MPI_COMM_WORLD);

  for(unsigned int i = 0; i < PView::list.size(); i++){
    PView *p = PView::list[i];
    PViewData *data = p->getData();
    PViewOptions *opt = p->getOptions();
    double min = data->getMin(), max = data->getMax();
    if(opt->rangeType == PViewOptions::PerTimeStep){
      min = data->getMin(opt->timeStep);
      max = data->getMax(opt->timeStep);
    }
    VertexArray *va[4] =
      {p->va_points, p->va_lines, p->va_triangles, p->va_vectors};
    for(int type = 0; type < 4; type++){
      if(va[type]){
        int len;
        char *str = va[type]->toChar
          (p->getTag(), data->getName(), type + 1, min, max,
           data->getNumTimeSteps(), data->getTime(opt->timeStep),
           data->getBoundingBox(), len);
        MPI_Send(&len, 1, MPI_INT, 0, MPI_GMSH_VARRAY_LEN, MPI_COMM_WORLD);
        MPI_Send(str, len, MPI_CHAR, 0, MPI_GMSH_VARRAY, MPI_COMM_WORLD);
        delete [] str;
      }
    }
  }
}
Ejemplo n.º 3
0
static void computeAndSendVertexArrays(GmshClient *client, bool compute=true)
{
  for(unsigned int i = 0; i < PView::list.size(); i++){
    PView *p = PView::list[i];
    if(compute) p->fillVertexArrays();
    PViewData *data = p->getData();
    PViewOptions *opt = p->getOptions();
    double min = data->getMin(), max = data->getMax();
    if(opt->rangeType == PViewOptions::PerTimeStep){
      min = data->getMin(opt->timeStep);
      max = data->getMax(opt->timeStep);
    }
    VertexArray *va[4] =
      {p->va_points, p->va_lines, p->va_triangles, p->va_vectors};
    for(int type = 0; type < 4; type++){
      if(va[type]){
        int len;
        char *str = va[type]->toChar
          (p->getTag(), data->getName(), type + 1, min, max,
           data->getNumTimeSteps(), data->getTime(opt->timeStep),
           data->getBoundingBox(), len);
        client->SendMessage(GmshSocket::GMSH_VERTEX_ARRAY, len, str);
        delete [] str;
      }
    }
  }
}
Ejemplo n.º 4
0
int animation_next()
{
  int ret = 0;
  for(unsigned int i = 0; i < PView::list.size(); i++){
    PView * p = PView::list[i];
    if(p->getOptions()->visible){
      int step = (int)p->getOptions()->timeStep + 1;
      int numSteps = (int)p->getData()->getNumTimeSteps();
      if(step < 0) step = numSteps - 1;
      if(step > numSteps - 1) step = 0;
      p->getOptions()->timeStep = step;
      p->setChanged(true);
      ret = step;
    }
  }
  return ret;
}
Ejemplo n.º 5
0
int number_of_animation()
{
  int ret = 0;
  for(unsigned int i = 0; i < PView::list.size(); i++){
    PView * p = PView::list[i];
    if(p->getOptions()->visible){
      int numSteps = (int)p->getData()->getNumTimeSteps();
      if(numSteps > ret) ret = numSteps;
    }
  }
  return ret;
}
Ejemplo n.º 6
0
void drawContext::drawScale()
{
  glPushMatrix();
  glLoadIdentity();

  double size = std::max(_right -_left, _top - _bottom);
  double width = size / 3.5;
  double height = size / 10.;
  double dh = height / 5;

	// Draw the scale bar
  int nPview = 0;
  for(int i=0; i<PView::list.size();i++){
    PView *p = PView::list[i];
    PViewOptions *opt = p->getOptions();
    if(!opt->visible) continue;
    PViewData *data = p->getData();

    double box = width / (opt->nbIso ? opt->nbIso : 1);
    double xmin = _left + (_right - _left - width)/2.;
    double ymin = _bottom + 0.7 * height + height * nPview;

    std::vector<GLfloat> vertex(opt->nbIso*3*4);
    std::vector<GLubyte> color(opt->nbIso*4*4);
    for(int i = 0; i < opt->nbIso; i++){
      if(opt->intervalsType == PViewOptions::Discrete ||
         opt->intervalsType == PViewOptions::Numeric){
        unsigned int col = opt->getColor(i, opt->nbIso);
        color[i*4*4+0] = color[i*4*4+4] = color[i*4*4+8] = color[i*4*4+12] =
          (GLubyte)CTX::instance()->unpackRed(col);
        color[i*4*4+1] = color[i*4*4+5] = color[i*4*4+9] = color[i*4*4+13] =
          (GLubyte)CTX::instance()->unpackGreen(col);
        color[i*4*4+2] = color[i*4*4+6] = color[i*4*4+10] = color[i*4*4+14] =
          (GLubyte)CTX::instance()->unpackBlue(col);
        color[i*4*4+3] = color[i*4*4+7] = color[i*4*4+11] = color[i*4*4+15] =
          (GLubyte)CTX::instance()->unpackAlpha(col);
        vertex[i*3*4+0] = xmin + i * box;
        vertex[i*3*4+1] = ymin;
        vertex[i*3*4+2] = 0.;
        vertex[i*3*4+3] = xmin + i * box;
        vertex[i*3*4+4] = ymin + dh;
        vertex[i*3*4+5] = 0.;
        vertex[i*3*4+6] = xmin + (i + 1) * box;
        vertex[i*3*4+7] = ymin;
        vertex[i*3*4+8] = 0.;
        vertex[i*3*4+9] = xmin + (i + 1) * box;
        vertex[i*3*4+10] = ymin + dh;
        vertex[i*3*4+11] = 0.;
      }
      else if(opt->intervalsType == PViewOptions::Continuous){
        double dv = (opt->tmpMax - opt->tmpMin) / (opt->nbIso ? opt->nbIso : 1);
        double v1 = opt->tmpMin + i * dv;
        unsigned int col1 = opt->getColor(v1, opt->tmpMin, opt->tmpMax, true);
        color[i*4*4+0] = color[i*4*4+4] = (GLubyte)CTX::instance()->unpackRed(col1);
        color[i*4*4+1] = color[i*4*4+5] = (GLubyte)CTX::instance()->unpackGreen(col1);
        color[i*4*4+2] = color[i*4*4+6] = (GLubyte)CTX::instance()->unpackBlue(col1);
        color[i*4*4+3] = color[i*4*4+7] = (GLubyte)CTX::instance()->unpackAlpha(col1);
        vertex[i*3*4+0] = xmin + i * box;
        vertex[i*3*4+1] = ymin;
        vertex[i*3*4+2] = 0.;
        vertex[i*3*4+3] = xmin + i * box;
        vertex[i*3*4+4] = ymin + dh;
        vertex[i*3*4+5] = 0.;
        double v2 = opt->tmpMin + (i + 1) * dv;
        unsigned int col2 = opt->getColor(v2, opt->tmpMin, opt->tmpMax, true);
        color[i*4*4+8] = color[i*4*4+12] = (GLubyte)CTX::instance()->unpackRed(col2);
        color[i*4*4+9] = color[i*4*4+13] = (GLubyte)CTX::instance()->unpackGreen(col2);
        color[i*4*4+10] = color[i*4*4+14] = (GLubyte)CTX::instance()->unpackBlue(col2);
        color[i*4*4+11] = color[i*4*4+15] = (GLubyte)CTX::instance()->unpackAlpha(col2);
        vertex[i*3*4+6] = xmin + (i + 1) * box;
        vertex[i*3*4+7] = ymin;
        vertex[i*3*4+8] = 0.;
        vertex[i*3*4+9] = xmin + (i + 1) * box;
        vertex[i*3*4+10] = ymin + dh;
        vertex[i*3*4+11] = 0.;
      }
      else{
        unsigned int col = opt->getColor(i, opt->nbIso);
        color[i*4*4+0] = color[i*4*4+4] = color[i*4*4+8] = color[i*4*4+12] =
          (GLubyte)CTX::instance()->unpackRed(col);
        color[i*4*4+1] = color[i*4*4+5] = color[i*4*4+9] = color[i*4*4+13] =
          (GLubyte)CTX::instance()->unpackGreen(col);
        color[i*4*4+2] = color[i*4*4+6] = color[i*4*4+10] = color[i*4*4+14] =
          (GLubyte)CTX::instance()->unpackBlue(col);
        color[i*4*4+3] = color[i*4*4+7] = color[i*4*4+11] = color[i*4*4+15] =
          (GLubyte)CTX::instance()->unpackAlpha(col);
        vertex[i*3*4+0] = xmin + i * box;
        vertex[i*3*4+1] = ymin;
        vertex[i*3*4+2] = 0.;
        vertex[i*3*4+3] = xmin + i * box;
        vertex[i*3*4+4] = ymin + dh;
        vertex[i*3*4+5] = 0.;
        vertex[i*3*4+6] = xmin + (i + 1) * box;
        vertex[i*3*4+7] = ymin;
        vertex[i*3*4+8] = 0.;
        vertex[i*3*4+9] = xmin + (i + 1) * box;
        vertex[i*3*4+10] = ymin + dh;
        vertex[i*3*4+11] = 0.;
      }
    }

    glVertexPointer(3, GL_FLOAT, 0, &vertex[0]);
    glEnableClientState(GL_VERTEX_ARRAY);
    glColorPointer(4, GL_UNSIGNED_BYTE, 0, &color[0]);
    glEnableClientState(GL_COLOR_ARRAY);
    if(opt->intervalsType == PViewOptions::Discrete ||
       opt->intervalsType == PViewOptions::Numeric ||
       opt->intervalsType == PViewOptions::Continuous)
      glDrawArrays(GL_TRIANGLE_STRIP, 0, opt->nbIso*4);
    else
      glDrawArrays(GL_LINES, 0, opt->nbIso*4);
    glDisableClientState(GL_COLOR_ARRAY);
    glDisableClientState(GL_VERTEX_ARRAY);

    char label[1024];
    int nt = data->getNumTimeSteps();
    if((opt->showTime == 1 && nt > 1) || opt->showTime == 2){
      char tmp[256];
      sprintf(tmp, opt->format.c_str(), data->getTime(opt->timeStep));
      sprintf(label, "%s (%s)", data->getName().c_str(), tmp);
    }
    else if((opt->showTime == 3 && nt > 1) || opt->showTime == 4){
      sprintf(label, "%s (%d/%d)", data->getName().c_str(), opt->timeStep,
              data->getNumTimeSteps() - 1);
    }
    else{
      sprintf(label, "%s", data->getName().c_str());
    }
    drawString lbl(label, 20 * _fontFactor);
    lbl.draw(xmin + width / 2, ymin + 2.8 * dh, 0.,
             _width/(_right-_left), _height/(_top-_bottom));

    drawString val(data->getName().c_str(), 15 * _fontFactor);
    for(int i = 0; i < 3; i++) {
      double v = opt->getScaleValue(i, 3, opt->tmpMin, opt->tmpMax);
      sprintf(label, opt->format.c_str(), v);
      val.setText(label);
      val.draw(xmin + i * width/ 2, ymin + 1.5 * dh, 0.,
               _width/(_right-_left), _height/(_top-_bottom));
    }
    nPview++;
  }
  glPopMatrix();
}
Ejemplo n.º 7
0
void drawContext::drawScales()
{
  std::vector<PView*> scales;
  for(unsigned int i = 0; i < PView::list.size(); i++){
    PViewData *data = PView::list[i]->getData();
    PViewOptions *opt = PView::list[i]->getOptions();
    if(!data->getDirty() && opt->visible && opt->showScale &&
       opt->type == PViewOptions::Plot3D && data->getNumElements() &&
       isVisible(PView::list[i]))
      scales.push_back(PView::list[i]);
  }
  if(scales.empty()) return;

  drawContext::global()->setFont(CTX::instance()->glFontEnum,
                                 CTX::instance()->glFontSize);
  char label[1024];
  double maxw = 0.;
  for(unsigned int i = 0; i < scales.size(); i++) {
    PViewOptions *opt = scales[i]->getOptions();
    sprintf(label, opt->format.c_str(), -M_PI * 1.e-4);
    maxw = std::max(maxw, drawContext::global()->getStringWidth(label));
  }

  const double tic = 10., bar_size = 16.;
  double width = 0., width_prev = 0., width_total = 0.;

  for(unsigned int i = 0; i < scales.size(); i++) {
    PView *p = scales[i];
    PViewData *data = p->getData();
    PViewOptions *opt = p->getOptions();

    if(!opt->autoPosition) {
      double w = opt->size[0], h = opt->size[1];
      double x = opt->position[0], y = opt->position[1] - h;
      int c = fix2dCoordinates(&x, &y);
      if(c & 1) x -= w / 2.;
      if(c & 2) y += h / 2.;
      drawScale(this, p, x, y, w, h, tic, CTX::instance()->post.horizontalScales);
    }
    else if(CTX::instance()->post.horizontalScales){
      double ysep = 20.;
      double xc = (viewport[2] - viewport[0]) / 2.;
      if(scales.size() == 1){
        double w = (viewport[2] - viewport[0]) / 2., h = bar_size;
        double x = xc - w / 2., y = viewport[1] + ysep;
        drawScale(this, p, x, y, w, h, tic, 1);
      }
      else{
        double xsep = maxw / 4. + (viewport[2] - viewport[0]) / 10.;
        double w = (viewport[2] - viewport[0] - 4 * xsep) / 2.;
        if(w < 20.) w = 20.;
        double h = bar_size;
        double x = xc - (i % 2 ? -xsep / 1.5 : w + xsep / 1.5);
        double y = viewport[1] + ysep +
          (i / 2) * (bar_size + tic +
                     2 * drawContext::global()->getStringHeight() + ysep);
        drawScale(this, p, x, y, w, h, tic, 1);
      }
    }
    else{
      double xsep = 20.;
      double dy = 2. * drawContext::global()->getStringHeight();
      if(scales.size() == 1){
        double ysep = (viewport[3] - viewport[1]) / 6.;
        double w = bar_size, h = viewport[3] - viewport[1] - 2 * ysep - dy;
        double x = viewport[0] + xsep, y = viewport[1] + ysep + dy;
        drawScale(this, p, x, y, w, h, tic, 0);
      }
      else{
        double ysep = (viewport[3] - viewport[1]) / 15.;
        double w = bar_size;
        double h = (viewport[3] - viewport[1] - 3 * ysep - 2.5 * dy) / 2.;
        double x = viewport[0] + xsep + width_total + (i / 2) * xsep;
        double y = viewport[1] + ysep + dy + (1 - i % 2) * (h + 1.5 * dy + ysep);
        drawScale(this, p, x, y, w, h, tic, 0);
      }
      // compute width
      width_prev = width;
      sprintf(label, opt->format.c_str(), -M_PI * 1.e-4);
      width = bar_size + tic + drawContext::global()->getStringWidth(label);
      if(opt->showTime){
        char tmp[256];
        sprintf(tmp, opt->format.c_str(), data->getTime(opt->timeStep));
        sprintf(label, "%s (%s)", data->getName().c_str(), tmp);
      }
      else
        sprintf(label, "%s", data->getName().c_str());
      width = std::max(width, drawContext::global()->getStringWidth(label));
      if(i % 2) width_total += std::max(bar_size + width, bar_size + width_prev);
    }
  }
}
Ejemplo n.º 8
0
PView *GMSH_MinMaxPlugin::execute(PView * v)
{
  int iView = (int)MinMaxOptions_Number[0].def;
  int overTime = (int)MinMaxOptions_Number[1].def;
  int argument = (int)MinMaxOptions_Number[2].def;

  PView *v1 = getView(iView, v);
  if(!v1) return v;

  PViewData *data1 = v1->getData(true);
  PView *vMin = new PView();
  PView *vMax = new PView();
  PViewDataList *dataMin = getDataList(vMin);
  PViewDataList *dataMax = getDataList(vMax);

  if(!argument){
    double x = data1->getBoundingBox().center().x();
    double y = data1->getBoundingBox().center().y();
    double z = data1->getBoundingBox().center().z();
    dataMin->SP.push_back(x); dataMin->SP.push_back(y); dataMin->SP.push_back(z);
    dataMax->SP.push_back(x); dataMax->SP.push_back(y); dataMax->SP.push_back(z);
    dataMin->NbSP = 1;
    dataMax->NbSP = 1;
  }

  double min=VAL_INF, max=-VAL_INF, timeMin=0, timeMax=0;

  for(int step = 0; step < data1->getNumTimeSteps(); step++){
    if(data1->hasTimeStep(step)){

      double minView = VAL_INF, maxView = -VAL_INF;
      double xmin = 0., ymin = 0., zmin = 0., xmax = 0., ymax = 0., zmax = 0.;
      for(int ent = 0; ent < data1->getNumEntities(step); ent++){
	for(int ele = 0; ele < data1->getNumElements(step, ent); ele++){
	  for(int nod = 0; nod < data1->getNumNodes(step, ent, ele); nod++){
	    double val;
	    data1->getScalarValue(step, ent, ele, nod, val);
	    if(val < minView){
	      data1->getNode(step, ent, ele, nod, xmin, ymin, zmin);
	      minView = val;
	    }
	    if(val > maxView){
	      data1->getNode(step, ent, ele, nod, xmax, ymax, zmax);
	      maxView = val;
	    }
	  }
	}
      }

      if(!overTime){
	if(argument){
	  dataMin->SP.push_back(xmin); dataMin->SP.push_back(ymin); dataMin->SP.push_back(zmin);
	  dataMax->SP.push_back(xmax); dataMax->SP.push_back(ymax); dataMax->SP.push_back(zmax);
	  (dataMin->NbSP)++;
	  (dataMax->NbSP)++;
	}
        else{
          double time = data1->getTime(step);
          dataMin->Time.push_back(time);
          dataMax->Time.push_back(time);
        }
	dataMin->SP.push_back(minView);
	dataMax->SP.push_back(maxView);
      }
      else{
	if(minView < min){
	  min = minView;
	  timeMin = data1->getTime(step);
	}
	if(maxView > max){
	  max = maxView;
	  timeMax = data1->getTime(step);
	}
      }
    }
  }

  if(overTime){
    dataMin->SP.push_back(min);
    dataMax->SP.push_back(max);
    dataMin->Time.push_back(timeMin);
    dataMax->Time.push_back(timeMax);
  }

  vMin->getOptions()->intervalsType = PViewOptions::Numeric;
  vMax->getOptions()->intervalsType = PViewOptions::Numeric;

  dataMin->setName(data1->getName() + "_Min");
  dataMin->setFileName(data1->getName() + "_Min.pos");
  dataMin->finalize();
  dataMax->setName(data1->getName() + "_Max");
  dataMax->setFileName(data1->getName() + "_Max.pos");
  dataMax->finalize();

  return 0;
}
Ejemplo n.º 9
0
void PView::combine(bool time, int how, bool remove)
{
  // time == true: combine the timesteps (oherwise combine the elements)
  // how == 0: try to combine all visible views
  //        1: try to combine all views
  //        2: try to combine all views having identical names

  std::vector<nameData> nds;
  for(unsigned int i = 0; i < list.size(); i++) {
    PView *p = list[i];
    PViewData *data = p->getData();
    if(how || p->getOptions()->visible) {
      nameData nd;
      // this will lead to weird results if there are views named
      // "__all__" or "__vis__" :-)
      if(how == 2)
        nd.name = data->getName();
      else if(how == 1)
        nd.name = "__all__";
      else
        nd.name = "__vis__";
      unsigned int j = 0;
      while(j < nds.size()){
        if(nds[j].name == nd.name){
          nds[j].data.push_back(data);
          nds[j].indices.push_back(i);
          break;
        }
        j++;
      }
      if(j == nds.size()){
        nd.data.push_back(data);
        nd.indices.push_back(i);
        nds.push_back(nd);
      }
    }
  }

  std::set<PView*> rm;
  for(unsigned int i = 0; i < nds.size(); i++){
    if(nds[i].data.size() > 1){ // there's potentially something to combine
      // sanity checks:
      bool allListBased = true, allModelBased = true;
      for(unsigned int j = 0; j < nds[i].data.size(); j++){
        PViewDataList *d1 = dynamic_cast<PViewDataList*>(nds[i].data[j]);
        if(!d1) allListBased = false;
        PViewDataGModel *d2 = dynamic_cast<PViewDataGModel*>(nds[i].data[j]);
        if(!d2) allModelBased = false;
      }
      PViewData *data = 0;
      if(allListBased){
        data = new PViewDataList();
      }
      else if(allModelBased){
        PViewDataGModel *d2 = dynamic_cast<PViewDataGModel*>(nds[i].data[0]);
        data = new PViewDataGModel(d2->getType());
      }
      else{
        Msg::Error("Cannot combine hybrid list/mesh-based datasets");
        continue;
      }
      PView *p = new PView(data);
      bool res = time ? data->combineTime(nds[i]) : data->combineSpace(nds[i]);
      if(res){
        for(unsigned int j = 0; j < nds[i].indices.size(); j++)
          rm.insert(list[nds[i].indices[j]]);
        PViewOptions *opt = p->getOptions();
        if(opt->adaptVisualizationGrid){
          // the (empty) adaptive data created in PView() must be
          // recreated, since we added some data
          data->destroyAdaptiveData();
          data->initAdaptiveData
            (opt->timeStep, opt->maxRecursionLevel, opt->targetError);
        }
      }
      else
        delete p;
    }
  }
  if(remove)
    for(std::set<PView*>::iterator it = rm.begin(); it != rm.end(); it++)
      delete *it;
}