Example #1
0
void
AndroidGeckoLayerClient::SyncFrameMetrics(const gfx::Point& aScrollOffset, float aZoom, const gfx::Rect& aCssPageRect,
                                          bool aLayersUpdated, const gfx::Rect& aDisplayPort, float aDisplayResolution,
                                          bool aIsFirstPaint, gfx::Margin& aFixedLayerMargins, gfx::Point& aOffset)
{
    NS_ASSERTION(!isNull(), "SyncFrameMetrics called on null layer client!");
    JNIEnv *env = GetJNIForThread();    // this is called on the compositor thread
    if (!env)
        return;

    AutoLocalJNIFrame jniFrame(env);

    // convert the displayport rect from scroll-relative CSS pixels to document-relative device pixels
    int dpX = NS_lround((aDisplayPort.x * aDisplayResolution) + aScrollOffset.x);
    int dpY = NS_lround((aDisplayPort.y * aDisplayResolution) + aScrollOffset.y);
    int dpW = NS_lround(aDisplayPort.width * aDisplayResolution);
    int dpH = NS_lround(aDisplayPort.height * aDisplayResolution);

    jobject viewTransformJObj = env->CallObjectMethod(wrapped_obj, jSyncFrameMetricsMethod,
            aScrollOffset.x, aScrollOffset.y, aZoom,
            aCssPageRect.x, aCssPageRect.y, aCssPageRect.XMost(), aCssPageRect.YMost(),
            aLayersUpdated, dpX, dpY, dpW, dpH, aDisplayResolution,
            aIsFirstPaint);

    if (jniFrame.CheckForException())
        return;

    NS_ABORT_IF_FALSE(viewTransformJObj, "No view transform object!");

    AndroidViewTransform viewTransform;
    viewTransform.Init(viewTransformJObj);
    viewTransform.GetFixedLayerMargins(env, aFixedLayerMargins);
    aOffset.x = viewTransform.GetOffsetX(env);
    aOffset.y = viewTransform.GetOffsetY(env);
}
Example #2
0
static void rectgrid(ui::Graphics* g, const gfx::Rect& rc, const gfx::Size& tile)
{
  if (tile.w < 1 || tile.h < 1)
    return;

  int x, y, u, v;
  gfx::Color c1 = gfx::rgba(128, 128, 128);
  gfx::Color c2 = gfx::rgba(192, 192, 192);

  u = 0;
  v = 0;
  for (y=rc.y; y<rc.y2()-tile.h; y+=tile.h) {
    for (x=rc.x; x<rc.x2()-tile.w; x+=tile.w)
      g->fillRect(((u++)&1)? c1: c2, gfx::Rect(x, y, tile.w, tile.h));

    if (x < rc.x2())
      g->fillRect(((u++)&1)? c1: c2, gfx::Rect(x, y, rc.x2()-x, tile.h));

    u = (++v);
  }

  if (y < rc.y2()) {
    for (x=rc.x; x<rc.x2()-tile.w; x+=tile.w)
      g->fillRect(((u++)&1)? c1: c2, gfx::Rect(x, y, tile.w, rc.y2()-y));

    if (x < rc.x2())
      g->fillRect(((u++)&1)? c1: c2, gfx::Rect(x, y, rc.x2()-x, rc.y2()-y));
  }
}
Example #3
0
static void
DrawSurfaceWithTextureCoords(DrawTarget *aDest,
                             const gfx::Rect& aDestRect,
                             SourceSurface *aSource,
                             const gfx::Rect& aTextureCoords,
                             gfx::Filter aFilter,
                             float aOpacity,
                             SourceSurface *aMask,
                             const Matrix* aMaskTransform)
{
  // Convert aTextureCoords into aSource's coordinate space
  gfxRect sourceRect(aTextureCoords.x * aSource->GetSize().width,
                     aTextureCoords.y * aSource->GetSize().height,
                     aTextureCoords.width * aSource->GetSize().width,
                     aTextureCoords.height * aSource->GetSize().height);

  // Floating point error can accumulate above and we know our visible region
  // is integer-aligned, so round it out.
  sourceRect.Round();

  // Compute a transform that maps sourceRect to aDestRect.
  Matrix matrix =
    gfxUtils::TransformRectToRect(sourceRect,
                                  gfx::IntPoint(aDestRect.x, aDestRect.y),
                                  gfx::IntPoint(aDestRect.XMost(), aDestRect.y),
                                  gfx::IntPoint(aDestRect.XMost(), aDestRect.YMost()));

  // Only use REPEAT if aTextureCoords is outside (0, 0, 1, 1).
  gfx::Rect unitRect(0, 0, 1, 1);
  ExtendMode mode = unitRect.Contains(aTextureCoords) ? ExtendMode::CLAMP : ExtendMode::REPEAT;

  FillRectWithMask(aDest, aDestRect, aSource, aFilter, DrawOptions(aOpacity),
                   mode, aMask, aMaskTransform, &matrix);
}
Example #4
0
void BrowserBubble::SetAbsoluteBounds(const gfx::Rect& window_bounds)
{
    // Convert screen coordinates to frame relative.
    gfx::Point relative_origin = window_bounds.origin();
    view::View::ConvertPointToView(NULL, frame_->GetRootView(),
                                   &relative_origin);
    SetBounds(relative_origin.x(), relative_origin.y(),
              window_bounds.width(), window_bounds.height());
}
 gfx::Rect CustomFrameView::GetWindowBoundsForClientBounds(
     const gfx::Rect& client_bounds) const
 {
     int top_height = NonClientTopBorderHeight();
     int border_thickness = NonClientBorderThickness();
     return gfx::Rect(std::max(0, client_bounds.x()-border_thickness),
         std::max(0, client_bounds.y()-top_height),
         client_bounds.width()+(2*border_thickness),
         client_bounds.height()+top_height+border_thickness);
 }
void
AndroidGeckoLayerClient::SetPageRect(const gfx::Rect& aCssPageRect)
{
    NS_ASSERTION(!isNull(), "SetPageRect called on null layer client!");
    JNIEnv *env = GetJNIForThread();    // this is called on the compositor thread
    if (!env)
        return;

    AutoLocalJNIFrame jniFrame(env, 0);
    return env->CallVoidMethod(wrapped_obj, jSetPageRect,
                               aCssPageRect.x, aCssPageRect.y, aCssPageRect.XMost(), aCssPageRect.YMost());
}
Example #7
0
void
CompositorD3D9::ClearRect(const gfx::Rect& aRect)
{
  D3DRECT rect;
  rect.x1 = aRect.X();
  rect.y1 = aRect.Y();
  rect.x2 = aRect.XMost();
  rect.y2 = aRect.YMost();

  device()->Clear(1, &rect, D3DCLEAR_TARGET,
                  0x00000000, 0, 0);
}
Example #8
0
void
Compositor::DrawGeometry(const gfx::Rect& aRect,
                         const gfx::IntRect& aClipRect,
                         const EffectChain& aEffectChain,
                         gfx::Float aOpacity,
                         const gfx::Matrix4x4& aTransform,
                         const gfx::Rect& aVisibleRect,
                         const Maybe<gfx::Polygon3D>& aGeometry)
{
  if (!aGeometry) {
    DrawQuad(aRect, aClipRect, aEffectChain,
             aOpacity, aTransform, aVisibleRect);
    return;
  }

  // Cull invisible polygons.
  if (aRect.Intersect(aGeometry->BoundingBox()).IsEmpty()) {
    return;
  }

  gfx::Polygon3D clipped = aGeometry->ClipPolygon(aRect);
  nsTArray<gfx::Triangle> triangles = clipped.ToTriangles();

  for (gfx::Triangle& geometry : triangles) {
    const gfx::Rect intersection = aRect.Intersect(geometry.BoundingBox());

    // Cull invisible triangles.
    if (intersection.IsEmpty()) {
      continue;
    }

    MOZ_ASSERT(aRect.width > 0.0f && aRect.height > 0.0f);
    MOZ_ASSERT(intersection.width > 0.0f && intersection.height > 0.0f);

    gfx::TexturedTriangle triangle(Move(geometry));
    triangle.width = aRect.width;
    triangle.height = aRect.height;

    // Since the texture was created for non-split geometry, we need to
    // update the texture coordinates to account for the split.
    if (aEffectChain.mPrimaryEffect->mType == EffectTypes::RGB) {
      TexturedEffect* texturedEffect =
        static_cast<TexturedEffect*>(aEffectChain.mPrimaryEffect.get());

      UpdateTextureCoordinates(triangle, aRect, intersection,
                               texturedEffect->mTextureCoords);
    }

    DrawTriangle(triangle, aClipRect, aEffectChain,
                 aOpacity, aTransform, aVisibleRect);
  }
}
void
AndroidGeckoLayerClient::SetFirstPaintViewport(const nsIntPoint& aOffset, float aZoom, const nsIntRect& aPageRect, const gfx::Rect& aCssPageRect)
{
    NS_ASSERTION(!isNull(), "SetFirstPaintViewport called on null layer client!");
    JNIEnv *env = GetJNIForThread();    // this is called on the compositor thread
    if (!env)
        return;

    AutoLocalJNIFrame jniFrame(env, 0);
    return env->CallVoidMethod(wrapped_obj, jSetFirstPaintViewport, (float)aOffset.x, (float)aOffset.y, aZoom,
                               (float)aPageRect.x, (float)aPageRect.y, (float)aPageRect.XMost(), (float)aPageRect.YMost(),
                               aCssPageRect.x, aCssPageRect.y, aCssPageRect.XMost(), aCssPageRect.YMost());
}
Example #10
0
 bool Rect::SharesEdgeWith(const gfx::Rect& rect) const
 {
     return (y()==rect.y() && height()==rect.height() &&
         (x()==rect.right() || right()==rect.x())) ||
         (x()==rect.x() && width()==rect.width() &&
         (y()==rect.bottom() || bottom()==rect.y()));
 }
Example #11
0
void fill_rect(Image* image, const gfx::Rect& rc, color_t c)
{
  gfx::Rect clip = rc.createIntersect(image->bounds());
  if (!clip.isEmpty())
    image->fillRect(clip.x, clip.y,
      clip.x+clip.w-1, clip.y+clip.h-1, c);
}
Example #12
0
void ExtraCel::create(doc::Sprite* sprite,
                      const gfx::Rect& bounds,
                      doc::frame_t frame,
                      int opacity)
{
  ASSERT(sprite);

  if (!m_image ||
      m_image->pixelFormat() != sprite->pixelFormat() ||
      m_image->width() != bounds.w ||
      m_image->height() != bounds.h) {
    if (!m_imageBuffer)
      m_imageBuffer.reset(new doc::ImageBuffer(1));
    doc::Image* newImage = doc::Image::create(sprite->pixelFormat(),
                                              bounds.w, bounds.h,
                                              m_imageBuffer);
    m_image.reset(newImage);
  }

  if (!m_cel) {
    // Ignored fields for this cel (frame, and image index)
    m_cel.reset(new doc::Cel(doc::frame_t(0), doc::ImageRef(nullptr)));
  }

  m_cel->setPosition(bounds.getOrigin());
  m_cel->setOpacity(opacity);
  m_cel->setFrame(frame);
}
Example #13
0
ClearRect::ClearRect(Cel* cel, const gfx::Rect& bounds)
{
  app::Document* doc = static_cast<app::Document*>(cel->document());

  Image* image = (cel ? cel->image(): NULL);
  if (!image)
    return;

  m_offsetX = bounds.x - cel->x();
  m_offsetY = bounds.y - cel->y();

  gfx::Rect bounds2 =
    image->bounds().createIntersection(
      gfx::Rect(
        m_offsetX, m_offsetY,
        bounds.w, bounds.h));
  if (bounds.isEmpty())
    return;

  m_dstImage.reset(new WithImage(image));
  m_bgcolor = doc->bgColor(cel->layer());

  m_copy.reset(crop_image(image,
      bounds2.x, bounds2.y, bounds2.w, bounds2.h, m_bgcolor));
}
Example #14
0
bool CropSpriteCommand::onEnabled(Context* context)
{
  return
    context->checkFlags(
      ContextFlags::ActiveDocumentIsWritable |
      (m_bounds.isEmpty() ? ContextFlags::HasVisibleMask: 0));
}
Example #15
0
    void Label::PaintText(gfx::Canvas* canvas,
        const std::wstring& text,
        const gfx::Rect& text_bounds,
        int flags)
    {
        canvas->DrawStringInt(text, font_, color_,
            text_bounds.x(), text_bounds.y(),
            text_bounds.width(), text_bounds.height(), flags);

        if(HasFocus() || paint_as_focused_)
        {
            gfx::Rect focus_bounds = text_bounds;
            focus_bounds.Inset(-kFocusBorderPadding, -kFocusBorderPadding);
            canvas->DrawFocusRect(focus_bounds.x(), focus_bounds.y(),
                focus_bounds.width(), focus_bounds.height());
        }
    }
Example #16
0
 void Layer::DrawRegion(const ui::TextureDrawParams& params,
     const gfx::Rect& region_to_draw)
 {
     if(!region_to_draw.IsEmpty())
     {
         texture_->Draw(params, region_to_draw);
     }
 }
Example #17
0
void Graphics::fillAreaBetweenRects(gfx::Color color,
  const gfx::Rect& outer, const gfx::Rect& inner)
{
  if (!outer.intersects(inner))
    fillRect(color, outer);
  else {
    gfx::Region rgn(outer);
    rgn.createSubtraction(rgn, gfx::Region(inner));
    fillRegion(color, rgn);
  }
}
Example #18
0
Dirty::Dirty(Image* image, Image* image_diff, const gfx::Rect& bounds)
  : m_format(image->getPixelFormat())
  , m_x1(bounds.x), m_y1(bounds.y)
  , m_x2(bounds.x2()-1), m_y2(bounds.y2()-1)
{
  int y, x1, x2;

  for (y=m_y1; y<=m_y2; y++) {
    x1 = m_x1;
    x2 = m_x2;

    bool res;
    switch (image->getPixelFormat()) {
      case IMAGE_RGB:
        res = shrink_row<RgbTraits>(image, image_diff, x1, y, x2);
        break;

      case IMAGE_GRAYSCALE:
        res = shrink_row<GrayscaleTraits>(image, image_diff, x1, y, x2);
        break;

      case IMAGE_INDEXED:
        res = shrink_row<IndexedTraits>(image, image_diff, x1, y, x2);
        break;

      default:
        ASSERT(false && "Not implemented for bitmaps");
        return;
    }
    if (!res)
      continue;

    Col* col = new Col(x1, x2-x1+1);
    col->data.resize(getLineSize(col->w));

    Row* row = new Row(y);
    row->cols.push_back(col);

    m_rows.push_back(row);
  }
}
    void SingleSplitView::DidChangeBounds(const gfx::Rect& previous,
        const gfx::Rect& current)
    {
        if(resize_leading_on_bounds_change_)
        {
            // We do not update divider_offset_ on minimize (to zero) and on restore
            // (to largest value). As a result we get back to the original value upon
            // window restore.
            bool is_minimize_or_restore = previous.height()==0 ||
                current.height()==0;
            if(!is_minimize_or_restore)
            {
                if(is_horizontal_)
                {
                    divider_offset_ += (current.width() - previous.width()) / 2;
                }
                else
                {
                    divider_offset_ += (current.height() - previous.height()) / 2;
                }

                if(divider_offset_ < 0)
                {
                    divider_offset_ = kDividerSize;
                }
            }
        }

        View::DidChangeBounds(previous, current);
    }
static void paintArtifactToWebDisplayItemList(WebDisplayItemList* list, const PaintArtifact& artifact, const gfx::Rect& bounds)
{
    if (RuntimeEnabledFeatures::slimmingPaintV2Enabled()) {
        // This is a temporary path to paint the artifact using the paint chunk
        // properties. Ultimately, we should instead split the artifact into
        // separate layers and send those to the compositor, instead of sending
        // one big flat SkPicture.
        SkRect skBounds = SkRect::MakeXYWH(bounds.x(), bounds.y(), bounds.width(), bounds.height());
        RefPtr<SkPicture> picture = paintArtifactToSkPicture(artifact, skBounds);
        list->appendDrawingItem(WebRect(bounds.x(), bounds.y(), bounds.width(), bounds.height()), picture.get());
        return;
    }
    artifact.appendToWebDisplayItemList(list);
}
Example #21
0
static void replace_color(Image* image, const gfx::Rect& bounds, int src_color, int tolerance, void *data, AlgoHLine proc)
{
  typename ImageTraits::address_t address;

  for (int y=bounds.y; y<bounds.y2(); ++y) {
    address = reinterpret_cast<typename ImageTraits::address_t>(image->getPixelAddress(bounds.x, y));

    for (int x=bounds.x; x<bounds.x2(); ++x, ++address) {
      int right = -1;

      if (color_equal<ImageTraits>((int)(*address), src_color, tolerance)) {
        ++address;
        for (right=x+1; right<bounds.x2(); ++right, ++address) {
          if (!color_equal<ImageTraits>((int)(*address), src_color, tolerance))
            break;
        }
        (*proc)(x, y, right-1, data);
        x = right;
      }
    }
  }
}
Example #22
0
void BackgroundRule::onPaint(ui::Graphics* g, const gfx::Rect& bounds, const char* text)
{
    SkinTheme* theme = static_cast<SkinTheme*>(ui::CurrentTheme::get());

    if (m_part && m_part->countBitmaps() > 0) {
        if (m_part->countBitmaps() == 1) {
            if (!gfx::is_transparent(m_color))
                g->fillRect(m_color, bounds);

            she::Surface* bmp = m_part->bitmap(0);

            if (m_repeat == BackgroundRepeat::NO_REPEAT) {
                g->drawRgbaSurface(bmp, bounds.x, bounds.y);
            }
            else {
                ui::IntersectClip clip(g, bounds);
                if (!clip)
                    return;

                for (int y=bounds.y; y<bounds.y2(); y+=bmp->height()) {
                    for (int x=bounds.x; x<bounds.x2(); x+=bmp->width()) {
                        g->drawRgbaSurface(bmp, x, y);
                        if (m_repeat == BackgroundRepeat::REPEAT_Y)
                            break;
                    }
                    if (m_repeat == BackgroundRepeat::REPEAT_X)
                        break;
                }
            }
        }
        else if (m_part->countBitmaps() == 8) {
            theme->drawRect(g, bounds, m_part.get(), m_color);
        }
    }
    else if (!gfx::is_transparent(m_color)) {
        g->fillRect(m_color, bounds);
    }
}
Example #23
0
gfx::Rect GetMonitorBoundsForRect(const gfx::Rect& rect)
{
    RECT p_rect = rect.ToRECT();
    HMONITOR monitor = MonitorFromRect(&p_rect, MONITOR_DEFAULTTONEAREST);
    if(monitor)
    {
        MONITORINFO mi = { 0 };
        mi.cbSize = sizeof(mi);
        GetMonitorInfo(monitor, &mi);
        return gfx::Rect(mi.rcWork);
    }
    NOTREACHED();
    return gfx::Rect();
}
Example #24
0
void
CompositorD3D11::ClearRect(const gfx::Rect& aRect)
{
  mContext->OMSetBlendState(mAttachments->mDisabledBlendState, sBlendFactor, 0xFFFFFFFF);

  Matrix4x4 identity;
  memcpy(&mVSConstants.layerTransform, &identity._11, 64);

  mVSConstants.layerQuad = aRect;
  mVSConstants.renderTargetOffset[0] = 0;
  mVSConstants.renderTargetOffset[1] = 0;
  mPSConstants.layerOpacity[0] = 1.0f;

  D3D11_RECT scissor;
  scissor.left = aRect.x;
  scissor.right = aRect.XMost();
  scissor.top = aRect.y;
  scissor.bottom = aRect.YMost();
  mContext->RSSetScissorRects(1, &scissor);
  mContext->IASetPrimitiveTopology(D3D11_PRIMITIVE_TOPOLOGY_TRIANGLESTRIP);
  mContext->VSSetShader(mAttachments->mVSQuadShader[MaskType::MaskNone], nullptr, 0);

  mContext->PSSetShader(mAttachments->mSolidColorShader[MaskType::MaskNone], nullptr, 0);
  mPSConstants.layerColor[0] = 0;
  mPSConstants.layerColor[1] = 0;
  mPSConstants.layerColor[2] = 0;
  mPSConstants.layerColor[3] = 0;

  if (!UpdateConstantBuffers()) {
    NS_WARNING("Failed to update shader constant buffers");
    return;
  }

  mContext->Draw(4, 0);

  mContext->OMSetBlendState(mAttachments->mPremulBlendState, sBlendFactor, 0xFFFFFFFF);
}
Example #25
0
void IconRule::onPaint(ui::Graphics* g, const gfx::Rect& bounds, const char* text)
{
    she::Surface* bmp = m_part->bitmap(0);
    int x, y;

    if (m_align & ui::RIGHT)
        x = bounds.x2() - bmp->width();
    else if (m_align & ui::CENTER)
        x = bounds.x + bounds.w/2 - bmp->width()/2;
    else
        x = bounds.x;

    if (m_align & ui::BOTTOM)
        y = bounds.y2() - bmp->height();
    else if (m_align & ui::MIDDLE)
        y = bounds.y + bounds.h/2 - bmp->height()/2;
    else
        y = bounds.y;

    x += m_x;
    y += m_y;

    g->drawRgbaSurface(bmp, x, y);
}
        void DesktopWindowManager::UpdateWindowsAfterScreenSizeChanged(
            const gfx::Rect& new_size)
        {
            for(std::vector<Widget*>::iterator i=toplevels_.begin();
                i!=toplevels_.end(); ++i)
            {
                Widget* toplevel = *i;
                if(!toplevel->IsMaximized())
                {
                    continue;
                }

                // If the window is maximized, then resize it!
                toplevel->SetSize(new_size.size());
            }
        }
Example #27
0
void Tabs::drawTab(Graphics* g, const gfx::Rect& box, Tab* tab, int y_delta, bool selected)
{
  // Is the tab outside the bounds of the widget?
  if (box.x >= getBounds().x2() || box.x2() <= getBounds().x)
    return;

  SkinTheme* theme = static_cast<SkinTheme*>(this->getTheme());
  gfx::Color text_color;
  gfx::Color face_color;

  // Selected
  if (selected) {
    text_color = theme->getColor(ThemeColor::TabSelectedText);
    face_color = theme->getColor(ThemeColor::TabSelectedFace);
  }
  // Non-selected
  else {
    text_color = theme->getColor(ThemeColor::TabNormalText);
    face_color = theme->getColor(ThemeColor::TabNormalFace);
  }

  if (box.w > 2) {
    theme->draw_bounds_nw(g,
                          gfx::Rect(box.x, box.y+y_delta, box.w, box.h),
                          (selected) ? PART_TAB_SELECTED_NW:
                                       PART_TAB_NORMAL_NW,
                          face_color);

    g->drawString(tab->text, text_color, gfx::ColorNone,
      gfx::Point(
        box.x + 4*jguiscale(),
        box.y + box.h/2 - getFont()->height()/2+1 + y_delta));
  }

  if (selected) {
    theme->draw_bounds_nw(g,
      gfx::Rect(box.x, box.y2(), box.w, getBounds().y2()-box.y2()),
      PART_TAB_BOTTOM_SELECTED_NW,
      theme->getColor(ThemeColor::TabSelectedFace));
  }
  else {
    theme->draw_part_as_hline(g,
      gfx::Rect(box.x, box.y2(), box.w, getBounds().y2()-box.y2()),
      PART_TAB_BOTTOM_NORMAL);
  }

#ifdef CLOSE_BUTTON_IN_EACH_TAB
  she::Surface* close_icon = theme->get_part(PART_WINDOW_CLOSE_BUTTON_NORMAL);
  g->drawRgbaSurface(close_icon,
    box.x2() - 4*jguiscale() - close_icon->width(),
    box.y + box.h/2 - close_icon->height()/2+1 * jguiscale());
#endif
}
Example #28
0
bool
VRDisplayOpenVR::SubmitFrame(void* aTextureHandle,
                             ::vr::ETextureType aTextureType,
                             const IntSize& aSize,
                             const gfx::Rect& aLeftEyeRect,
                             const gfx::Rect& aRightEyeRect)
{
  MOZ_ASSERT(mSubmitThread->GetThread() == NS_GetCurrentThread());
  if (!mIsPresenting) {
    return false;
  }

  ::vr::Texture_t tex;
  tex.handle = aTextureHandle;
  tex.eType = aTextureType;
  tex.eColorSpace = ::vr::EColorSpace::ColorSpace_Auto;

  ::vr::VRTextureBounds_t bounds;
  bounds.uMin = aLeftEyeRect.X();
  bounds.vMin = 1.0 - aLeftEyeRect.Y();
  bounds.uMax = aLeftEyeRect.XMost();
  bounds.vMax = 1.0 - aLeftEyeRect.YMost();

  ::vr::EVRCompositorError err;
  err = mVRCompositor->Submit(::vr::EVREye::Eye_Left, &tex, &bounds);
  if (err != ::vr::EVRCompositorError::VRCompositorError_None) {
    printf_stderr("OpenVR Compositor Submit() failed.\n");
  }

  bounds.uMin = aRightEyeRect.X();
  bounds.vMin = 1.0 - aRightEyeRect.Y();
  bounds.uMax = aRightEyeRect.XMost();
  bounds.vMax = 1.0 - aRightEyeRect.YMost();

  err = mVRCompositor->Submit(::vr::EVREye::Eye_Right, &tex, &bounds);
  if (err != ::vr::EVRCompositorError::VRCompositorError_None) {
    printf_stderr("OpenVR Compositor Submit() failed.\n");
  }

  mVRCompositor->PostPresentHandoff();
  return true;
}
Example #29
0
void Document::prepareExtraCel(const gfx::Rect& bounds, int opacity)
{
  ASSERT(sprite() != NULL);

  if (!m_extraImage ||
      m_extraImage->pixelFormat() != sprite()->pixelFormat() ||
      m_extraImage->width() != bounds.w ||
      m_extraImage->height() != bounds.h) {
    Image* newImage = Image::create(sprite()->pixelFormat(), bounds.w, bounds.h);
    m_extraImage.reset(newImage);
  }

  if (!m_extraCel)
    m_extraCel = new Cel(frame_t(0), ImageRef(NULL)); // Ignored fields for this cel (frame, and image index)

  m_extraCel->setPosition(bounds.getOrigin());
  m_extraCel->setOpacity(opacity);
}
Example #30
0
void BrushPopup::regenerate(const gfx::Rect& box)
{
  auto& brushSlots = App::instance()->brushes().getBrushSlots();

  if (m_customBrushes) {
    // As BrushPopup::regenerate() can be called when a
    // "m_customBrushes" button is clicked we cannot delete
    // "m_customBrushes" right now.
    m_customBrushes->parent()->removeChild(m_customBrushes);
    m_customBrushes->deferDelete();
  }

  m_customBrushes = new ButtonSet(3);
  m_customBrushes->setTriggerOnMouseUp(true);

  int slot = 0;
  for (const auto& brush : brushSlots) {
    ++slot;

    // Get shortcut
    std::string shortcut;
    {
      Params params;
      params.set("change", "custom");
      params.set("slot", base::convert_to<std::string>(slot).c_str());
      Key* key = KeyboardShortcuts::instance()->command(
        CommandId::ChangeBrush, params);
      if (key && !key->accels().empty())
        shortcut = key->accels().front().toString();
    }
    m_customBrushes->addItem(new SelectBrushItem(brush, slot));
    m_customBrushes->addItem(new BrushShortcutItem(shortcut, slot));
    m_customBrushes->addItem(new BrushOptionsItem(this, slot));
  }

  m_customBrushes->addItem(new NewCustomBrushItem, 2, 1);
  m_customBrushes->addItem(new NewBrushOptionsItem);
  m_customBrushes->setExpansive(true);
  m_box.addChild(m_customBrushes);

  // Resize the window and change the hot region.
  setBounds(gfx::Rect(box.origin(), sizeHint()));
  setHotRegion(gfx::Region(bounds()));
}