/* * Copyright (c) 2022-2023, MacDue * Copyright (c) 2025, Sam Atkins * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Web::Painting { static ColorStopList replace_transition_hints_with_normal_color_stops(ColorStopList const& color_stop_list) { ColorStopList stops_with_replaced_transition_hints; auto const& first_color_stop = color_stop_list.first(); // First color stop in the list should never have transition hint value VERIFY(!first_color_stop.transition_hint.has_value()); stops_with_replaced_transition_hints.empend(first_color_stop.color, first_color_stop.position); // This loop replaces transition hints with five regular points, calculated using the // formula defined in the spec. After rendering using linear interpolation, this will // produce a result close enough to that obtained if the color of each point were calculated // using the non-linear formula from the spec. for (size_t i = 1; i < color_stop_list.size(); i++) { auto const& color_stop = color_stop_list[i]; if (!color_stop.transition_hint.has_value()) { stops_with_replaced_transition_hints.empend(color_stop.color, color_stop.position); continue; } auto const& previous_color_stop = color_stop_list[i - 1]; auto const& next_color_stop = color_stop_list[i]; auto distance_between_stops = next_color_stop.position - previous_color_stop.position; auto transition_hint = color_stop.transition_hint.value(); Array transition_hint_relative_sampling_positions { transition_hint * 0.33f, transition_hint * 0.66f, transition_hint, transition_hint + (1.f - transition_hint) * 0.33f, transition_hint + (1.f - transition_hint) * 0.66f, }; for (auto const& transition_hint_relative_sampling_position : transition_hint_relative_sampling_positions) { auto position = previous_color_stop.position + transition_hint_relative_sampling_position * distance_between_stops; auto value = Gfx::color_stop_step(previous_color_stop, next_color_stop, position); auto color = previous_color_stop.color.interpolate(next_color_stop.color, value); stops_with_replaced_transition_hints.empend(color, position); } stops_with_replaced_transition_hints.empend(color_stop.color, color_stop.position); } return stops_with_replaced_transition_hints; } static ColorStopList expand_repeat_length(ColorStopList const& color_stop_list, float repeat_length) { // https://drafts.csswg.org/css-images/#repeating-gradients // When rendered, however, the color-stops are repeated infinitely in both directions, with their // positions shifted by multiples of the difference between the last specified color-stop's position // and the first specified color-stop's position. For example, repeating-linear-gradient(red 10px, blue 50px) // is equivalent to linear-gradient(..., red -30px, blue 10px, red 10px, blue 50px, red 50px, blue 90px, ...). auto first_stop_position = color_stop_list.first().position; int const negative_repeat_count = AK::ceil(first_stop_position / repeat_length); int const positive_repeat_count = AK::ceil((1.0f - first_stop_position) / repeat_length); ColorStopList color_stop_list_with_expanded_repeat = color_stop_list; auto get_color_between_stops = [](float position, auto const& current_stop, auto const& previous_stop) { auto distance_between_stops = current_stop.position - previous_stop.position; auto percentage = (position - previous_stop.position) / distance_between_stops; return previous_stop.color.interpolate(current_stop.color, percentage); }; for (auto repeat_count = 1; repeat_count <= negative_repeat_count; repeat_count++) { for (auto stop : color_stop_list.in_reverse()) { stop.position -= repeat_length * static_cast(repeat_count); if (stop.position < 0) { stop.color = get_color_between_stops(0.0f, stop, color_stop_list_with_expanded_repeat.first()); stop.position = 0.0f; color_stop_list_with_expanded_repeat.prepend(stop); break; } color_stop_list_with_expanded_repeat.prepend(stop); } } for (auto repeat_count = 1; repeat_count < positive_repeat_count; repeat_count++) { for (auto stop : color_stop_list) { stop.position += repeat_length * static_cast(repeat_count); if (stop.position > 1) { stop.color = get_color_between_stops(1.0f, stop, color_stop_list_with_expanded_repeat.last()); stop.position = 1.0f; color_stop_list_with_expanded_repeat.append(stop); break; } color_stop_list_with_expanded_repeat.append(stop); } } return color_stop_list_with_expanded_repeat; } static ColorStopList expand_color_stops_for_painting(ColorStopList const& color_stop_list, Optional repeat_length) { auto expanded = repeat_length.has_value() ? expand_repeat_length(color_stop_list, repeat_length.value()) : color_stop_list; return replace_transition_hints_with_normal_color_stops(expanded); } static ColorStopData resolve_color_stop_positions(Layout::NodeWithStyle const& node, Vector const& color_stop_list, auto resolve_position_to_float, bool repeating) { VERIFY(!color_stop_list.is_empty()); ColorStopList resolved_color_stops; auto color_stop_length = [&](auto& stop) { return stop.color_stop.second_position ? 2 : 1; }; size_t expanded_size = 0; for (auto& stop : color_stop_list) expanded_size += color_stop_length(stop); resolved_color_stops.ensure_capacity(expanded_size); for (auto& stop : color_stop_list) { auto resolved_stop = Gfx::ColorStop { .color = stop.color_stop.color->to_color(CSS::ColorResolutionContext::for_layout_node_with_style(node)).value() }; for (int i = 0; i < color_stop_length(stop); i++) resolved_color_stops.append(resolved_stop); } // 1. If the first color stop does not have a position, set its position to 0%. resolved_color_stops.first().position = 0; // If the last color stop does not have a position, set its position to 100% resolved_color_stops.last().position = 1.0f; // 2. If a color stop or transition hint has a position that is less than the // specified position of any color stop or transition hint before it in the list, // set its position to be equal to the largest specified position of any color stop // or transition hint before it. auto max_previous_color_stop_or_hint = resolved_color_stops[0].position; auto resolve_stop_position = [&](CSS::StyleValue const& position) { float value = resolve_position_to_float(position); value = max(value, max_previous_color_stop_or_hint); max_previous_color_stop_or_hint = value; return value; }; size_t resolved_index = 0; for (auto& stop : color_stop_list) { if (stop.transition_hint) resolved_color_stops[resolved_index].transition_hint = resolve_stop_position(*stop.transition_hint); if (stop.color_stop.position) resolved_color_stops[resolved_index].position = resolve_stop_position(*stop.color_stop.position); if (stop.color_stop.second_position) resolved_color_stops[++resolved_index].position = resolve_stop_position(*stop.color_stop.second_position); ++resolved_index; } // 3. If any color stop still does not have a position, then, for each run of adjacent color stops // without positions, set their positions so that they are evenly spaced between the preceding // and following color stops with positions. // Note: Though not mentioned anywhere in the specification transition hints are counted as "color stops with positions". size_t i = 1; auto find_run_end = [&] { auto color_stop_has_position = [](auto& color_stop) { return color_stop.transition_hint.has_value() || isfinite(color_stop.position); }; while (i < color_stop_list.size() - 1 && !color_stop_has_position(resolved_color_stops[i])) { i++; } return i; }; while (i < resolved_color_stops.size() - 1) { auto& stop = resolved_color_stops[i]; if (!isfinite(stop.position)) { auto run_start = i - 1; auto start_position = resolved_color_stops[i++].transition_hint.value_or(resolved_color_stops[run_start].position); auto run_end = find_run_end(); auto end_position = resolved_color_stops[run_end].transition_hint.value_or(resolved_color_stops[run_end].position); auto spacing = (end_position - start_position) / (run_end - run_start); for (auto j = run_start + 1; j < run_end; j++) { resolved_color_stops[j].position = start_position + (j - run_start) * spacing; } } i++; } // Determine the location of the transition hint as a percentage of the distance between the two color stops, // denoted as a number between 0 and 1, where 0 indicates the hint is placed right on the first color stop, // and 1 indicates the hint is placed right on the second color stop. for (size_t i = 1; i < resolved_color_stops.size(); i++) { auto& color_stop = resolved_color_stops[i]; auto& previous_color_stop = resolved_color_stops[i - 1]; if (color_stop.transition_hint.has_value()) { auto stop_length = color_stop.position - previous_color_stop.position; color_stop.transition_hint = stop_length > 0 ? (*color_stop.transition_hint - previous_color_stop.position) / stop_length : 0; } } Optional repeat_length = {}; if (repeating) repeat_length = resolved_color_stops.last().position - resolved_color_stops.first().position; return { resolved_color_stops, repeat_length, repeating }; } LinearGradientData resolve_linear_gradient_data(Layout::NodeWithStyle const& node, CSSPixelSize gradient_size, CSS::LinearGradientStyleValue const& linear_gradient) { auto gradient_angle = linear_gradient.angle_degrees(gradient_size); auto gradient_length_px = Gfx::calculate_gradient_length(gradient_size.to_type(), gradient_angle); auto resolved_color_stops = resolve_color_stop_positions( node, linear_gradient.color_stop_list(), [&](auto const& position) -> float { return CSS::Length::from_style_value(position, CSS::Length::make_px(gradient_length_px)).absolute_length_to_px_without_rounding() / gradient_length_px; }, linear_gradient.is_repeating()); // Replace transition hints for painting; keep repeat_length for Skia's native tiling resolved_color_stops.list = replace_transition_hints_with_normal_color_stops(resolved_color_stops.list); return { gradient_angle, resolved_color_stops, linear_gradient.interpolation_method() }; } ConicGradientData resolve_conic_gradient_data(Layout::NodeWithStyle const& node, CSS::ConicGradientStyleValue const& conic_gradient) { CSS::Angle const one_turn { 360.0f, CSS::AngleUnit::Deg }; auto resolved_color_stops = resolve_color_stop_positions( node, conic_gradient.color_stop_list(), [&](auto const& position) -> float { return CSS::Angle::from_style_value(position, one_turn).to_degrees() / one_turn.to_degrees(); }, conic_gradient.is_repeating()); // Expand color stops for painting (replace transition hints and expand repeat length) resolved_color_stops.list = expand_color_stops_for_painting(resolved_color_stops.list, resolved_color_stops.repeat_length); resolved_color_stops.repeat_length = {}; return { conic_gradient.angle_degrees(), resolved_color_stops, conic_gradient.interpolation_method() }; } RadialGradientData resolve_radial_gradient_data(Layout::NodeWithStyle const& node, CSSPixelSize gradient_size, CSS::RadialGradientStyleValue const& radial_gradient) { // Start center, goes right to ending point, where the gradient line intersects the ending shape auto resolved_color_stops = resolve_color_stop_positions( node, radial_gradient.color_stop_list(), [&](auto const& position) -> float { return CSS::Length::from_style_value(position, CSS::Length::make_px(gradient_size.width())).absolute_length_to_px_without_rounding() / gradient_size.width().to_float(); }, radial_gradient.is_repeating()); // Expand color stops for painting (replace transition hints and expand repeat length) resolved_color_stops.list = expand_color_stops_for_painting(resolved_color_stops.list, resolved_color_stops.repeat_length); resolved_color_stops.repeat_length = {}; return { resolved_color_stops, radial_gradient.interpolation_method() }; } }