Esempio n. 1
0
void
HeightMatrix::Fill(const RasterMap &map, const WindowProjection &projection,
                   unsigned quantisation_pixels, bool interpolate)
{
  const unsigned screen_width = projection.GetScreenWidth();
  const unsigned screen_height = projection.GetScreenHeight();

  SetSize((screen_width + quantisation_pixels - 1) / quantisation_pixels,
          (screen_height + quantisation_pixels - 1) / quantisation_pixels);

  minimum = 0x7fff;
  maximum = 0;

  for (unsigned y = 0; y < screen_height; y += quantisation_pixels) {
    const FastRowRotation rotation =
      projection.GetScreenAngleRotation(y - projection.GetScreenOrigin().y);

    short *p = data.begin() + y * width / quantisation_pixels;

    for (unsigned x = 0; x < screen_width; x += quantisation_pixels) {
#ifndef SLOW_TERRAIN_STUFF
      const FastRowRotation::Pair r =
        rotation.Rotate(x - projection.GetScreenOrigin().x);

      GeoPoint gp;
       gp.Latitude = projection.GetGeoLocation().Latitude
         - projection.PixelsToAngle(r.second);
       gp.Longitude = projection.GetGeoLocation().Longitude
         + projection.PixelsToAngle(r.first)
        * gp.Latitude.invfastcosine();
#else
      GeoPoint gp = projection.ScreenToGeo(x, y);
#endif

      short h = interpolate ? map.GetFieldInterpolated(gp) : map.GetField(gp);
      if (!RasterBuffer::is_special(h)) {
        if (h < minimum)
          minimum = h;
        if (h > maximum)
          maximum = h;
      }

      *p++ = h;
    }

    assert(p <= data.end());
  }
}
Esempio n. 2
0
void
ApplyProjection(const WindowProjection &projection, const GeoPoint &reference)
{
  fixed angle = projection.GetScreenAngle().Degrees();
  fixed scale = projection.GetScale();
  const RasterPoint &screen_origin = projection.GetScreenOrigin();
  const GeoPoint &screen_location = projection.GetGeoLocation();
  const GeoPoint projection_delta = reference - screen_location;

  const fixed scale_r = scale * FAISphere::REARTH;
  const fixed scale_x = scale_r * screen_location.latitude.fastcosine();
  const fixed scale_y = -scale_r;

#ifdef HAVE_GLES
#ifdef FIXED_MATH
  GLfixed fixed_angle = angle.as_glfixed();
#else
  GLfixed fixed_angle = angle * (1<<16);
#endif
  glTranslatex((int)screen_origin.x << 16, (int)screen_origin.y << 16, 0);
  glRotatex(fixed_angle, 0, 0, -(1<<16));
#else
  glTranslatef(screen_origin.x, screen_origin.y, 0.);
  glRotatef((GLfloat)angle, 0., 0., -1.);
#endif

  glScalef(GLfloat(scale_x), GLfloat(scale_y), 1.);
  glTranslatef(GLfloat(projection_delta.longitude.Native()),
               GLfloat(projection_delta.latitude.Native()),
               0.);
}
Esempio n. 3
0
glm::mat4
ToGLM(const WindowProjection &projection, const GeoPoint &reference)
{
  fixed angle = projection.GetScreenAngle().Degrees();
  fixed scale = projection.GetScale();
  const RasterPoint &screen_origin = projection.GetScreenOrigin();
  const GeoPoint &screen_location = projection.GetGeoLocation();
  const GeoPoint projection_delta = reference - screen_location;

  const fixed scale_r = scale * FAISphere::REARTH;
  const fixed scale_x = scale_r * screen_location.latitude.fastcosine();
  const fixed scale_y = -scale_r;

  const glm::vec3 scale_vec(GLfloat(scale_x), GLfloat(scale_y), 1);

  glm::mat4 matrix = glm::scale(glm::rotate(glm::translate(glm::mat4(),
                                                           glm::vec3(screen_origin.x,
                                                                     screen_origin.y,
                                                                     0)),
                                            GLfloat(angle),
                                            glm::vec3(0, 0, -1)),
                                scale_vec);
  matrix = glm::translate(matrix,
                          glm::vec3(GLfloat(projection_delta.longitude.Native()),
                                    GLfloat(projection_delta.latitude.Native()),
                                    0.));
  return matrix;
}
Esempio n. 4
0
void
TopographyFileRenderer::PaintLabels(Canvas &canvas,
                                    const WindowProjection &projection,
                                    LabelBlock &label_block)
{
  if (file.IsEmpty())
    return;

  fixed map_scale = projection.GetMapScale();
  if (!file.IsVisible(map_scale) || !file.IsLabelVisible(map_scale))
    return;

  UpdateVisibleShapes(projection);

  if (visible_labels.empty())
    return;

  // TODO code: only draw inside screen!
  // this will save time with rendering pixmaps especially
  // we already do an outer visibility test, but may need a test
  // in screen coords

  canvas.Select(file.IsLabelImportant(map_scale) ?
                Fonts::map_label_important : Fonts::map_label);
  canvas.SetTextColor(Color(0x20, 0x20, 0x20));
  canvas.SetBackgroundTransparent();

  // get drawing info

  int iskip = file.GetSkipSteps(map_scale);

#ifdef ENABLE_OPENGL
  Matrix2D m1;
  m1.Translate(projection.GetScreenOrigin());
  m1.Rotate(projection.GetScreenAngle());
  m1.Scale(projection.GetScale());
#endif

  // Iterate over all shapes in the file
  for (auto it = visible_labels.begin(), end = visible_labels.end();
       it != end; ++it) {
    const XShape &shape = **it;

    if (!projection.GetScreenBounds().Overlaps(shape.get_bounds()))
      continue;

    // Skip shapes without a label
    const TCHAR *label = shape.get_label();
    if (label == NULL)
      continue;

    const unsigned short *lines = shape.get_lines();
    const unsigned short *end_lines = lines + shape.get_number_of_lines();
#ifdef ENABLE_OPENGL
    const ShapePoint *points = shape.get_points();

    Matrix2D m2(m1);
    m2.Translatex(shape.shape_translation(projection.GetGeoLocation()));
#else
    const GeoPoint *points = shape.get_points();
#endif

    for (; lines < end_lines; ++lines) {
      int minx = canvas.get_width();
      int miny = canvas.get_height();

#ifdef ENABLE_OPENGL
      const ShapePoint *end = points + *lines;
#else
      const GeoPoint *end = points + *lines;
#endif
      for (; points < end; points += iskip) {
#ifdef ENABLE_OPENGL
        RasterPoint pt = m2.Apply(*points);
#else
        RasterPoint pt = projection.GeoToScreen(*points);
#endif

        if (pt.x <= minx) {
          minx = pt.x;
          miny = pt.y;
        }
      }

      points = end;

      minx += 2;
      miny += 2;

      PixelSize tsize = canvas.CalcTextSize(label);
      PixelRect brect;
      brect.left = minx;
      brect.right = brect.left + tsize.cx;
      brect.top = miny;
      brect.bottom = brect.top + tsize.cy;

      if (!label_block.check(brect))
        continue;

      canvas.text(minx, miny, label);
    }
  }
}
Esempio n. 5
0
void
TopographyFileRenderer::Paint(Canvas &canvas,
                              const WindowProjection &projection)
{
  if (file.IsEmpty())
    return;

  fixed map_scale = projection.GetMapScale();
  if (!file.IsVisible(map_scale))
    return;

  UpdateVisibleShapes(projection);

  if (visible_shapes.empty())
    return;

  // TODO code: only draw inside screen!
  // this will save time with rendering pixmaps especially
  // we already do an outer visibility test, but may need a test
  // in screen coords

#ifdef ENABLE_OPENGL
  pen.Set();
  brush.Set();
#else
  shape_renderer.Configure(&pen, &brush);
#endif

  // get drawing info

#ifdef ENABLE_OPENGL
  const unsigned level = file.GetThinningLevel(map_scale);
  const unsigned min_distance = file.GetMinimumPointDistance(level)
    / Layout::Scale(1);

#ifndef HAVE_GLES
  float opengl_matrix[16];
  glGetFloatv(GL_MODELVIEW_MATRIX, opengl_matrix);
#endif

  glPushMatrix();
  fixed angle = projection.GetScreenAngle().Degrees();
  fixed scale = projection.GetScale();
  const RasterPoint &screen_origin = projection.GetScreenOrigin();
#ifdef HAVE_GLES
#ifdef FIXED_MATH
  GLfixed fixed_angle = angle.as_glfixed();
  GLfixed fixed_scale = scale.as_glfixed_scale();
#else
  GLfixed fixed_angle = angle * (1<<16);
  GLfixed fixed_scale = scale * (1LL<<32);
#endif
  glTranslatex((int)screen_origin.x << 16, (int)screen_origin.y << 16, 0);
  glRotatex(fixed_angle, 0, 0, -(1<<16));
  glScalex(fixed_scale, fixed_scale, 1<<16);
#else
  glTranslatef(screen_origin.x, screen_origin.y, 0.);
  glRotatef((GLfloat)angle, 0., 0., -1.);
  glScalef((GLfloat)scale, (GLfloat)scale, 1.);
#endif
#else // !ENABLE_OPENGL
  const GeoClip clip(projection.GetScreenBounds().Scale(fixed(1.1)));
  AllocatedArray<GeoPoint> geo_points;

  int iskip = file.GetSkipSteps(map_scale);
#endif

  for (auto it = visible_shapes.begin(), end = visible_shapes.end();
       it != end; ++it) {
    const XShape &shape = **it;

    if (!projection.GetScreenBounds().Overlaps(shape.get_bounds()))
      continue;

#ifdef ENABLE_OPENGL
    const ShapePoint *points = shape.get_points();

    const ShapePoint translation =
      shape.shape_translation(projection.GetGeoLocation());
    glPushMatrix();
#ifdef HAVE_GLES
    glTranslatex(translation.x, translation.y, 0);
#else
    glTranslatef(translation.x, translation.y, 0.);
#endif
#else // !ENABLE_OPENGL
    const unsigned short *lines = shape.get_lines();
    const unsigned short *end_lines = lines + shape.get_number_of_lines();
    const GeoPoint *points = shape.get_points();
#endif

    switch (shape.get_type()) {
    case MS_SHAPE_NULL:
      break;

    case MS_SHAPE_POINT:
#ifdef ENABLE_OPENGL
#ifdef HAVE_GLES
      PaintPoint(canvas, projection, shape, NULL);
#else
      PaintPoint(canvas, projection, shape, opengl_matrix);
#endif
#else // !ENABLE_OPENGL
      PaintPoint(canvas, projection, lines, end_lines, points);
#endif
      break;

    case MS_SHAPE_LINE:
      {
#ifdef ENABLE_OPENGL
#ifdef HAVE_GLES
        glVertexPointer(2, GL_FIXED, 0, &points[0].x);
#else
        glVertexPointer(2, GL_INT, 0, &points[0].x);
#endif

        const GLushort *indices, *count;
        if (level == 0 ||
            (indices = shape.get_indices(level, min_distance, count)) == NULL) {
          count = shape.get_lines();
          const GLushort *end_count = count + shape.get_number_of_lines();
          for (int offset = 0; count < end_count; offset += *count++)
            glDrawArrays(GL_LINE_STRIP, offset, *count);
        } else {
          const GLushort *end_count = count + shape.get_number_of_lines();
          for (; count < end_count; indices += *count++)
            glDrawElements(GL_LINE_STRIP, *count, GL_UNSIGNED_SHORT, indices);
        }
#else // !ENABLE_OPENGL
      for (; lines < end_lines; ++lines) {
        unsigned msize = *lines;
        shape_renderer.Begin(msize);

        const GeoPoint *end = points + msize - 1;
        for (; points < end; ++points)
          shape_renderer.AddPointIfDistant(projection.GeoToScreen(*points));

        // make sure we always draw the last point
        shape_renderer.AddPoint(projection.GeoToScreen(*points));

        shape_renderer.FinishPolyline(canvas);
      }
#endif
      }
      break;

    case MS_SHAPE_POLYGON:
#ifdef ENABLE_OPENGL
      {
        const GLushort *index_count;
        const GLushort *triangles = shape.get_indices(level, min_distance,
                                                        index_count);

#ifdef HAVE_GLES
        glVertexPointer(2, GL_FIXED, 0, &points[0].x);
#else
        glVertexPointer(2, GL_INT, 0, &points[0].x);
#endif
        glDrawElements(GL_TRIANGLE_STRIP, *index_count, GL_UNSIGNED_SHORT,
                       triangles);
      }
#else // !ENABLE_OPENGL
      for (; lines < end_lines; ++lines) {
        unsigned msize = *lines / iskip;

        /* copy all polygon points into the geo_points array and clip
           them, to avoid integer overflows (as RasterPoint may store
           only 16 bit integers on some platforms) */

        geo_points.GrowDiscard(msize * 3);

        for (unsigned i = 0; i < msize; ++i)
          geo_points[i] = points[i * iskip];

        msize = clip.ClipPolygon(geo_points.begin(),
                                 geo_points.begin(), msize);
        if (msize < 3)
          continue;

        shape_renderer.Begin(msize);

        for (unsigned i = 0; i < msize; ++i) {
          GeoPoint g = geo_points[i];
          shape_renderer.AddPointIfDistant(projection.GeoToScreen(g));
        }

        shape_renderer.FinishPolygon(canvas);
      }
#endif
      break;
    }
#ifdef ENABLE_OPENGL
    glPopMatrix();
#endif
  }
#ifdef ENABLE_OPENGL
  glPopMatrix();
#else
  shape_renderer.Commit();
#endif
}