mirror of
https://github.com/RGBCube/serenity
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5ff7448fee
With this change, elements that want to receive viewport rect updates will need to register on document instead of the browsing context. This change solves the problem where a browsing context for a document is guaranteed to exist only while the document is active so browsing context might not exit by the time DOM node that want to register is constructed. This is a part of preparation work before switching to navigables where this issue becomes more visible.
141 lines
5.9 KiB
C++
141 lines
5.9 KiB
C++
/*
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* Copyright (c) 2018-2023, Andreas Kling <kling@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <LibGfx/StylePainter.h>
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#include <LibWeb/HTML/DecodedImageData.h>
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#include <LibWeb/HTML/HTMLImageElement.h>
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#include <LibWeb/HTML/ImageRequest.h>
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#include <LibWeb/Layout/ImageBox.h>
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#include <LibWeb/Painting/BorderRadiusCornerClipper.h>
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#include <LibWeb/Painting/ImagePaintable.h>
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#include <LibWeb/Platform/FontPlugin.h>
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namespace Web::Painting {
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JS::NonnullGCPtr<ImagePaintable> ImagePaintable::create(Layout::ImageBox const& layout_box)
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{
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return layout_box.heap().allocate_without_realm<ImagePaintable>(layout_box);
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}
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ImagePaintable::ImagePaintable(Layout::ImageBox const& layout_box)
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: PaintableBox(layout_box)
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{
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const_cast<DOM::Document&>(layout_box.document()).register_viewport_client(*this);
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}
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void ImagePaintable::finalize()
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{
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Base::finalize();
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// NOTE: We unregister from the document in finalize() to avoid trouble
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// in the scenario where our Document has already been swept by GC.
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document().unregister_viewport_client(*this);
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}
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Layout::ImageBox const& ImagePaintable::layout_box() const
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{
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return static_cast<Layout::ImageBox const&>(layout_node());
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}
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void ImagePaintable::paint(PaintContext& context, PaintPhase phase) const
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{
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if (!is_visible())
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return;
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// FIXME: This should be done at a different level.
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if (is_out_of_view(context))
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return;
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PaintableBox::paint(context, phase);
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if (phase == PaintPhase::Foreground) {
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auto image_rect = context.rounded_device_rect(absolute_rect());
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if (layout_box().renders_as_alt_text()) {
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auto& image_element = verify_cast<HTML::HTMLImageElement>(*dom_node());
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auto enclosing_rect = context.enclosing_device_rect(absolute_rect()).to_type<int>();
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context.painter().set_font(Platform::FontPlugin::the().default_font());
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Gfx::StylePainter::paint_frame(context.painter(), enclosing_rect, context.palette(), Gfx::FrameStyle::SunkenContainer);
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auto alt = image_element.alt();
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if (alt.is_empty())
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alt = image_element.src();
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context.painter().draw_text(enclosing_rect, alt, Gfx::TextAlignment::Center, computed_values().color(), Gfx::TextElision::Right);
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} else if (auto bitmap = layout_box().image_provider().current_image_bitmap(image_rect.size().to_type<int>())) {
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ScopedCornerRadiusClip corner_clip { context, context.painter(), image_rect, normalized_border_radii_data(ShrinkRadiiForBorders::Yes) };
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auto image_int_rect = image_rect.to_type<int>();
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auto bitmap_rect = bitmap->rect();
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auto scaling_mode = to_gfx_scaling_mode(computed_values().image_rendering(), bitmap_rect, image_int_rect);
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auto& dom_element = verify_cast<DOM::Element>(*dom_node());
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auto object_fit = dom_element.computed_css_values()->object_fit();
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auto bitmap_aspect_ratio = bitmap_rect.height() / bitmap_rect.width();
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auto image_aspect_ratio = (float)image_rect.height().value() / image_rect.width().value();
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auto scale_x = 0.0f;
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auto scale_y = 0.0f;
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Gfx::IntRect bitmap_intersect = bitmap_rect;
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auto object_fit_value = CSS::InitialValues::object_fit();
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if (object_fit.has_value())
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object_fit_value = object_fit.value();
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switch (object_fit_value) {
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case CSS::ObjectFit::Fill:
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scale_x = (float)image_int_rect.width() / bitmap_rect.width();
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scale_y = (float)image_int_rect.height() / bitmap_rect.height();
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bitmap_intersect = bitmap_rect;
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break;
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case CSS::ObjectFit::Contain:
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if (bitmap_aspect_ratio >= image_aspect_ratio) {
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scale_x = (float)image_int_rect.height() / bitmap_rect.height();
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scale_y = scale_x;
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} else {
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scale_x = (float)image_int_rect.width() / bitmap_rect.width();
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scale_y = scale_x;
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}
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break;
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case CSS::ObjectFit::Cover:
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if (bitmap_aspect_ratio >= image_aspect_ratio) {
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scale_x = (float)image_int_rect.width() / bitmap_rect.width();
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scale_y = scale_x;
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bitmap_intersect.set_height(bitmap_rect.width() * image_aspect_ratio);
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} else {
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scale_x = (float)image_int_rect.height() / bitmap_rect.height();
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scale_y = scale_x;
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bitmap_intersect.set_width(bitmap_rect.height() / image_aspect_ratio);
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}
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break;
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case CSS::ObjectFit::ScaleDown:
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// FIXME: Implement
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case CSS::ObjectFit::None:
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scale_x = 1;
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scale_y = 1;
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bitmap_intersect.set_size(image_int_rect.size());
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}
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bitmap_intersect.set_x((bitmap_rect.width() - bitmap_intersect.width()) / 2);
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bitmap_intersect.set_y((bitmap_rect.height() - bitmap_intersect.height()) / 2);
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auto offset_x = (image_int_rect.width() - bitmap_rect.width() * scale_x) / 2;
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auto offset_y = (image_int_rect.height() - bitmap_rect.height() * scale_y) / 2;
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Gfx::IntRect draw_rect = {
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image_int_rect.x() + offset_x,
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image_int_rect.y() + offset_y,
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bitmap_rect.width() * scale_x,
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bitmap_rect.height() * scale_y
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};
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context.painter().draw_scaled_bitmap(draw_rect.intersected(image_int_rect), *bitmap, bitmap_rect.intersected(bitmap_intersect), 1.f, scaling_mode);
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}
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}
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}
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void ImagePaintable::did_set_viewport_rect(CSSPixelRect const& viewport_rect)
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{
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const_cast<Layout::ImageProvider&>(layout_box().image_provider()).set_visible_in_viewport(viewport_rect.intersects(absolute_rect()));
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}
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}
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