/* * Copyright (c) 2024, Aliaksandr Kalenik * * SPDX-License-Identifier: BSD-2-Clause */ #define AK_DONT_REPLACE_STD #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Web::Painting { class CommandExecutorSkia::SkiaSurface { public: SkCanvas& canvas() const { return *surface->getCanvas(); } SkiaSurface(sk_sp surface) : surface(move(surface)) { } private: sk_sp surface; }; static SkRect to_skia_rect(auto rect) { return SkRect::MakeXYWH(rect.x(), rect.y(), rect.width(), rect.height()); } static SkColor to_skia_color(Gfx::Color color) { return SkColorSetARGB(color.alpha(), color.red(), color.green(), color.blue()); } static SkPath to_skia_path(Gfx::Path path) { Optional subpath_start_point; Optional subpath_last_point; SkPathBuilder path_builder; auto close_subpath_if_needed = [&](auto last_point) { if (subpath_start_point == last_point) path_builder.close(); }; for (auto const& segment : path) { auto point = segment.point(); subpath_last_point = point; switch (segment.command()) { case Gfx::PathSegment::Command::MoveTo: { if (subpath_start_point.has_value()) close_subpath_if_needed(subpath_start_point.value()); subpath_start_point = point; path_builder.moveTo({ point.x(), point.y() }); break; } case Gfx::PathSegment::Command::LineTo: { if (!subpath_start_point.has_value()) subpath_start_point = Gfx::FloatPoint { 0.0f, 0.0f }; path_builder.lineTo({ point.x(), point.y() }); break; } case Gfx::PathSegment::Command::QuadraticBezierCurveTo: { if (!subpath_start_point.has_value()) subpath_start_point = Gfx::FloatPoint { 0.0f, 0.0f }; SkPoint pt1 = { segment.through().x(), segment.through().y() }; SkPoint pt2 = { segment.point().x(), segment.point().y() }; path_builder.quadTo(pt1, pt2); break; } case Gfx::PathSegment::Command::CubicBezierCurveTo: { if (!subpath_start_point.has_value()) subpath_start_point = Gfx::FloatPoint { 0.0f, 0.0f }; SkPoint pt1 = { segment.through_0().x(), segment.through_0().y() }; SkPoint pt2 = { segment.through_1().x(), segment.through_1().y() }; SkPoint pt3 = { segment.point().x(), segment.point().y() }; path_builder.cubicTo(pt1, pt2, pt3); break; } default: VERIFY_NOT_REACHED(); } } close_subpath_if_needed(subpath_last_point); return path_builder.snapshot(); } static SkRRect to_skia_rrect(auto rect, CornerRadii corner_radii) { SkRRect rrect; SkVector radii[4]; radii[0].set(corner_radii.top_left.horizontal_radius, corner_radii.top_left.vertical_radius); radii[1].set(corner_radii.top_right.horizontal_radius, corner_radii.top_right.vertical_radius); radii[2].set(corner_radii.bottom_right.horizontal_radius, corner_radii.bottom_right.vertical_radius); radii[3].set(corner_radii.bottom_left.horizontal_radius, corner_radii.bottom_left.vertical_radius); rrect.setRectRadii(to_skia_rect(rect), radii); return rrect; } static SkColorType to_skia_color_type(Gfx::BitmapFormat format) { switch (format) { case Gfx::BitmapFormat::Invalid: return kUnknown_SkColorType; case Gfx::BitmapFormat::BGRA8888: case Gfx::BitmapFormat::BGRx8888: return kBGRA_8888_SkColorType; case Gfx::BitmapFormat::RGBA8888: return kRGBA_8888_SkColorType; default: return kUnknown_SkColorType; } } static SkBitmap to_skia_bitmap(Gfx::Bitmap const& bitmap) { SkColorType color_type = to_skia_color_type(bitmap.format()); SkImageInfo image_info = SkImageInfo::Make(bitmap.width(), bitmap.height(), color_type, kUnpremul_SkAlphaType); SkBitmap sk_bitmap; sk_bitmap.setInfo(image_info); if (!sk_bitmap.installPixels(image_info, (void*)bitmap.begin(), bitmap.width() * 4)) { VERIFY_NOT_REACHED(); } return sk_bitmap; } static SkMatrix to_skia_matrix(Gfx::AffineTransform const& affine_transform) { SkScalar affine[6]; affine[0] = affine_transform.a(); affine[1] = affine_transform.b(); affine[2] = affine_transform.c(); affine[3] = affine_transform.d(); affine[4] = affine_transform.e(); affine[5] = affine_transform.f(); SkMatrix matrix; matrix.setAffine(affine); return matrix; } #define APPLY_PATH_CLIP_IF_NEEDED \ ScopeGuard restore_path_clip { [&] { \ if (command.clip_paths.size() > 0) \ surface().canvas().restore(); \ } }; \ if (command.clip_paths.size() > 0) { \ surface().canvas().save(); \ for (auto const& path : command.clip_paths) \ surface().canvas().clipPath(to_skia_path(path), true); \ } CommandExecutorSkia::CommandExecutorSkia(Gfx::Bitmap& bitmap) { VERIFY(bitmap.format() == Gfx::BitmapFormat::BGRA8888); auto image_info = SkImageInfo::Make(bitmap.width(), bitmap.height(), kBGRA_8888_SkColorType, kPremul_SkAlphaType); auto surface = SkSurfaces::WrapPixels(image_info, bitmap.begin(), bitmap.width() * 4); VERIFY(surface); m_surface = make(surface); } CommandExecutorSkia::~CommandExecutorSkia() = default; CommandExecutorSkia::SkiaSurface& CommandExecutorSkia::surface() const { return static_cast(*m_surface); } CommandResult CommandExecutorSkia::draw_glyph_run(DrawGlyphRun const& command) { auto& canvas = surface().canvas(); SkPaint paint; paint.setColorFilter(SkColorFilters::Blend(to_skia_color(command.color), SkBlendMode::kSrcIn)); auto const& glyphs = command.glyph_run->glyphs(); for (auto const& glyph_or_emoji : glyphs) { auto transformed_glyph = glyph_or_emoji; transformed_glyph.visit([&](auto& glyph) { glyph.position = glyph.position.scaled(command.scale).translated(command.translation); glyph.font = glyph.font->with_size(glyph.font->point_size() * static_cast(command.scale)); }); if (transformed_glyph.has()) { auto& glyph = transformed_glyph.get(); auto const& point = glyph.position; auto const& code_point = glyph.code_point; auto top_left = point + Gfx::FloatPoint(glyph.font->glyph_left_bearing(code_point), 0); auto glyph_position = Gfx::GlyphRasterPosition::get_nearest_fit_for(top_left); auto maybe_font_glyph = glyph.font->glyph(code_point, glyph_position.subpixel_offset); if (!maybe_font_glyph.has_value()) continue; if (maybe_font_glyph->is_color_bitmap()) { TODO(); } else { auto sk_bitmap = to_skia_bitmap(*maybe_font_glyph->bitmap()); auto sk_image = SkImages::RasterFromBitmap(sk_bitmap); auto const& blit_position = glyph_position.blit_position; canvas.drawImage(sk_image, blit_position.x(), blit_position.y(), SkSamplingOptions(), &paint); } } } return CommandResult::Continue; } CommandResult CommandExecutorSkia::draw_text(DrawText const&) { return CommandResult::Continue; } CommandResult CommandExecutorSkia::fill_rect(FillRect const& command) { APPLY_PATH_CLIP_IF_NEEDED auto const& rect = command.rect; auto& canvas = surface().canvas(); SkPaint paint; paint.setColor(to_skia_color(command.color)); canvas.drawRect(to_skia_rect(rect), paint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::draw_scaled_bitmap(DrawScaledBitmap const& command) { auto src_rect = to_skia_rect(command.src_rect); auto dst_rect = to_skia_rect(command.dst_rect); auto bitmap = to_skia_bitmap(command.bitmap); auto image = SkImages::RasterFromBitmap(bitmap); auto& canvas = surface().canvas(); SkPaint paint; // FIXME: Account for scaling_mode canvas.drawImageRect(image, src_rect, dst_rect, SkSamplingOptions(), &paint, SkCanvas::kStrict_SrcRectConstraint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::draw_scaled_immutable_bitmap(DrawScaledImmutableBitmap const& command) { APPLY_PATH_CLIP_IF_NEEDED auto src_rect = to_skia_rect(command.src_rect); auto dst_rect = to_skia_rect(command.dst_rect); auto bitmap = to_skia_bitmap(command.bitmap->bitmap()); auto image = SkImages::RasterFromBitmap(bitmap); auto& canvas = surface().canvas(); SkPaint paint; // FIXME: Account for scaling_mode canvas.drawImageRect(image, src_rect, dst_rect, SkSamplingOptions(), &paint, SkCanvas::kStrict_SrcRectConstraint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::add_clip_rect(AddClipRect const& command) { auto& canvas = surface().canvas(); auto const& rect = command.rect; canvas.clipRect(to_skia_rect(rect)); return CommandResult::Continue; } CommandResult CommandExecutorSkia::save(Save const&) { auto& canvas = surface().canvas(); canvas.save(); return CommandResult::Continue; } CommandResult CommandExecutorSkia::restore(Restore const&) { auto& canvas = surface().canvas(); canvas.restore(); return CommandResult::Continue; } static SkBitmap alpha_mask_from_bitmap(Gfx::Bitmap const& bitmap, Gfx::Bitmap::MaskKind kind) { SkBitmap alpha_mask; alpha_mask.allocPixels(SkImageInfo::MakeA8(bitmap.width(), bitmap.height())); for (int y = 0; y < bitmap.height(); y++) { for (int x = 0; x < bitmap.width(); x++) { if (kind == Gfx::Bitmap::MaskKind::Luminance) { auto color = bitmap.get_pixel(x, y); *alpha_mask.getAddr8(x, y) = color.alpha() * color.luminosity() / 255; } else { VERIFY(kind == Gfx::Bitmap::MaskKind::Alpha); auto color = bitmap.get_pixel(x, y); *alpha_mask.getAddr8(x, y) = color.alpha(); } } } return alpha_mask; } CommandResult CommandExecutorSkia::push_stacking_context(PushStackingContext const& command) { auto& canvas = surface().canvas(); auto affine_transform = Gfx::extract_2d_affine_transform(command.transform.matrix); auto new_transform = Gfx::AffineTransform {} .set_translation(command.post_transform_translation.to_type()) .translate(command.transform.origin) .multiply(affine_transform) .translate(-command.transform.origin); auto matrix = to_skia_matrix(new_transform); if (command.opacity < 1) { auto source_paintable_rect = to_skia_rect(command.source_paintable_rect); SkRect dest; matrix.mapRect(&dest, source_paintable_rect); canvas.saveLayerAlphaf(&dest, command.opacity); } else { canvas.save(); } if (command.mask.has_value()) { auto alpha_mask = alpha_mask_from_bitmap(*command.mask.value().mask_bitmap, command.mask.value().mask_kind); SkMatrix mask_matrix; auto mask_position = command.source_paintable_rect.location(); mask_matrix.setTranslate(mask_position.x(), mask_position.y()); auto shader = alpha_mask.makeShader(SkSamplingOptions(), mask_matrix); canvas.clipShader(shader); } if (command.is_fixed_position) { // FIXME: Resetting matrix is not correct when element is nested in a transformed stacking context canvas.resetMatrix(); } canvas.concat(matrix); return CommandResult::Continue; } CommandResult CommandExecutorSkia::pop_stacking_context(PopStackingContext const&) { surface().canvas().restore(); return CommandResult::Continue; } CommandResult CommandExecutorSkia::paint_linear_gradient(PaintLinearGradient const& command) { APPLY_PATH_CLIP_IF_NEEDED auto const& linear_gradient_data = command.linear_gradient_data; // FIXME: Account for repeat length Vector colors; colors.ensure_capacity(linear_gradient_data.color_stops.list.size()); Vector positions; positions.ensure_capacity(linear_gradient_data.color_stops.list.size()); auto const& list = linear_gradient_data.color_stops.list; for (auto const& color_stop : linear_gradient_data.color_stops.list) { // FIXME: Account for ColorStop::transition_hint colors.append(to_skia_color(color_stop.color)); positions.append(color_stop.position); } auto const& rect = command.gradient_rect; auto length = calculate_gradient_length(rect.size(), linear_gradient_data.gradient_angle); auto bottom = rect.center().translated(0, -length / 2); auto top = rect.center().translated(0, length / 2); Array points; points[0] = SkPoint::Make(top.x(), top.y()); points[1] = SkPoint::Make(bottom.x(), bottom.y()); auto center = to_skia_rect(rect).center(); SkMatrix matrix; matrix.setRotate(linear_gradient_data.gradient_angle, center.x(), center.y()); auto shader = SkGradientShader::MakeLinear(points.data(), colors.data(), positions.data(), list.size(), SkTileMode::kClamp, 0, &matrix); SkPaint paint; paint.setShader(shader); surface().canvas().drawRect(to_skia_rect(rect), paint); return CommandResult::Continue; } static void add_spread_distance_to_border_radius(int& border_radius, int spread_distance) { if (border_radius == 0 || spread_distance == 0) return; // https://drafts.csswg.org/css-backgrounds/#shadow-shape // To preserve the box’s shape when spread is applied, the corner radii of the shadow are also increased (decreased, // for inner shadows) from the border-box (padding-box) radii by adding (subtracting) the spread distance (and flooring // at zero). However, in order to create a sharper corner when the border radius is small (and thus ensure continuity // between round and sharp corners), when the border radius is less than the spread distance (or in the case of an inner // shadow, less than the absolute value of a negative spread distance), the spread distance is first multiplied by the // proportion 1 + (r-1)^3, where r is the ratio of the border radius to the spread distance, in calculating the corner // radii of the spread shadow shape. if (border_radius > AK::abs(spread_distance)) { border_radius += spread_distance; } else { auto r = (float)border_radius / AK::abs(spread_distance); border_radius += spread_distance * (1 + AK::pow(r - 1, 3.0f)); } } CommandResult CommandExecutorSkia::paint_outer_box_shadow(PaintOuterBoxShadow const& command) { auto const& outer_box_shadow_params = command.box_shadow_params; auto const& color = outer_box_shadow_params.color; auto const& spread_distance = outer_box_shadow_params.spread_distance; auto const& blur_radius = outer_box_shadow_params.blur_radius; auto content_rrect = to_skia_rrect(outer_box_shadow_params.device_content_rect, outer_box_shadow_params.corner_radii); auto shadow_rect = outer_box_shadow_params.device_content_rect; shadow_rect.inflate(spread_distance, spread_distance, spread_distance, spread_distance); auto offset_x = outer_box_shadow_params.offset_x; auto offset_y = outer_box_shadow_params.offset_y; shadow_rect.translate_by(offset_x, offset_y); auto add_spread_distance_to_corner_radius = [&](auto& corner_radius) { add_spread_distance_to_border_radius(corner_radius.horizontal_radius, spread_distance); add_spread_distance_to_border_radius(corner_radius.vertical_radius, spread_distance); }; auto corner_radii = outer_box_shadow_params.corner_radii; add_spread_distance_to_corner_radius(corner_radii.top_left); add_spread_distance_to_corner_radius(corner_radii.top_right); add_spread_distance_to_corner_radius(corner_radii.bottom_right); add_spread_distance_to_corner_radius(corner_radii.bottom_left); auto& canvas = surface().canvas(); canvas.save(); canvas.clipRRect(content_rrect, SkClipOp::kDifference, true); SkPaint paint; paint.setColor(to_skia_color(color)); paint.setMaskFilter(SkMaskFilter::MakeBlur(kNormal_SkBlurStyle, blur_radius / 2)); auto shadow_rounded_rect = to_skia_rrect(shadow_rect, corner_radii); canvas.drawRRect(shadow_rounded_rect, paint); canvas.restore(); return CommandResult::Continue; } CommandResult CommandExecutorSkia::paint_inner_box_shadow(PaintInnerBoxShadow const& command) { auto const& outer_box_shadow_params = command.box_shadow_params; auto color = outer_box_shadow_params.color; auto device_content_rect = outer_box_shadow_params.device_content_rect; auto offset_x = outer_box_shadow_params.offset_x; auto offset_y = outer_box_shadow_params.offset_y; auto blur_radius = outer_box_shadow_params.blur_radius; auto spread_distance = outer_box_shadow_params.spread_distance; auto const& corner_radii = outer_box_shadow_params.corner_radii; auto outer_shadow_rect = device_content_rect.translated({ offset_x, offset_y }); auto inner_shadow_rect = outer_shadow_rect.inflated(-spread_distance, -spread_distance, -spread_distance, -spread_distance); outer_shadow_rect.inflate( blur_radius + offset_y, blur_radius + abs(offset_x), blur_radius + abs(offset_y), blur_radius + offset_x); auto inner_rect_corner_radii = corner_radii; auto add_spread_distance_to_corner_radius = [&](auto& corner_radius) { add_spread_distance_to_border_radius(corner_radius.horizontal_radius, -spread_distance); add_spread_distance_to_border_radius(corner_radius.vertical_radius, -spread_distance); }; add_spread_distance_to_corner_radius(inner_rect_corner_radii.top_left); add_spread_distance_to_corner_radius(inner_rect_corner_radii.top_right); add_spread_distance_to_corner_radius(inner_rect_corner_radii.bottom_right); add_spread_distance_to_corner_radius(inner_rect_corner_radii.bottom_left); auto outer_rect = to_skia_rrect(outer_shadow_rect, corner_radii); auto inner_rect = to_skia_rrect(inner_shadow_rect, inner_rect_corner_radii); SkPath outer_path; outer_path.addRRect(outer_rect); SkPath inner_path; inner_path.addRRect(inner_rect); SkPath result_path; if (!Op(outer_path, inner_path, SkPathOp::kDifference_SkPathOp, &result_path)) { VERIFY_NOT_REACHED(); } auto& canvas = surface().canvas(); SkPaint path_paint; path_paint.setColor(to_skia_color(color)); path_paint.setMaskFilter(SkMaskFilter::MakeBlur(kNormal_SkBlurStyle, blur_radius / 2)); canvas.save(); canvas.clipRRect(to_skia_rrect(device_content_rect, corner_radii), true); canvas.drawPath(result_path, path_paint); canvas.restore(); return CommandResult::Continue; } CommandResult CommandExecutorSkia::paint_text_shadow(PaintTextShadow const&) { return CommandResult::Continue; } CommandResult CommandExecutorSkia::fill_rect_with_rounded_corners(FillRectWithRoundedCorners const& command) { APPLY_PATH_CLIP_IF_NEEDED auto const& rect = command.rect; auto& canvas = surface().canvas(); SkPaint paint; paint.setColor(to_skia_color(command.color)); SkRRect rounded_rect; SkVector radii[4]; radii[0].set(command.top_left_radius.horizontal_radius, command.top_left_radius.vertical_radius); radii[1].set(command.top_right_radius.horizontal_radius, command.top_right_radius.vertical_radius); radii[2].set(command.bottom_right_radius.horizontal_radius, command.bottom_right_radius.vertical_radius); radii[3].set(command.bottom_left_radius.horizontal_radius, command.bottom_left_radius.vertical_radius); rounded_rect.setRectRadii(to_skia_rect(rect), radii); canvas.drawRRect(rounded_rect, paint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::fill_path_using_color(FillPathUsingColor const& command) { auto& canvas = surface().canvas(); SkPaint paint; paint.setAntiAlias(true); paint.setColor(to_skia_color(command.color)); auto path = to_skia_path(command.path); path.offset(command.aa_translation.x(), command.aa_translation.y()); canvas.drawPath(path, paint); return CommandResult::Continue; } SkPaint paint_style_to_skia_paint(Painting::SVGGradientPaintStyle const& paint_style, Gfx::FloatRect bounding_rect) { SkPaint paint; if (is(paint_style)) { auto const& linear_gradient_paint_style = static_cast(paint_style); SkMatrix matrix; auto scale = linear_gradient_paint_style.scale(); auto start_point = linear_gradient_paint_style.start_point().scaled(scale); auto end_point = linear_gradient_paint_style.end_point().scaled(scale); start_point.translate_by(bounding_rect.location()); end_point.translate_by(bounding_rect.location()); Array points; points[0] = SkPoint::Make(start_point.x(), start_point.y()); points[1] = SkPoint::Make(end_point.x(), end_point.y()); auto const& color_stops = linear_gradient_paint_style.color_stops(); Vector colors; colors.ensure_capacity(color_stops.size()); Vector positions; positions.ensure_capacity(color_stops.size()); for (auto const& color_stop : linear_gradient_paint_style.color_stops()) { colors.append(to_skia_color(color_stop.color)); positions.append(color_stop.position); } auto shader = SkGradientShader::MakeLinear(points.data(), colors.data(), positions.data(), color_stops.size(), SkTileMode::kClamp, 0, &matrix); paint.setShader(shader); } else if (is(paint_style)) { // TODO: } return paint; } CommandResult CommandExecutorSkia::fill_path_using_paint_style(FillPathUsingPaintStyle const& command) { auto path = to_skia_path(command.path); path.offset(command.aa_translation.x(), command.aa_translation.y()); auto paint = paint_style_to_skia_paint(*command.paint_style, command.bounding_rect().to_type()); paint.setAntiAlias(true); paint.setAlphaf(command.opacity); surface().canvas().drawPath(path, paint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::stroke_path_using_color(StrokePathUsingColor const& command) { auto& canvas = surface().canvas(); SkPaint paint; paint.setAntiAlias(true); paint.setStyle(SkPaint::kStroke_Style); paint.setStrokeWidth(command.thickness); paint.setColor(to_skia_color(command.color)); auto path = to_skia_path(command.path); path.offset(command.aa_translation.x(), command.aa_translation.y()); canvas.drawPath(path, paint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::stroke_path_using_paint_style(StrokePathUsingPaintStyle const& command) { auto path = to_skia_path(command.path); path.offset(command.aa_translation.x(), command.aa_translation.y()); auto paint = paint_style_to_skia_paint(*command.paint_style, command.bounding_rect().to_type()); paint.setAntiAlias(true); paint.setAlphaf(command.opacity); paint.setStyle(SkPaint::Style::kStroke_Style); paint.setStrokeWidth(command.thickness); surface().canvas().drawPath(path, paint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::draw_ellipse(DrawEllipse const& command) { auto const& rect = command.rect; auto& canvas = surface().canvas(); SkPaint paint; paint.setAntiAlias(true); paint.setStyle(SkPaint::kStroke_Style); paint.setStrokeWidth(command.thickness); paint.setColor(to_skia_color(command.color)); canvas.drawOval(to_skia_rect(rect), paint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::fill_ellipse(FillEllipse const& command) { auto const& rect = command.rect; auto& canvas = surface().canvas(); SkPaint paint; paint.setAntiAlias(true); paint.setColor(to_skia_color(command.color)); canvas.drawOval(to_skia_rect(rect), paint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::draw_line(DrawLine const& command) { auto from = SkPoint::Make(command.from.x(), command.from.y()); auto to = SkPoint::Make(command.to.x(), command.to.y()); auto& canvas = surface().canvas(); SkPaint paint; paint.setStrokeWidth(command.thickness); paint.setColor(to_skia_color(command.color)); canvas.drawLine(from, to, paint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::apply_backdrop_filter(ApplyBackdropFilter const& command) { auto& canvas = surface().canvas(); auto rect = to_skia_rect(command.backdrop_region); canvas.save(); canvas.clipRect(rect); ScopeGuard guard = [&] { canvas.restore(); }; for (auto const& filter_function : command.backdrop_filter.filters) { // See: https://drafts.fxtf.org/filter-effects-1/#supported-filter-functions filter_function.visit( [&](CSS::ResolvedBackdropFilter::Blur const& blur_filter) { auto blur_image_filter = SkImageFilters::Blur(blur_filter.radius, blur_filter.radius, nullptr); canvas.saveLayer(SkCanvas::SaveLayerRec(nullptr, nullptr, blur_image_filter.get(), 0)); canvas.restore(); }, [&](CSS::ResolvedBackdropFilter::ColorOperation const& color) { auto amount = clamp(color.amount, 0.0f, 1.0f); // Matrices are taken from https://drafts.fxtf.org/filter-effects-1/#FilterPrimitiveRepresentation sk_sp color_filter; switch (color.operation) { case CSS::Filter::Color::Operation::Grayscale: { float matrix[20] = { 0.2126f + 0.7874f * (1 - amount), 0.7152f - 0.7152f * (1 - amount), 0.0722f - 0.0722f * (1 - amount), 0, 0, 0.2126f - 0.2126f * (1 - amount), 0.7152f + 0.2848f * (1 - amount), 0.0722f - 0.0722f * (1 - amount), 0, 0, 0.2126f - 0.2126f * (1 - amount), 0.7152f - 0.7152f * (1 - amount), 0.0722f + 0.9278f * (1 - amount), 0, 0, 0, 0, 0, 1, 0 }; color_filter = SkColorFilters::Matrix(matrix); break; } case CSS::Filter::Color::Operation::Brightness: { float matrix[20] = { amount, 0, 0, 0, 0, 0, amount, 0, 0, 0, 0, 0, amount, 0, 0, 0, 0, 0, 1, 0 }; color_filter = SkColorFilters::Matrix(matrix); break; } case CSS::Filter::Color::Operation::Contrast: { float intercept = -(0.5f * amount) + 0.5f; float matrix[20] = { amount, 0, 0, 0, intercept, 0, amount, 0, 0, intercept, 0, 0, amount, 0, intercept, 0, 0, 0, 1, 0 }; color_filter = SkColorFilters::Matrix(matrix); break; } case CSS::Filter::Color::Operation::Invert: { float matrix[20] = { 1 - 2 * amount, 0, 0, 0, amount, 0, 1 - 2 * amount, 0, 0, amount, 0, 0, 1 - 2 * amount, 0, amount, 0, 0, 0, 1, 0 }; color_filter = SkColorFilters::Matrix(matrix); break; } case CSS::Filter::Color::Operation::Opacity: { float matrix[20] = { 1, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, amount, 0 }; color_filter = SkColorFilters::Matrix(matrix); break; } case CSS::Filter::Color::Operation::Sepia: { float matrix[20] = { 0.393f + 0.607f * (1 - amount), 0.769f - 0.769f * (1 - amount), 0.189f - 0.189f * (1 - amount), 0, 0, 0.349f - 0.349f * (1 - amount), 0.686f + 0.314f * (1 - amount), 0.168f - 0.168f * (1 - amount), 0, 0, 0.272f - 0.272f * (1 - amount), 0.534f - 0.534f * (1 - amount), 0.131f + 0.869f * (1 - amount), 0, 0, 0, 0, 0, 1, 0 }; color_filter = SkColorFilters::Matrix(matrix); break; } case CSS::Filter::Color::Operation::Saturate: { float matrix[20] = { 0.213f + 0.787f * amount, 0.715f - 0.715f * amount, 0.072f - 0.072f * amount, 0, 0, 0.213f - 0.213f * amount, 0.715f + 0.285f * amount, 0.072f - 0.072f * amount, 0, 0, 0.213f - 0.213f * amount, 0.715f - 0.715f * amount, 0.072f + 0.928f * amount, 0, 0, 0, 0, 0, 1, 0 }; color_filter = SkColorFilters::Matrix(matrix); break; } default: VERIFY_NOT_REACHED(); } auto image_filter = SkImageFilters::ColorFilter(color_filter, nullptr); canvas.saveLayer(SkCanvas::SaveLayerRec(nullptr, nullptr, image_filter.get(), 0)); canvas.restore(); }, [&](CSS::ResolvedBackdropFilter::HueRotate const& hue_rotate) { float radians = AK::to_radians(hue_rotate.angle_degrees); auto cosA = cos(radians); auto sinA = sin(radians); auto a00 = 0.213f + cosA * 0.787f - sinA * 0.213f; auto a01 = 0.715f - cosA * 0.715f - sinA * 0.715f; auto a02 = 0.072f - cosA * 0.072f + sinA * 0.928f; auto a10 = 0.213f - cosA * 0.213f + sinA * 0.143f; auto a11 = 0.715f + cosA * 0.285f + sinA * 0.140f; auto a12 = 0.072f - cosA * 0.072f - sinA * 0.283f; auto a20 = 0.213f - cosA * 0.213f - sinA * 0.787f; auto a21 = 0.715f - cosA * 0.715f + sinA * 0.715f; auto a22 = 0.072f + cosA * 0.928f + sinA * 0.072f; float matrix[20] = { a00, a01, a02, 0, 0, a10, a11, a12, 0, 0, a20, a21, a22, 0, 0, 0, 0, 0, 1, 0 }; auto color_filter = SkColorFilters::Matrix(matrix); auto image_filter = SkImageFilters::ColorFilter(color_filter, nullptr); canvas.saveLayer(SkCanvas::SaveLayerRec(nullptr, nullptr, image_filter.get(), 0)); canvas.restore(); }, [&](CSS::ResolvedBackdropFilter::DropShadow const&) { dbgln("TODO: Implement drop-shadow() filter function!"); }); } return CommandResult::Continue; } CommandResult CommandExecutorSkia::draw_rect(DrawRect const& command) { auto const& rect = command.rect; auto& canvas = surface().canvas(); SkPaint paint; paint.setStyle(SkPaint::kStroke_Style); paint.setStrokeWidth(1); paint.setColor(to_skia_color(command.color)); canvas.drawRect(to_skia_rect(rect), paint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::paint_radial_gradient(PaintRadialGradient const& command) { APPLY_PATH_CLIP_IF_NEEDED auto const& linear_gradient_data = command.radial_gradient_data; // FIXME: Account for repeat length Vector colors; colors.ensure_capacity(linear_gradient_data.color_stops.list.size()); Vector positions; positions.ensure_capacity(linear_gradient_data.color_stops.list.size()); auto const& list = linear_gradient_data.color_stops.list; for (auto const& color_stop : linear_gradient_data.color_stops.list) { // FIXME: Account for ColorStop::transition_hint colors.append(to_skia_color(color_stop.color)); positions.append(color_stop.position); } auto const& rect = command.rect; auto center = SkPoint::Make(command.center.x(), command.center.y()); auto radius = command.size.height(); auto shader = SkGradientShader::MakeRadial(center, radius, colors.data(), positions.data(), list.size(), SkTileMode::kClamp, 0); SkPaint paint; paint.setShader(shader); surface().canvas().drawRect(to_skia_rect(rect), paint); return CommandResult::Continue; } CommandResult CommandExecutorSkia::paint_conic_gradient(PaintConicGradient const& command) { APPLY_PATH_CLIP_IF_NEEDED return CommandResult::Continue; } CommandResult CommandExecutorSkia::draw_triangle_wave(DrawTriangleWave const&) { return CommandResult::Continue; } void CommandExecutorSkia::prepare_to_execute(size_t) { } CommandResult CommandExecutorSkia::sample_under_corners(SampleUnderCorners const& command) { auto rounded_rect = to_skia_rrect(command.border_rect, command.corner_radii); auto& canvas = surface().canvas(); canvas.save(); auto clip_op = command.corner_clip == CornerClip::Inside ? SkClipOp::kDifference : SkClipOp::kIntersect; canvas.clipRRect(rounded_rect, clip_op, true); return CommandResult::Continue; } CommandResult CommandExecutorSkia::blit_corner_clipping(BlitCornerClipping const&) { auto& canvas = surface().canvas(); canvas.restore(); return CommandResult::Continue; } bool CommandExecutorSkia::would_be_fully_clipped_by_painter(Gfx::IntRect rect) const { return surface().canvas().quickReject(to_skia_rect(rect)); } }