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ea68cb4546
The few cases where we still use Xlib most likely benefit little from Xrender. Lets drop the support for it. Differential Revision: https://phabricator.services.mozilla.com/D126970
413 lines
14 KiB
C++
413 lines
14 KiB
C++
/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "gfxXlibSurface.h"
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#include "cairo.h"
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#include "cairo-xlib.h"
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#include <X11/Xlibint.h> /* For XESetCloseDisplay */
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#undef max // Xlibint.h defines this and it breaks std::max
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#undef min // Xlibint.h defines this and it breaks std::min
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#undef Data
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#include "nsTArray.h"
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#include "nsAlgorithm.h"
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#include "mozilla/gfx/2D.h"
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#include "mozilla/Preferences.h"
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#include <algorithm>
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#include "mozilla/CheckedInt.h"
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using namespace mozilla;
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using namespace mozilla::gfx;
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gfxXlibSurface::gfxXlibSurface(Display* dpy, Drawable drawable, Visual* visual)
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: mPixmapTaken(false),
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mDisplay(XlibDisplay::Borrow(dpy)),
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mDrawable(drawable) {
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const gfx::IntSize size = DoSizeQuery();
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cairo_surface_t* surf =
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cairo_xlib_surface_create(dpy, drawable, visual, size.width, size.height);
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Init(surf);
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}
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gfxXlibSurface::gfxXlibSurface(Display* dpy, Drawable drawable, Visual* visual,
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const gfx::IntSize& size)
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: gfxXlibSurface(XlibDisplay::Borrow(dpy), drawable, visual, size) {}
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gfxXlibSurface::gfxXlibSurface(const std::shared_ptr<XlibDisplay>& dpy,
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Drawable drawable, Visual* visual,
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const gfx::IntSize& size)
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: mPixmapTaken(false), mDisplay(dpy), mDrawable(drawable) {
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NS_ASSERTION(Factory::CheckSurfaceSize(size, XLIB_IMAGE_SIDE_SIZE_LIMIT),
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"Bad size");
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cairo_surface_t* surf = cairo_xlib_surface_create(*dpy, drawable, visual,
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size.width, size.height);
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Init(surf);
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}
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gfxXlibSurface::gfxXlibSurface(cairo_surface_t* csurf) : mPixmapTaken(false) {
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MOZ_ASSERT(cairo_surface_status(csurf) == 0,
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"Not expecting an error surface");
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mDrawable = cairo_xlib_surface_get_drawable(csurf);
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mDisplay = XlibDisplay::Borrow(cairo_xlib_surface_get_display(csurf));
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Init(csurf, true);
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}
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gfxXlibSurface::~gfxXlibSurface() {
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// gfxASurface's destructor calls RecordMemoryFreed().
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if (mPixmapTaken) {
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XFreePixmap(*mDisplay, mDrawable);
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}
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}
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static Drawable CreatePixmap(Screen* screen, const gfx::IntSize& size,
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unsigned int depth, Drawable relatedDrawable) {
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if (!Factory::CheckSurfaceSize(size, XLIB_IMAGE_SIDE_SIZE_LIMIT))
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return X11None;
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if (relatedDrawable == X11None) {
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relatedDrawable = RootWindowOfScreen(screen);
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}
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Display* dpy = DisplayOfScreen(screen);
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// X gives us a fatal error if we try to create a pixmap of width
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// or height 0
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return XCreatePixmap(dpy, relatedDrawable, std::max(1, size.width),
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std::max(1, size.height), depth);
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}
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void gfxXlibSurface::TakePixmap() {
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NS_ASSERTION(!mPixmapTaken, "I already own the Pixmap!");
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mPixmapTaken = true;
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// The bit depth returned from Cairo is technically int, but this is
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// the last place we'd be worried about that scenario.
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unsigned int bitDepth = cairo_xlib_surface_get_depth(CairoSurface());
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MOZ_ASSERT((bitDepth % 8) == 0, "Memory used not recorded correctly");
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// Divide by 8 because surface_get_depth gives us the number of *bits* per
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// pixel.
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gfx::IntSize size = GetSize();
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CheckedInt32 totalBytes =
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CheckedInt32(size.width) * CheckedInt32(size.height) * (bitDepth / 8);
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// Don't do anything in the "else" case. We could add INT32_MAX, but that
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// would overflow the memory used counter. It would also mean we tried for
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// a 2G image. For now, we'll just assert,
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MOZ_ASSERT(totalBytes.isValid(), "Did not expect to exceed 2Gb image");
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if (totalBytes.isValid()) {
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RecordMemoryUsed(totalBytes.value());
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}
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}
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Drawable gfxXlibSurface::ReleasePixmap() {
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NS_ASSERTION(mPixmapTaken, "I don't own the Pixmap!");
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mPixmapTaken = false;
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RecordMemoryFreed();
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return mDrawable;
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}
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static cairo_user_data_key_t gDestroyPixmapKey;
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struct DestroyPixmapClosure {
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DestroyPixmapClosure(Drawable d, Screen* s) : mPixmap(d), mScreen(s) {}
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Drawable mPixmap;
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Screen* mScreen;
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};
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static void DestroyPixmap(void* data) {
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DestroyPixmapClosure* closure = static_cast<DestroyPixmapClosure*>(data);
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XFreePixmap(DisplayOfScreen(closure->mScreen), closure->mPixmap);
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delete closure;
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}
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/* static */
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cairo_surface_t* gfxXlibSurface::CreateCairoSurface(Screen* screen,
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Visual* visual,
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const gfx::IntSize& size,
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Drawable relatedDrawable) {
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Drawable drawable = CreatePixmap(screen, size, DepthOfVisual(screen, visual),
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relatedDrawable);
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if (!drawable) return nullptr;
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cairo_surface_t* surface = cairo_xlib_surface_create(
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DisplayOfScreen(screen), drawable, visual, size.width, size.height);
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if (cairo_surface_status(surface)) {
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cairo_surface_destroy(surface);
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XFreePixmap(DisplayOfScreen(screen), drawable);
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return nullptr;
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}
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DestroyPixmapClosure* closure = new DestroyPixmapClosure(drawable, screen);
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cairo_surface_set_user_data(surface, &gDestroyPixmapKey, closure,
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DestroyPixmap);
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return surface;
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}
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/* static */
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already_AddRefed<gfxXlibSurface> gfxXlibSurface::Create(
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Screen* screen, Visual* visual, const gfx::IntSize& size,
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Drawable relatedDrawable) {
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return Create(XlibDisplay::Borrow(DisplayOfScreen(screen)), screen, visual,
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size, relatedDrawable);
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};
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/* static */
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already_AddRefed<gfxXlibSurface> gfxXlibSurface::Create(
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const std::shared_ptr<XlibDisplay>& display, Screen* screen, Visual* visual,
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const gfx::IntSize& size, Drawable relatedDrawable) {
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MOZ_ASSERT(*display == DisplayOfScreen(screen));
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Drawable drawable = CreatePixmap(screen, size, DepthOfVisual(screen, visual),
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relatedDrawable);
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if (!drawable) return nullptr;
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RefPtr<gfxXlibSurface> result =
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new gfxXlibSurface(display, drawable, visual, size);
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result->TakePixmap();
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if (result->CairoStatus() != 0) return nullptr;
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return result.forget();
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}
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void gfxXlibSurface::Finish() { gfxASurface::Finish(); }
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const gfx::IntSize gfxXlibSurface::GetSize() const {
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if (!mSurfaceValid) return gfx::IntSize(0, 0);
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return gfx::IntSize(cairo_xlib_surface_get_width(mSurface),
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cairo_xlib_surface_get_height(mSurface));
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}
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const gfx::IntSize gfxXlibSurface::DoSizeQuery() {
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// figure out width/height/depth
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Window root_ignore;
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int x_ignore, y_ignore;
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unsigned int bwidth_ignore, width, height, depth;
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XGetGeometry(*mDisplay, mDrawable, &root_ignore, &x_ignore, &y_ignore, &width,
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&height, &bwidth_ignore, &depth);
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return gfx::IntSize(width, height);
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}
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class DisplayTable {
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public:
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static bool GetColormapAndVisual(Screen* screen, Visual* visual,
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Colormap* colormap,
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Visual** visualForColormap);
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private:
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struct ColormapEntry {
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// The Screen is needed here because colormaps (and their visuals) may
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// only be used on one Screen
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Screen* mScreen;
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Visual* mVisual;
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Colormap mColormap;
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};
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class DisplayInfo {
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public:
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explicit DisplayInfo(Display* display) : mDisplay(display) {}
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Display* mDisplay;
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nsTArray<ColormapEntry> mColormapEntries;
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};
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// Comparator for finding the DisplayInfo
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class FindDisplay {
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public:
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bool Equals(const DisplayInfo& info, const Display* display) const {
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return info.mDisplay == display;
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}
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};
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static int DisplayClosing(Display* display, XExtCodes* codes);
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nsTArray<DisplayInfo> mDisplays;
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static DisplayTable* sDisplayTable;
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};
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DisplayTable* DisplayTable::sDisplayTable;
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// Pixmaps don't have a particular associated visual but the pixel values are
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// interpreted according to a visual/colormap pairs.
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//
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// cairo is designed for surfaces with either TrueColor visuals or the
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// default visual (which may not be true color). TrueColor visuals don't
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// really need a colormap because the visual indicates the pixel format,
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// and cairo uses the default visual with the default colormap, so cairo
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// surfaces don't need an explicit colormap.
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//
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// However, some toolkits (e.g. GDK) need a colormap even with TrueColor
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// visuals. We can create a colormap for these visuals, but it will use about
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// 20kB of memory in the server, so we use the default colormap when
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// suitable and share colormaps between surfaces. Another reason for
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// minimizing colormap turnover is that the plugin process must leak resources
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// for each new colormap id when using older GDK libraries (bug 569775).
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//
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// Only the format of the pixels is important for rendering to Pixmaps, so if
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// the format of a visual matches that of the surface, then that visual can be
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// used for rendering to the surface. Multiple visuals can match the same
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// format (but have different GLX properties), so the visual returned may
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// differ from the visual passed in. Colormaps are tied to a visual, so
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// should only be used with their visual.
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/* static */
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bool DisplayTable::GetColormapAndVisual(Screen* aScreen, Visual* aVisual,
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Colormap* aColormap,
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Visual** aVisualForColormap)
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{
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Display* display = DisplayOfScreen(aScreen);
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// Use the default colormap if the default visual matches.
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Visual* defaultVisual = DefaultVisualOfScreen(aScreen);
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if (aVisual == defaultVisual) {
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*aColormap = DefaultColormapOfScreen(aScreen);
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*aVisualForColormap = defaultVisual;
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return true;
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}
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// Only supporting TrueColor non-default visuals
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if (!aVisual || aVisual->c_class != TrueColor) return false;
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if (!sDisplayTable) {
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sDisplayTable = new DisplayTable();
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}
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nsTArray<DisplayInfo>* displays = &sDisplayTable->mDisplays;
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size_t d = displays->IndexOf(display, 0, FindDisplay());
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if (d == displays->NoIndex) {
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d = displays->Length();
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// Register for notification of display closing, when this info
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// becomes invalid.
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XExtCodes* codes = XAddExtension(display);
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if (!codes) return false;
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XESetCloseDisplay(display, codes->extension, DisplayClosing);
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// Add a new DisplayInfo.
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displays->AppendElement(display);
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}
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nsTArray<ColormapEntry>* entries = &displays->ElementAt(d).mColormapEntries;
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// Only a small number of formats are expected to be used, so just do a
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// simple linear search.
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for (uint32_t i = 0; i < entries->Length(); ++i) {
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const ColormapEntry& entry = entries->ElementAt(i);
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if (aVisual == entry.mVisual) {
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*aColormap = entry.mColormap;
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*aVisualForColormap = entry.mVisual;
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return true;
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}
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}
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// No existing entry. Create a colormap and add an entry.
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Colormap colormap =
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XCreateColormap(display, RootWindowOfScreen(aScreen), aVisual, AllocNone);
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ColormapEntry* newEntry = entries->AppendElement();
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newEntry->mScreen = aScreen;
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newEntry->mVisual = aVisual;
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newEntry->mColormap = colormap;
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*aColormap = colormap;
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*aVisualForColormap = aVisual;
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return true;
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}
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/* static */
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int DisplayTable::DisplayClosing(Display* display, XExtCodes* codes) {
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// No need to free the colormaps explicitly as they will be released when
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// the connection is closed.
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sDisplayTable->mDisplays.RemoveElement(display, FindDisplay());
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if (sDisplayTable->mDisplays.Length() == 0) {
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delete sDisplayTable;
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sDisplayTable = nullptr;
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}
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return 0;
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}
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/* static */
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bool gfxXlibSurface::GetColormapAndVisual(cairo_surface_t* aXlibSurface,
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Colormap* aColormap,
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Visual** aVisual) {
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Screen* screen = cairo_xlib_surface_get_screen(aXlibSurface);
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Visual* visual = cairo_xlib_surface_get_visual(aXlibSurface);
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return DisplayTable::GetColormapAndVisual(screen, visual, aColormap, aVisual);
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}
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bool gfxXlibSurface::GetColormapAndVisual(Colormap* aColormap,
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Visual** aVisual) {
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if (!mSurfaceValid) return false;
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return GetColormapAndVisual(CairoSurface(), aColormap, aVisual);
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}
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/* static */
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int gfxXlibSurface::DepthOfVisual(const Screen* screen, const Visual* visual) {
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for (int d = 0; d < screen->ndepths; d++) {
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const Depth& d_info = screen->depths[d];
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if (visual >= &d_info.visuals[0] &&
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visual < &d_info.visuals[d_info.nvisuals])
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return d_info.depth;
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}
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NS_ERROR("Visual not on Screen.");
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return 0;
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}
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/* static */
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Visual* gfxXlibSurface::FindVisual(Screen* screen, gfxImageFormat format) {
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int depth;
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unsigned long red_mask, green_mask, blue_mask;
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switch (format) {
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case gfx::SurfaceFormat::A8R8G8B8_UINT32:
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depth = 32;
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red_mask = 0xff0000;
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green_mask = 0xff00;
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blue_mask = 0xff;
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break;
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case gfx::SurfaceFormat::X8R8G8B8_UINT32:
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depth = 24;
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red_mask = 0xff0000;
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green_mask = 0xff00;
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blue_mask = 0xff;
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break;
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case gfx::SurfaceFormat::R5G6B5_UINT16:
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depth = 16;
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red_mask = 0xf800;
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green_mask = 0x7e0;
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blue_mask = 0x1f;
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break;
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case gfx::SurfaceFormat::A8:
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default:
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return nullptr;
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}
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for (int d = 0; d < screen->ndepths; d++) {
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const Depth& d_info = screen->depths[d];
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if (d_info.depth != depth) continue;
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for (int v = 0; v < d_info.nvisuals; v++) {
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Visual* visual = &d_info.visuals[v];
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if (visual->c_class == TrueColor && visual->red_mask == red_mask &&
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visual->green_mask == green_mask && visual->blue_mask == blue_mask)
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return visual;
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}
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}
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return nullptr;
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}
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Screen* gfxXlibSurface::XScreen() {
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return cairo_xlib_surface_get_screen(CairoSurface());
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}
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