зеркало из https://github.com/mozilla/gecko-dev.git
3112 строки
152 KiB
Rust
3112 строки
152 KiB
Rust
/* 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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//! Layout for CSS block-level elements.
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//!
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//! As a terminology note, the term *absolute positioning* here refers to elements with position
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//! `absolute` or `fixed`. The term *positioned element* refers to elements with position
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//! `relative`, `absolute`, and `fixed`. The term *containing block* (occasionally abbreviated as
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//! *CB*) is the containing block for the current flow, which differs from the static containing
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//! block if the flow is absolutely-positioned.
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//!
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//! "CSS 2.1" or "CSS 2.2" refers to the editor's draft of the W3C "Cascading Style Sheets Level 2
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//! Revision 2 (CSS 2.2) Specification" available here:
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//!
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//! http://dev.w3.org/csswg/css2/
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//!
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//! "INTRINSIC" refers to L. David Baron's "More Precise Definitions of Inline Layout and Table
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//! Layout" available here:
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//!
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//! http://dbaron.org/css/intrinsic/
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//!
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//! "CSS-SIZING" refers to the W3C "CSS Intrinsic & Extrinsic Sizing Module Level 3" document
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//! available here:
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//!
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//! http://dev.w3.org/csswg/css-sizing/
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#![deny(unsafe_code)]
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use app_units::{Au, MAX_AU};
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use context::LayoutContext;
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use display_list::{BlockFlowDisplayListBuilding, BorderPaintingMode};
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use display_list::{DisplayListBuildState, StackingContextCollectionFlags};
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use display_list::StackingContextCollectionState;
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use euclid::{Point2D, Rect, SideOffsets2D, Size2D};
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use floats::{ClearType, FloatKind, Floats, PlacementInfo};
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use flow::{BaseFlow, EarlyAbsolutePositionInfo, Flow, FlowClass, ForceNonfloatedFlag, GetBaseFlow};
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use flow::{ImmutableFlowUtils, LateAbsolutePositionInfo, OpaqueFlow, FragmentationContext, FlowFlags};
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use flow_list::FlowList;
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use fragment::{CoordinateSystem, Fragment, FragmentBorderBoxIterator, Overflow, FragmentFlags};
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use gfx::display_list::DisplayListSection;
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use gfx_traits::print_tree::PrintTree;
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use incremental::RelayoutMode;
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use layout_debug;
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use model::{AdjoiningMargins, CollapsibleMargins, IntrinsicISizes, MarginCollapseInfo, MaybeAuto};
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use sequential;
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use serde::{Serialize, Serializer};
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use servo_geometry::MaxRect;
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use std::cmp::{max, min};
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use std::fmt;
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use std::sync::Arc;
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use style::computed_values::box_sizing::T as BoxSizing;
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use style::computed_values::display::T as Display;
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use style::computed_values::float::T as Float;
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use style::computed_values::overflow_x::T as StyleOverflow;
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use style::computed_values::position::T as Position;
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use style::computed_values::text_align::T as TextAlign;
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use style::context::SharedStyleContext;
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use style::logical_geometry::{LogicalMargin, LogicalPoint, LogicalRect, LogicalSize, WritingMode};
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use style::properties::ComputedValues;
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use style::servo::restyle_damage::ServoRestyleDamage;
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use style::values::computed::{LengthOrPercentageOrNone, LengthOrPercentage};
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use style::values::computed::LengthOrPercentageOrAuto;
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use traversal::PreorderFlowTraversal;
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/// Information specific to floated blocks.
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#[derive(Clone, Serialize)]
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pub struct FloatedBlockInfo {
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/// The amount of inline size that is available for the float.
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pub containing_inline_size: Au,
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/// The float ceiling, relative to `BaseFlow::position::cur_b` (i.e. the top part of the border
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/// box).
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pub float_ceiling: Au,
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/// Left or right?
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pub float_kind: FloatKind,
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}
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impl FloatedBlockInfo {
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pub fn new(float_kind: FloatKind) -> FloatedBlockInfo {
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FloatedBlockInfo {
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containing_inline_size: Au(0),
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float_ceiling: Au(0),
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float_kind: float_kind,
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}
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}
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}
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/// The solutions for the block-size-and-margins constraint equation.
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#[derive(Clone, Copy)]
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struct BSizeConstraintSolution {
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block_start: Au,
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block_size: Au,
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margin_block_start: Au,
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margin_block_end: Au
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}
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impl BSizeConstraintSolution {
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fn new(block_start: Au,
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block_size: Au,
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margin_block_start: Au,
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margin_block_end: Au)
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-> BSizeConstraintSolution {
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BSizeConstraintSolution {
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block_start: block_start,
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block_size: block_size,
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margin_block_start: margin_block_start,
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margin_block_end: margin_block_end,
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}
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}
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/// Solve the vertical constraint equation for absolute non-replaced elements.
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///
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/// CSS Section 10.6.4
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/// Constraint equation:
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/// block-start + block-end + block-size + margin-block-start + margin-block-end
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/// = absolute containing block block-size - (vertical padding and border)
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/// [aka available_block-size]
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///
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/// Return the solution for the equation.
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fn solve_vertical_constraints_abs_nonreplaced(block_size: MaybeAuto,
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block_start_margin: MaybeAuto,
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block_end_margin: MaybeAuto,
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block_start: MaybeAuto,
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block_end: MaybeAuto,
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content_block_size: Au,
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available_block_size: Au)
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-> BSizeConstraintSolution {
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let (block_start, block_size, margin_block_start, margin_block_end) =
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match (block_start, block_end, block_size) {
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(MaybeAuto::Auto, MaybeAuto::Auto, MaybeAuto::Auto) => {
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let margin_block_start = block_start_margin.specified_or_zero();
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let margin_block_end = block_end_margin.specified_or_zero();
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// Now it is the same situation as block-start Specified and block-end
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// and block-size Auto.
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let block_size = content_block_size;
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// Use a dummy value for `block_start`, since it has the static position.
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(Au(0), block_size, margin_block_start, margin_block_end)
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}
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(MaybeAuto::Specified(block_start),
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MaybeAuto::Specified(block_end),
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MaybeAuto::Specified(block_size)) => {
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match (block_start_margin, block_end_margin) {
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(MaybeAuto::Auto, MaybeAuto::Auto) => {
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let total_margin_val =
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available_block_size - block_start - block_end - block_size;
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(block_start,
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block_size,
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total_margin_val.scale_by(0.5),
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total_margin_val.scale_by(0.5))
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}
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(MaybeAuto::Specified(margin_block_start), MaybeAuto::Auto) => {
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let sum = block_start + block_end + block_size + margin_block_start;
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(block_start,
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block_size,
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margin_block_start,
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available_block_size - sum)
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}
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(MaybeAuto::Auto, MaybeAuto::Specified(margin_block_end)) => {
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let sum = block_start + block_end + block_size + margin_block_end;
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(block_start, block_size, available_block_size - sum, margin_block_end)
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}
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(MaybeAuto::Specified(margin_block_start),
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MaybeAuto::Specified(margin_block_end)) => {
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// Values are over-constrained. Ignore value for 'block-end'.
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(block_start, block_size, margin_block_start, margin_block_end)
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}
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}
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}
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// For the rest of the cases, auto values for margin are set to 0
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// If only one is Auto, solve for it
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(MaybeAuto::Auto,
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MaybeAuto::Specified(block_end),
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MaybeAuto::Specified(block_size)) => {
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let margin_block_start = block_start_margin.specified_or_zero();
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let margin_block_end = block_end_margin.specified_or_zero();
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let sum = block_end + block_size + margin_block_start + margin_block_end;
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(available_block_size - sum, block_size, margin_block_start, margin_block_end)
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}
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(MaybeAuto::Specified(block_start),
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MaybeAuto::Auto,
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MaybeAuto::Specified(block_size)) => {
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let margin_block_start = block_start_margin.specified_or_zero();
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let margin_block_end = block_end_margin.specified_or_zero();
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(block_start, block_size, margin_block_start, margin_block_end)
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}
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(MaybeAuto::Specified(block_start),
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MaybeAuto::Specified(block_end),
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MaybeAuto::Auto) => {
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let margin_block_start = block_start_margin.specified_or_zero();
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let margin_block_end = block_end_margin.specified_or_zero();
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let sum = block_start + block_end + margin_block_start + margin_block_end;
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(block_start, available_block_size - sum, margin_block_start, margin_block_end)
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}
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// If block-size is auto, then block-size is content block-size. Solve for the
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// non-auto value.
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(MaybeAuto::Specified(block_start), MaybeAuto::Auto, MaybeAuto::Auto) => {
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let margin_block_start = block_start_margin.specified_or_zero();
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let margin_block_end = block_end_margin.specified_or_zero();
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let block_size = content_block_size;
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(block_start, block_size, margin_block_start, margin_block_end)
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}
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(MaybeAuto::Auto, MaybeAuto::Specified(block_end), MaybeAuto::Auto) => {
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let margin_block_start = block_start_margin.specified_or_zero();
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let margin_block_end = block_end_margin.specified_or_zero();
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let block_size = content_block_size;
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let sum = block_end + block_size + margin_block_start + margin_block_end;
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(available_block_size - sum, block_size, margin_block_start, margin_block_end)
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}
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(MaybeAuto::Auto, MaybeAuto::Auto, MaybeAuto::Specified(block_size)) => {
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let margin_block_start = block_start_margin.specified_or_zero();
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let margin_block_end = block_end_margin.specified_or_zero();
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// Use a dummy value for `block_start`, since it has the static position.
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(Au(0), block_size, margin_block_start, margin_block_end)
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}
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};
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BSizeConstraintSolution::new(block_start, block_size, margin_block_start, margin_block_end)
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}
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/// Solve the vertical constraint equation for absolute replaced elements.
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///
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/// Assumption: The used value for block-size has already been calculated.
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///
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/// CSS Section 10.6.5
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/// Constraint equation:
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/// block-start + block-end + block-size + margin-block-start + margin-block-end
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/// = absolute containing block block-size - (vertical padding and border)
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/// [aka available block-size]
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///
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/// Return the solution for the equation.
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fn solve_vertical_constraints_abs_replaced(block_size: Au,
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block_start_margin: MaybeAuto,
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block_end_margin: MaybeAuto,
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block_start: MaybeAuto,
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block_end: MaybeAuto,
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_: Au,
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available_block_size: Au)
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-> BSizeConstraintSolution {
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let (block_start, block_size, margin_block_start, margin_block_end) =
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match (block_start, block_end) {
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(MaybeAuto::Auto, MaybeAuto::Auto) => {
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let margin_block_start = block_start_margin.specified_or_zero();
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let margin_block_end = block_end_margin.specified_or_zero();
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// Use a dummy value for `block_start`, since it has the static position.
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(Au(0), block_size, margin_block_start, margin_block_end)
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}
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(MaybeAuto::Specified(block_start), MaybeAuto::Specified(block_end)) => {
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match (block_start_margin, block_end_margin) {
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(MaybeAuto::Auto, MaybeAuto::Auto) => {
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let total_margin_val = available_block_size - block_start - block_end -
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block_size;
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(block_start,
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block_size,
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total_margin_val.scale_by(0.5),
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total_margin_val.scale_by(0.5))
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}
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(MaybeAuto::Specified(margin_block_start), MaybeAuto::Auto) => {
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let sum = block_start + block_end + block_size + margin_block_start;
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(block_start,
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block_size,
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margin_block_start,
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available_block_size - sum)
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}
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(MaybeAuto::Auto, MaybeAuto::Specified(margin_block_end)) => {
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let sum = block_start + block_end + block_size + margin_block_end;
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(block_start, block_size, available_block_size - sum, margin_block_end)
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}
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(MaybeAuto::Specified(margin_block_start),
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MaybeAuto::Specified(margin_block_end)) => {
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// Values are over-constrained. Ignore value for 'block-end'.
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(block_start, block_size, margin_block_start, margin_block_end)
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}
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}
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}
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// If only one is Auto, solve for it
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(MaybeAuto::Auto, MaybeAuto::Specified(block_end)) => {
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let margin_block_start = block_start_margin.specified_or_zero();
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let margin_block_end = block_end_margin.specified_or_zero();
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let sum = block_end + block_size + margin_block_start + margin_block_end;
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(available_block_size - sum, block_size, margin_block_start, margin_block_end)
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}
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(MaybeAuto::Specified(block_start), MaybeAuto::Auto) => {
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let margin_block_start = block_start_margin.specified_or_zero();
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let margin_block_end = block_end_margin.specified_or_zero();
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(block_start, block_size, margin_block_start, margin_block_end)
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}
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};
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BSizeConstraintSolution::new(block_start, block_size, margin_block_start, margin_block_end)
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}
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}
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/// Performs block-size calculations potentially multiple times, taking
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/// (assuming an horizontal writing mode) `height`, `min-height`, and `max-height`
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/// into account. After each call to `next()`, the caller must call `.try()` with the
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/// current calculated value of `height`.
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///
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/// See CSS 2.1 § 10.7.
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pub struct CandidateBSizeIterator {
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block_size: MaybeAuto,
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max_block_size: Option<Au>,
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min_block_size: Au,
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pub candidate_value: Au,
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status: CandidateBSizeIteratorStatus,
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}
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impl CandidateBSizeIterator {
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/// Creates a new candidate block-size iterator. `block_container_block-size` is `None` if the block-size
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/// of the block container has not been determined yet. It will always be `Some` in the case of
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/// absolutely-positioned containing blocks.
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pub fn new(fragment: &Fragment, block_container_block_size: Option<Au>)
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-> CandidateBSizeIterator {
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// Per CSS 2.1 § 10.7, (assuming an horizontal writing mode,)
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// percentages in `min-height` and `max-height` refer to the height of
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// the containing block.
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// If that is not determined yet by the time we need to resolve
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// `min-height` and `max-height`, percentage values are ignored.
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let block_size = match (fragment.style.content_block_size(), block_container_block_size) {
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(LengthOrPercentageOrAuto::Percentage(percent), Some(block_container_block_size)) => {
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MaybeAuto::Specified(block_container_block_size.scale_by(percent.0))
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}
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(LengthOrPercentageOrAuto::Calc(calc), _) => {
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MaybeAuto::from_option(calc.to_used_value(block_container_block_size))
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}
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(LengthOrPercentageOrAuto::Percentage(_), None) |
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(LengthOrPercentageOrAuto::Auto, _) => MaybeAuto::Auto,
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(LengthOrPercentageOrAuto::Length(length), _) => MaybeAuto::Specified(Au::from(length)),
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};
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let max_block_size = match (fragment.style.max_block_size(), block_container_block_size) {
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(LengthOrPercentageOrNone::Percentage(percent), Some(block_container_block_size)) => {
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Some(block_container_block_size.scale_by(percent.0))
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}
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(LengthOrPercentageOrNone::Calc(calc), _) => {
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calc.to_used_value(block_container_block_size)
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}
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(LengthOrPercentageOrNone::Percentage(_), None) |
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(LengthOrPercentageOrNone::None, _) => None,
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(LengthOrPercentageOrNone::Length(length), _) => Some(Au::from(length)),
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};
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let min_block_size = match (fragment.style.min_block_size(), block_container_block_size) {
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(LengthOrPercentage::Percentage(percent), Some(block_container_block_size)) => {
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block_container_block_size.scale_by(percent.0)
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}
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(LengthOrPercentage::Calc(calc), _) => {
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calc.to_used_value(block_container_block_size).unwrap_or(Au(0))
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}
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(LengthOrPercentage::Percentage(_), None) => Au(0),
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(LengthOrPercentage::Length(length), _) => Au::from(length),
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};
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// If the style includes `box-sizing: border-box`, subtract the border and padding.
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let adjustment_for_box_sizing = match fragment.style.get_position().box_sizing {
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BoxSizing::BorderBox => fragment.border_padding.block_start_end(),
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BoxSizing::ContentBox => Au(0),
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};
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return CandidateBSizeIterator {
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block_size: block_size.map(|size| adjust(size, adjustment_for_box_sizing)),
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max_block_size: max_block_size.map(|size| adjust(size, adjustment_for_box_sizing)),
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min_block_size: adjust(min_block_size, adjustment_for_box_sizing),
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candidate_value: Au(0),
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status: CandidateBSizeIteratorStatus::Initial,
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};
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fn adjust(size: Au, delta: Au) -> Au {
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max(size - delta, Au(0))
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}
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}
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}
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impl Iterator for CandidateBSizeIterator {
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type Item = MaybeAuto;
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fn next(&mut self) -> Option<MaybeAuto> {
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self.status = match self.status {
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CandidateBSizeIteratorStatus::Initial => CandidateBSizeIteratorStatus::Trying,
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CandidateBSizeIteratorStatus::Trying => {
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match self.max_block_size {
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Some(max_block_size) if self.candidate_value > max_block_size => {
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CandidateBSizeIteratorStatus::TryingMax
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}
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_ if self.candidate_value < self.min_block_size => {
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CandidateBSizeIteratorStatus::TryingMin
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}
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_ => CandidateBSizeIteratorStatus::Found,
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}
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}
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CandidateBSizeIteratorStatus::TryingMax => {
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if self.candidate_value < self.min_block_size {
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CandidateBSizeIteratorStatus::TryingMin
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} else {
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CandidateBSizeIteratorStatus::Found
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}
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}
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CandidateBSizeIteratorStatus::TryingMin | CandidateBSizeIteratorStatus::Found => {
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CandidateBSizeIteratorStatus::Found
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}
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};
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match self.status {
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CandidateBSizeIteratorStatus::Trying => Some(self.block_size),
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CandidateBSizeIteratorStatus::TryingMax => {
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Some(MaybeAuto::Specified(self.max_block_size.unwrap()))
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}
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CandidateBSizeIteratorStatus::TryingMin => {
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Some(MaybeAuto::Specified(self.min_block_size))
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}
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CandidateBSizeIteratorStatus::Found => None,
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CandidateBSizeIteratorStatus::Initial => panic!(),
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}
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}
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}
|
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|
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enum CandidateBSizeIteratorStatus {
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Initial,
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Trying,
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TryingMax,
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TryingMin,
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Found,
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}
|
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|
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// A helper function used in block-size calculation.
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fn translate_including_floats(cur_b: &mut Au, delta: Au, floats: &mut Floats) {
|
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*cur_b = *cur_b + delta;
|
||
let writing_mode = floats.writing_mode;
|
||
floats.translate(LogicalSize::new(writing_mode, Au(0), -delta));
|
||
}
|
||
|
||
/// The real assign-block-sizes traversal for flows with position 'absolute'.
|
||
///
|
||
/// This is a traversal of an Absolute Flow tree.
|
||
/// - Relatively positioned flows and the Root flow start new Absolute flow trees.
|
||
/// - The kids of a flow in this tree will be the flows for which it is the
|
||
/// absolute Containing Block.
|
||
/// - Thus, leaf nodes and inner non-root nodes are all Absolute Flows.
|
||
///
|
||
/// A Flow tree can have several Absolute Flow trees (depending on the number
|
||
/// of relatively positioned flows it has).
|
||
///
|
||
/// Note that flows with position 'fixed' just form a flat list as they all
|
||
/// have the Root flow as their CB.
|
||
pub struct AbsoluteAssignBSizesTraversal<'a>(pub &'a SharedStyleContext<'a>);
|
||
|
||
impl<'a> PreorderFlowTraversal for AbsoluteAssignBSizesTraversal<'a> {
|
||
#[inline]
|
||
fn process(&self, flow: &mut Flow) {
|
||
if !flow.is_block_like() {
|
||
return
|
||
}
|
||
|
||
// This flow might not be an absolutely positioned flow if it is the root of the tree.
|
||
let block = flow.as_mut_block();
|
||
if !block.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) {
|
||
return;
|
||
}
|
||
|
||
if !block.base.restyle_damage.intersects(ServoRestyleDamage::REFLOW_OUT_OF_FLOW | ServoRestyleDamage::REFLOW) {
|
||
return
|
||
}
|
||
|
||
block.calculate_absolute_block_size_and_margins(self.0);
|
||
}
|
||
}
|
||
|
||
pub enum BlockType {
|
||
Replaced,
|
||
NonReplaced,
|
||
AbsoluteReplaced,
|
||
AbsoluteNonReplaced,
|
||
FloatReplaced,
|
||
FloatNonReplaced,
|
||
InlineBlockReplaced,
|
||
InlineBlockNonReplaced,
|
||
InlineFlexItem,
|
||
}
|
||
|
||
#[derive(Clone, PartialEq)]
|
||
pub enum MarginsMayCollapseFlag {
|
||
MarginsMayCollapse,
|
||
MarginsMayNotCollapse,
|
||
}
|
||
|
||
#[derive(Debug, PartialEq)]
|
||
pub enum FormattingContextType {
|
||
None,
|
||
Block,
|
||
Other,
|
||
}
|
||
|
||
#[allow(unsafe_code)]
|
||
unsafe impl ::flow::HasBaseFlow for BlockFlow {}
|
||
|
||
// A block formatting context.
|
||
#[derive(Serialize)]
|
||
#[repr(C)]
|
||
pub struct BlockFlow {
|
||
/// Data common to all flows.
|
||
pub base: BaseFlow,
|
||
|
||
/// The associated fragment.
|
||
pub fragment: Fragment,
|
||
|
||
/// Additional floating flow members.
|
||
pub float: Option<Box<FloatedBlockInfo>>,
|
||
|
||
/// Various flags.
|
||
flags: BlockFlowFlags,
|
||
}
|
||
|
||
bitflags! {
|
||
struct BlockFlowFlags: u8 {
|
||
#[doc = "If this is set, then this block flow is the root flow."]
|
||
const IS_ROOT = 0b0000_0001;
|
||
#[doc = "If this is set, then this block flow has overflow and it will scroll."]
|
||
const HAS_SCROLLING_OVERFLOW = 0b0000_0010;
|
||
}
|
||
}
|
||
|
||
impl Serialize for BlockFlowFlags {
|
||
fn serialize<S: Serializer>(&self, serializer: S) -> Result<S::Ok, S::Error> {
|
||
self.bits().serialize(serializer)
|
||
}
|
||
}
|
||
|
||
impl BlockFlow {
|
||
pub fn from_fragment(fragment: Fragment) -> BlockFlow {
|
||
BlockFlow::from_fragment_and_float_kind(fragment, None)
|
||
}
|
||
|
||
pub fn from_fragment_and_float_kind(fragment: Fragment, float_kind: Option<FloatKind>)
|
||
-> BlockFlow {
|
||
let writing_mode = fragment.style().writing_mode;
|
||
BlockFlow {
|
||
base: BaseFlow::new(Some(fragment.style()), writing_mode, match float_kind {
|
||
Some(_) => ForceNonfloatedFlag::FloatIfNecessary,
|
||
None => ForceNonfloatedFlag::ForceNonfloated,
|
||
}),
|
||
fragment: fragment,
|
||
float: float_kind.map(|kind| Box::new(FloatedBlockInfo::new(kind))),
|
||
flags: BlockFlowFlags::empty(),
|
||
}
|
||
}
|
||
|
||
/// Return the type of this block.
|
||
///
|
||
/// This determines the algorithm used to calculate inline-size, block-size, and the
|
||
/// relevant margins for this Block.
|
||
pub fn block_type(&self) -> BlockType {
|
||
if self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) {
|
||
if self.fragment.is_replaced() {
|
||
BlockType::AbsoluteReplaced
|
||
} else {
|
||
BlockType::AbsoluteNonReplaced
|
||
}
|
||
} else if self.is_inline_flex_item() {
|
||
BlockType::InlineFlexItem
|
||
} else if self.base.flags.is_float() {
|
||
if self.fragment.is_replaced() {
|
||
BlockType::FloatReplaced
|
||
} else {
|
||
BlockType::FloatNonReplaced
|
||
}
|
||
} else if self.is_inline_block_or_inline_flex() {
|
||
if self.fragment.is_replaced() {
|
||
BlockType::InlineBlockReplaced
|
||
} else {
|
||
BlockType::InlineBlockNonReplaced
|
||
}
|
||
} else {
|
||
if self.fragment.is_replaced() {
|
||
BlockType::Replaced
|
||
} else {
|
||
BlockType::NonReplaced
|
||
}
|
||
}
|
||
}
|
||
|
||
/// Compute the actual inline size and position for this block.
|
||
pub fn compute_used_inline_size(&mut self,
|
||
shared_context: &SharedStyleContext,
|
||
containing_block_inline_size: Au) {
|
||
let block_type = self.block_type();
|
||
match block_type {
|
||
BlockType::AbsoluteReplaced => {
|
||
let inline_size_computer = AbsoluteReplaced;
|
||
inline_size_computer.compute_used_inline_size(self,
|
||
shared_context,
|
||
containing_block_inline_size);
|
||
}
|
||
BlockType::AbsoluteNonReplaced => {
|
||
let inline_size_computer = AbsoluteNonReplaced;
|
||
inline_size_computer.compute_used_inline_size(self,
|
||
shared_context,
|
||
containing_block_inline_size);
|
||
}
|
||
BlockType::FloatReplaced => {
|
||
let inline_size_computer = FloatReplaced;
|
||
inline_size_computer.compute_used_inline_size(self,
|
||
shared_context,
|
||
containing_block_inline_size);
|
||
}
|
||
BlockType::FloatNonReplaced => {
|
||
let inline_size_computer = FloatNonReplaced;
|
||
inline_size_computer.compute_used_inline_size(self,
|
||
shared_context,
|
||
containing_block_inline_size);
|
||
}
|
||
BlockType::InlineBlockReplaced => {
|
||
let inline_size_computer = InlineBlockReplaced;
|
||
inline_size_computer.compute_used_inline_size(self,
|
||
shared_context,
|
||
containing_block_inline_size);
|
||
}
|
||
BlockType::InlineBlockNonReplaced => {
|
||
let inline_size_computer = InlineBlockNonReplaced;
|
||
inline_size_computer.compute_used_inline_size(self,
|
||
shared_context,
|
||
containing_block_inline_size);
|
||
}
|
||
BlockType::Replaced => {
|
||
let inline_size_computer = BlockReplaced;
|
||
inline_size_computer.compute_used_inline_size(self,
|
||
shared_context,
|
||
containing_block_inline_size);
|
||
}
|
||
BlockType::NonReplaced => {
|
||
let inline_size_computer = BlockNonReplaced;
|
||
inline_size_computer.compute_used_inline_size(self,
|
||
shared_context,
|
||
containing_block_inline_size);
|
||
}
|
||
BlockType::InlineFlexItem => {
|
||
let inline_size_computer = InlineFlexItem;
|
||
inline_size_computer.compute_used_inline_size(self,
|
||
shared_context,
|
||
containing_block_inline_size);
|
||
}
|
||
}
|
||
}
|
||
|
||
/// Return this flow's fragment.
|
||
pub fn fragment(&mut self) -> &mut Fragment {
|
||
&mut self.fragment
|
||
}
|
||
|
||
pub fn stacking_relative_border_box(&self, coor: CoordinateSystem) -> Rect<Au> {
|
||
return self.fragment.stacking_relative_border_box(
|
||
&self.base.stacking_relative_position,
|
||
&self.base.early_absolute_position_info.relative_containing_block_size,
|
||
self.base.early_absolute_position_info.relative_containing_block_mode,
|
||
coor);
|
||
}
|
||
|
||
/// Return the size of the containing block for the given immediate absolute descendant of this
|
||
/// flow.
|
||
///
|
||
/// Right now, this only gets the containing block size for absolutely positioned elements.
|
||
/// Note: We assume this is called in a top-down traversal, so it is ok to reference the CB.
|
||
#[inline]
|
||
pub fn containing_block_size(&self, viewport_size: &Size2D<Au>, descendant: OpaqueFlow)
|
||
-> LogicalSize<Au> {
|
||
debug_assert!(self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED));
|
||
if self.is_fixed() || self.is_root() {
|
||
// Initial containing block is the CB for the root
|
||
LogicalSize::from_physical(self.base.writing_mode, *viewport_size)
|
||
} else {
|
||
self.base.absolute_cb.generated_containing_block_size(descendant)
|
||
}
|
||
}
|
||
|
||
/// Return shrink-to-fit inline-size.
|
||
///
|
||
/// This is where we use the preferred inline-sizes and minimum inline-sizes
|
||
/// calculated in the bubble-inline-sizes traversal.
|
||
pub fn get_shrink_to_fit_inline_size(&self, available_inline_size: Au) -> Au {
|
||
let content_intrinsic_inline_sizes = self.content_intrinsic_inline_sizes();
|
||
min(content_intrinsic_inline_sizes.preferred_inline_size,
|
||
max(content_intrinsic_inline_sizes.minimum_inline_size, available_inline_size))
|
||
}
|
||
|
||
/// If this is the root flow, shifts all kids down and adjusts our size to account for
|
||
/// root flow margins, which should never be collapsed according to CSS § 8.3.1.
|
||
///
|
||
/// TODO(#2017, pcwalton): This is somewhat inefficient (traverses kids twice); can we do
|
||
/// better?
|
||
fn adjust_fragments_for_collapsed_margins_if_root(&mut self,
|
||
shared_context: &SharedStyleContext) {
|
||
if !self.is_root() {
|
||
return
|
||
}
|
||
|
||
let (block_start_margin_value, block_end_margin_value) =
|
||
match self.base.collapsible_margins {
|
||
CollapsibleMargins::CollapseThrough(_) => {
|
||
panic!("Margins unexpectedly collapsed through root flow.")
|
||
}
|
||
CollapsibleMargins::Collapse(block_start_margin, block_end_margin) => {
|
||
(block_start_margin.collapse(), block_end_margin.collapse())
|
||
}
|
||
CollapsibleMargins::None(block_start, block_end) => (block_start, block_end),
|
||
};
|
||
|
||
// Shift all kids down (or up, if margins are negative) if necessary.
|
||
if block_start_margin_value != Au(0) {
|
||
for kid in self.base.child_iter_mut() {
|
||
let kid_base = kid.mut_base();
|
||
kid_base.position.start.b = kid_base.position.start.b + block_start_margin_value
|
||
}
|
||
}
|
||
|
||
// FIXME(#2003, pcwalton): The max is taken here so that you can scroll the page, but this
|
||
// is not correct behavior according to CSS 2.1 § 10.5. Instead I think we should treat the
|
||
// root element as having `overflow: scroll` and use the layers-based scrolling
|
||
// infrastructure to make it scrollable.
|
||
let viewport_size =
|
||
LogicalSize::from_physical(self.fragment.style.writing_mode,
|
||
shared_context.viewport_size());
|
||
let block_size = max(viewport_size.block,
|
||
self.fragment.border_box.size.block + block_start_margin_value +
|
||
block_end_margin_value);
|
||
|
||
self.base.position.size.block = block_size;
|
||
self.fragment.border_box.size.block = block_size;
|
||
}
|
||
|
||
// FIXME: Record enough info to deal with fragmented decorations.
|
||
// See https://drafts.csswg.org/css-break/#break-decoration
|
||
// For borders, this might be `enum FragmentPosition { First, Middle, Last }`
|
||
fn clone_with_children(&self, new_children: FlowList) -> BlockFlow {
|
||
BlockFlow {
|
||
base: self.base.clone_with_children(new_children),
|
||
fragment: self.fragment.clone(),
|
||
float: self.float.clone(),
|
||
..*self
|
||
}
|
||
}
|
||
|
||
/// Writes in the size of the relative containing block for children. (This information
|
||
/// is also needed to handle RTL.)
|
||
fn propagate_early_absolute_position_info_to_children(&mut self) {
|
||
for kid in self.base.child_iter_mut() {
|
||
kid.mut_base().early_absolute_position_info = EarlyAbsolutePositionInfo {
|
||
relative_containing_block_size: self.fragment.content_box().size,
|
||
relative_containing_block_mode: self.fragment.style().writing_mode,
|
||
}
|
||
}
|
||
}
|
||
|
||
/// Assign block-size for current flow.
|
||
///
|
||
/// * Collapse margins for flow's children and set in-flow child flows' block offsets now that
|
||
/// we know their block-sizes.
|
||
/// * Calculate and set the block-size of the current flow.
|
||
/// * Calculate block-size, vertical margins, and block offset for the flow's box using CSS §
|
||
/// 10.6.7.
|
||
///
|
||
/// For absolute flows, we store the calculated content block-size for the flow. We defer the
|
||
/// calculation of the other values until a later traversal.
|
||
///
|
||
/// When `fragmentation_context` is given (not `None`), this should fit as much of the content
|
||
/// as possible within the available block size.
|
||
/// If there is more content (that doesn’t fit), this flow is *fragmented*
|
||
/// with the extra content moved to another fragment (a flow like this one) which is returned.
|
||
/// See `Flow::fragment`.
|
||
///
|
||
/// The return value is always `None` when `fragmentation_context` is `None`.
|
||
///
|
||
/// `inline(always)` because this is only ever called by in-order or non-in-order top-level
|
||
/// methods.
|
||
#[inline(always)]
|
||
pub fn assign_block_size_block_base(&mut self,
|
||
layout_context: &LayoutContext,
|
||
mut fragmentation_context: Option<FragmentationContext>,
|
||
margins_may_collapse: MarginsMayCollapseFlag)
|
||
-> Option<Arc<Flow>> {
|
||
let _scope = layout_debug_scope!("assign_block_size_block_base {:x}",
|
||
self.base.debug_id());
|
||
|
||
let mut break_at = None;
|
||
let content_box = self.fragment.content_box();
|
||
if self.base.restyle_damage.contains(ServoRestyleDamage::REFLOW) {
|
||
// Our current border-box position.
|
||
let mut cur_b = Au(0);
|
||
|
||
// Absolute positioning establishes a block formatting context. Don't propagate floats
|
||
// in or out. (But do propagate them between kids.)
|
||
if self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) ||
|
||
margins_may_collapse != MarginsMayCollapseFlag::MarginsMayCollapse {
|
||
self.base.floats = Floats::new(self.fragment.style.writing_mode);
|
||
}
|
||
|
||
let writing_mode = self.base.floats.writing_mode;
|
||
self.base.floats.translate(LogicalSize::new(
|
||
writing_mode, -self.fragment.inline_start_offset(), Au(0)));
|
||
|
||
// The sum of our block-start border and block-start padding.
|
||
let block_start_offset = self.fragment.border_padding.block_start;
|
||
translate_including_floats(&mut cur_b, block_start_offset, &mut self.base.floats);
|
||
|
||
let can_collapse_block_start_margin_with_kids =
|
||
margins_may_collapse == MarginsMayCollapseFlag::MarginsMayCollapse &&
|
||
!self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) &&
|
||
self.fragment.border_padding.block_start == Au(0);
|
||
let mut margin_collapse_info = MarginCollapseInfo::initialize_block_start_margin(
|
||
&self.fragment,
|
||
can_collapse_block_start_margin_with_kids);
|
||
|
||
// At this point, `cur_b` is at the content edge of our box. Now iterate over children.
|
||
let mut floats = self.base.floats.clone();
|
||
let thread_id = self.base.thread_id;
|
||
let (mut had_floated_children, mut had_children_with_clearance) = (false, false);
|
||
for (child_index, kid) in self.base.child_iter_mut().enumerate() {
|
||
if kid.base().flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) {
|
||
// Assume that the *hypothetical box* for an absolute flow starts immediately
|
||
// after the margin-end border edge of the previous flow.
|
||
if kid.base().flags.contains(FlowFlags::BLOCK_POSITION_IS_STATIC) {
|
||
let previous_bottom_margin = margin_collapse_info.current_float_ceiling();
|
||
|
||
kid.mut_base().position.start.b = cur_b +
|
||
kid.base().collapsible_margins
|
||
.block_start_margin_for_noncollapsible_context() +
|
||
previous_bottom_margin
|
||
}
|
||
kid.place_float_if_applicable();
|
||
if !kid.base().flags.is_float() {
|
||
kid.assign_block_size_for_inorder_child_if_necessary(layout_context,
|
||
thread_id,
|
||
content_box);
|
||
}
|
||
|
||
// Skip the collapsing and float processing for absolute flow kids and continue
|
||
// with the next flow.
|
||
continue
|
||
}
|
||
|
||
let previous_b = cur_b;
|
||
if let Some(ctx) = fragmentation_context {
|
||
let child_ctx = FragmentationContext {
|
||
available_block_size: ctx.available_block_size - cur_b,
|
||
this_fragment_is_empty: ctx.this_fragment_is_empty,
|
||
};
|
||
if let Some(remaining) = kid.fragment(layout_context, Some(child_ctx)) {
|
||
break_at = Some((child_index + 1, Some(remaining)));
|
||
}
|
||
}
|
||
|
||
// Assign block-size now for the child if it might have floats in and we couldn't
|
||
// before.
|
||
kid.mut_base().floats = floats.clone();
|
||
if kid.base().flags.is_float() {
|
||
had_floated_children = true;
|
||
kid.mut_base().position.start.b = cur_b;
|
||
{
|
||
let kid_block = kid.as_mut_block();
|
||
let float_ceiling = margin_collapse_info.current_float_ceiling();
|
||
kid_block.float.as_mut().unwrap().float_ceiling = float_ceiling
|
||
}
|
||
kid.place_float_if_applicable();
|
||
|
||
let kid_base = kid.mut_base();
|
||
floats = kid_base.floats.clone();
|
||
continue
|
||
}
|
||
|
||
// If we have clearance, assume there are no floats in.
|
||
//
|
||
// FIXME(#2008, pcwalton): This could be wrong if we have `clear: left` or `clear:
|
||
// right` and there are still floats to impact, of course. But this gets
|
||
// complicated with margin collapse. Possibly the right thing to do is to lay out
|
||
// the block again in this rare case. (Note that WebKit can lay blocks out twice;
|
||
// this may be related, although I haven't looked into it closely.)
|
||
if kid.base().flags.clears_floats() {
|
||
kid.mut_base().floats = Floats::new(self.fragment.style.writing_mode)
|
||
}
|
||
|
||
// Lay the child out if this was an in-order traversal.
|
||
let need_to_process_child_floats =
|
||
kid.assign_block_size_for_inorder_child_if_necessary(layout_context,
|
||
thread_id,
|
||
content_box);
|
||
|
||
if !had_children_with_clearance &&
|
||
floats.is_present() &&
|
||
(kid.base().flags.contains(FlowFlags::CLEARS_LEFT) ||
|
||
kid.base().flags.contains(FlowFlags::CLEARS_RIGHT)) {
|
||
had_children_with_clearance = true
|
||
}
|
||
|
||
// Handle any (possibly collapsed) top margin.
|
||
let delta = margin_collapse_info.advance_block_start_margin(
|
||
&kid.base().collapsible_margins,
|
||
!had_children_with_clearance);
|
||
translate_including_floats(&mut cur_b, delta, &mut floats);
|
||
|
||
// Collapse-through margins should be placed at the top edge,
|
||
// so we'll handle the delta after the bottom margin is processed
|
||
if let CollapsibleMargins::CollapseThrough(_) = kid.base().collapsible_margins {
|
||
cur_b = cur_b - delta;
|
||
}
|
||
|
||
// Clear past the floats that came in, if necessary.
|
||
let clearance = match (kid.base().flags.contains(FlowFlags::CLEARS_LEFT),
|
||
kid.base().flags.contains(FlowFlags::CLEARS_RIGHT)) {
|
||
(false, false) => Au(0),
|
||
(true, false) => floats.clearance(ClearType::Left),
|
||
(false, true) => floats.clearance(ClearType::Right),
|
||
(true, true) => floats.clearance(ClearType::Both),
|
||
};
|
||
translate_including_floats(&mut cur_b, clearance, &mut floats);
|
||
|
||
// At this point, `cur_b` is at the border edge of the child.
|
||
kid.mut_base().position.start.b = cur_b;
|
||
|
||
// Now pull out the child's outgoing floats. We didn't do this immediately after
|
||
// the `assign_block_size_for_inorder_child_if_necessary` call because clearance on
|
||
// a block operates on the floats that come *in*, not the floats that go *out*.
|
||
if need_to_process_child_floats {
|
||
floats = kid.mut_base().floats.clone()
|
||
}
|
||
|
||
// Move past the child's border box. Do not use the `translate_including_floats`
|
||
// function here because the child has already translated floats past its border
|
||
// box.
|
||
let kid_base = kid.mut_base();
|
||
cur_b = cur_b + kid_base.position.size.block;
|
||
|
||
// Handle any (possibly collapsed) block-end margin.
|
||
let delta =
|
||
margin_collapse_info.advance_block_end_margin(&kid_base.collapsible_margins);
|
||
translate_including_floats(&mut cur_b, delta, &mut floats);
|
||
|
||
// Collapse-through margin should be placed at the top edge of the flow.
|
||
let collapse_delta = match kid_base.collapsible_margins {
|
||
CollapsibleMargins::CollapseThrough(_) => {
|
||
let delta = margin_collapse_info.current_float_ceiling();
|
||
cur_b = cur_b + delta;
|
||
kid_base.position.start.b = kid_base.position.start.b + delta;
|
||
delta
|
||
}
|
||
_ => Au(0)
|
||
};
|
||
|
||
if break_at.is_some() {
|
||
break
|
||
}
|
||
|
||
if let Some(ref mut ctx) = fragmentation_context {
|
||
if cur_b > ctx.available_block_size && !ctx.this_fragment_is_empty {
|
||
break_at = Some((child_index, None));
|
||
cur_b = previous_b;
|
||
break
|
||
}
|
||
ctx.this_fragment_is_empty = false
|
||
}
|
||
|
||
// For consecutive collapse-through flows, their top margin should be calculated
|
||
// from the same baseline.
|
||
cur_b = cur_b - collapse_delta;
|
||
}
|
||
|
||
// Add in our block-end margin and compute our collapsible margins.
|
||
let can_collapse_block_end_margin_with_kids =
|
||
margins_may_collapse == MarginsMayCollapseFlag::MarginsMayCollapse &&
|
||
!self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) &&
|
||
self.fragment.border_padding.block_end == Au(0);
|
||
let (collapsible_margins, delta) =
|
||
margin_collapse_info.finish_and_compute_collapsible_margins(
|
||
&self.fragment,
|
||
self.base.block_container_explicit_block_size,
|
||
can_collapse_block_end_margin_with_kids,
|
||
!had_floated_children);
|
||
self.base.collapsible_margins = collapsible_margins;
|
||
translate_including_floats(&mut cur_b, delta, &mut floats);
|
||
|
||
let mut block_size = cur_b - block_start_offset;
|
||
let is_root = self.is_root();
|
||
|
||
if is_root || self.formatting_context_type() != FormattingContextType::None ||
|
||
self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) {
|
||
// The content block-size includes all the floats per CSS 2.1 § 10.6.7. The easiest
|
||
// way to handle this is to just treat it as clearance.
|
||
block_size = block_size + floats.clearance(ClearType::Both);
|
||
}
|
||
|
||
if self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) {
|
||
// FIXME(#2003, pcwalton): The max is taken here so that you can scroll the page,
|
||
// but this is not correct behavior according to CSS 2.1 § 10.5. Instead I think we
|
||
// should treat the root element as having `overflow: scroll` and use the layers-
|
||
// based scrolling infrastructure to make it scrollable.
|
||
if is_root {
|
||
let viewport_size =
|
||
LogicalSize::from_physical(self.fragment.style.writing_mode,
|
||
layout_context.shared_context().viewport_size());
|
||
block_size = max(viewport_size.block, block_size)
|
||
}
|
||
|
||
// Store the content block-size for use in calculating the absolute flow's
|
||
// dimensions later.
|
||
//
|
||
// FIXME(pcwalton): This looks not idempotent. Is it?
|
||
self.fragment.border_box.size.block = block_size;
|
||
}
|
||
|
||
|
||
if self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) {
|
||
self.propagate_early_absolute_position_info_to_children();
|
||
return None
|
||
}
|
||
|
||
// Compute any explicitly-specified block size.
|
||
// Can't use `for` because we assign to `candidate_block_size_iterator.candidate_value`.
|
||
let mut candidate_block_size_iterator = CandidateBSizeIterator::new(
|
||
&self.fragment,
|
||
self.base.block_container_explicit_block_size);
|
||
while let Some(candidate_block_size) = candidate_block_size_iterator.next() {
|
||
candidate_block_size_iterator.candidate_value =
|
||
match candidate_block_size {
|
||
MaybeAuto::Auto => block_size,
|
||
MaybeAuto::Specified(value) => value
|
||
}
|
||
}
|
||
|
||
// Adjust `cur_b` as necessary to account for the explicitly-specified block-size.
|
||
block_size = candidate_block_size_iterator.candidate_value;
|
||
let delta = block_size - (cur_b - block_start_offset);
|
||
translate_including_floats(&mut cur_b, delta, &mut floats);
|
||
|
||
// Take border and padding into account.
|
||
let block_end_offset = self.fragment.border_padding.block_end;
|
||
translate_including_floats(&mut cur_b, block_end_offset, &mut floats);
|
||
|
||
// Now that `cur_b` is at the block-end of the border box, compute the final border box
|
||
// position.
|
||
self.fragment.border_box.size.block = cur_b;
|
||
self.fragment.border_box.start.b = Au(0);
|
||
self.base.position.size.block = cur_b;
|
||
|
||
self.propagate_early_absolute_position_info_to_children();
|
||
|
||
// Translate the current set of floats back into the parent coordinate system in the
|
||
// inline direction, and store them in the flow so that flows that come later in the
|
||
// document can access them.
|
||
floats.translate(LogicalSize::new(writing_mode,
|
||
self.fragment.inline_start_offset(),
|
||
Au(0)));
|
||
self.base.floats = floats.clone();
|
||
self.adjust_fragments_for_collapsed_margins_if_root(layout_context.shared_context());
|
||
} else {
|
||
// We don't need to reflow, but we still need to perform in-order traversals if
|
||
// necessary.
|
||
let thread_id = self.base.thread_id;
|
||
for kid in self.base.child_iter_mut() {
|
||
kid.assign_block_size_for_inorder_child_if_necessary(layout_context,
|
||
thread_id,
|
||
content_box);
|
||
}
|
||
}
|
||
|
||
if (&*self as &Flow).contains_roots_of_absolute_flow_tree() {
|
||
// Assign block-sizes for all flows in this absolute flow tree.
|
||
// This is preorder because the block-size of an absolute flow may depend on
|
||
// the block-size of its containing block, which may also be an absolute flow.
|
||
let assign_abs_b_sizes = AbsoluteAssignBSizesTraversal(layout_context.shared_context());
|
||
assign_abs_b_sizes.traverse_absolute_flows(&mut *self);
|
||
}
|
||
|
||
// Don't remove the dirty bits yet if we're absolutely-positioned, since our final size
|
||
// has not been calculated yet. (See `calculate_absolute_block_size_and_margins` for that.)
|
||
// Also don't remove the dirty bits if we're a block formatting context since our inline
|
||
// size has not yet been computed. (See `assign_inline_position_for_formatting_context()`.)
|
||
if (self.base.flags.is_float() ||
|
||
self.formatting_context_type() == FormattingContextType::None) &&
|
||
!self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) {
|
||
self.base.restyle_damage.remove(ServoRestyleDamage::REFLOW_OUT_OF_FLOW | ServoRestyleDamage::REFLOW);
|
||
self.fragment.restyle_damage.remove(ServoRestyleDamage::REFLOW_OUT_OF_FLOW | ServoRestyleDamage::REFLOW);
|
||
}
|
||
|
||
break_at.and_then(|(i, child_remaining)| {
|
||
if i == self.base.children.len() && child_remaining.is_none() {
|
||
None
|
||
} else {
|
||
let mut children = self.base.children.split_off(i);
|
||
if let Some(child) = child_remaining {
|
||
children.push_front_arc(child);
|
||
}
|
||
Some(Arc::new(self.clone_with_children(children)) as Arc<Flow>)
|
||
}
|
||
})
|
||
}
|
||
|
||
/// Add placement information about current float flow for use by the parent.
|
||
///
|
||
/// Also, use information given by parent about other floats to find out our relative position.
|
||
///
|
||
/// This does not give any information about any float descendants because they do not affect
|
||
/// elements outside of the subtree rooted at this float.
|
||
///
|
||
/// This function is called on a kid flow by a parent. Therefore, `assign_block_size_float` was
|
||
/// already called on this kid flow by the traversal function. So, the values used are
|
||
/// well-defined.
|
||
pub fn place_float(&mut self) {
|
||
let block_size = self.fragment.border_box.size.block;
|
||
let clearance = match self.fragment.clear() {
|
||
None => Au(0),
|
||
Some(clear) => self.base.floats.clearance(clear),
|
||
};
|
||
|
||
let float_info: FloatedBlockInfo = (**self.float.as_ref().unwrap()).clone();
|
||
|
||
// Our `position` field accounts for positive margins, but not negative margins. (See
|
||
// calculation of `extra_inline_size_from_margin` below.) Negative margins must be taken
|
||
// into account for float placement, however. So we add them in here.
|
||
let inline_size_for_float_placement = self.base.position.size.inline +
|
||
min(Au(0), self.fragment.margin.inline_start_end());
|
||
|
||
let info = PlacementInfo {
|
||
size: LogicalSize::new(
|
||
self.fragment.style.writing_mode,
|
||
inline_size_for_float_placement,
|
||
block_size + self.fragment.margin.block_start_end())
|
||
.convert(self.fragment.style.writing_mode, self.base.floats.writing_mode),
|
||
ceiling: clearance + float_info.float_ceiling,
|
||
max_inline_size: float_info.containing_inline_size,
|
||
kind: float_info.float_kind,
|
||
};
|
||
|
||
// Place the float and return the `Floats` back to the parent flow.
|
||
// After, grab the position and use that to set our position.
|
||
self.base.floats.add_float(&info);
|
||
|
||
// FIXME (mbrubeck) Get the correct container size for self.base.floats;
|
||
let container_size = Size2D::new(self.base.block_container_inline_size, Au(0));
|
||
|
||
// Move in from the margin edge, as per CSS 2.1 § 9.5, floats may not overlap anything on
|
||
// their margin edges.
|
||
let float_offset = self.base.floats.last_float_pos().unwrap()
|
||
.convert(self.base.floats.writing_mode,
|
||
self.base.writing_mode,
|
||
container_size)
|
||
.start;
|
||
let margin_offset = LogicalPoint::new(self.base.writing_mode,
|
||
Au(0),
|
||
self.fragment.margin.block_start);
|
||
|
||
let mut origin = LogicalPoint::new(self.base.writing_mode,
|
||
self.base.position.start.i,
|
||
self.base.position.start.b);
|
||
origin = origin.add_point(&float_offset).add_point(&margin_offset);
|
||
self.base.position = LogicalRect::from_point_size(self.base.writing_mode,
|
||
origin,
|
||
self.base.position.size);
|
||
}
|
||
|
||
pub fn explicit_block_containing_size(&self, shared_context: &SharedStyleContext) -> Option<Au> {
|
||
if self.is_root() || self.is_fixed() {
|
||
let viewport_size = LogicalSize::from_physical(self.fragment.style.writing_mode,
|
||
shared_context.viewport_size());
|
||
Some(viewport_size.block)
|
||
} else if self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) &&
|
||
self.base.block_container_explicit_block_size.is_none() {
|
||
self.base.absolute_cb.explicit_block_containing_size(shared_context)
|
||
} else {
|
||
self.base.block_container_explicit_block_size
|
||
}
|
||
}
|
||
|
||
pub fn explicit_block_size(&self, containing_block_size: Option<Au>) -> Option<Au> {
|
||
let content_block_size = self.fragment.style().content_block_size();
|
||
|
||
match (content_block_size, containing_block_size) {
|
||
(LengthOrPercentageOrAuto::Calc(calc), _) => {
|
||
calc.to_used_value(containing_block_size)
|
||
}
|
||
(LengthOrPercentageOrAuto::Length(length), _) => Some(Au::from(length)),
|
||
(LengthOrPercentageOrAuto::Percentage(percent), Some(container_size)) => {
|
||
Some(container_size.scale_by(percent.0))
|
||
}
|
||
(LengthOrPercentageOrAuto::Percentage(_), None) |
|
||
(LengthOrPercentageOrAuto::Auto, None) => {
|
||
None
|
||
}
|
||
(LengthOrPercentageOrAuto::Auto, Some(container_size)) => {
|
||
let (block_start, block_end) = {
|
||
let position = self.fragment.style().logical_position();
|
||
(MaybeAuto::from_style(position.block_start, container_size),
|
||
MaybeAuto::from_style(position.block_end, container_size))
|
||
};
|
||
|
||
match (block_start, block_end) {
|
||
(MaybeAuto::Specified(block_start), MaybeAuto::Specified(block_end)) => {
|
||
let available_block_size = container_size - self.fragment.border_padding.block_start_end();
|
||
|
||
// Non-auto margin-block-start and margin-block-end values have already been
|
||
// calculated during assign-inline-size.
|
||
let margin = self.fragment.style().logical_margin();
|
||
let margin_block_start = match margin.block_start {
|
||
LengthOrPercentageOrAuto::Auto => MaybeAuto::Auto,
|
||
_ => MaybeAuto::Specified(self.fragment.margin.block_start)
|
||
};
|
||
let margin_block_end = match margin.block_end {
|
||
LengthOrPercentageOrAuto::Auto => MaybeAuto::Auto,
|
||
_ => MaybeAuto::Specified(self.fragment.margin.block_end)
|
||
};
|
||
|
||
let margin_block_start = margin_block_start.specified_or_zero();
|
||
let margin_block_end = margin_block_end.specified_or_zero();
|
||
let sum = block_start + block_end + margin_block_start + margin_block_end;
|
||
Some(available_block_size - sum)
|
||
}
|
||
|
||
(_, _) => {
|
||
None
|
||
}
|
||
}
|
||
}
|
||
}
|
||
}
|
||
|
||
fn calculate_absolute_block_size_and_margins(&mut self, shared_context: &SharedStyleContext) {
|
||
let opaque_self = OpaqueFlow::from_flow(self);
|
||
let containing_block_block_size =
|
||
self.containing_block_size(&shared_context.viewport_size(), opaque_self).block;
|
||
|
||
// This is the stored content block-size value from assign-block-size
|
||
let content_block_size = self.fragment.border_box.size.block;
|
||
|
||
let mut solution = None;
|
||
{
|
||
// Non-auto margin-block-start and margin-block-end values have already been
|
||
// calculated during assign-inline-size.
|
||
let margin = self.fragment.style().logical_margin();
|
||
let margin_block_start = match margin.block_start {
|
||
LengthOrPercentageOrAuto::Auto => MaybeAuto::Auto,
|
||
_ => MaybeAuto::Specified(self.fragment.margin.block_start)
|
||
};
|
||
let margin_block_end = match margin.block_end {
|
||
LengthOrPercentageOrAuto::Auto => MaybeAuto::Auto,
|
||
_ => MaybeAuto::Specified(self.fragment.margin.block_end)
|
||
};
|
||
|
||
let block_start;
|
||
let block_end;
|
||
{
|
||
let position = self.fragment.style().logical_position();
|
||
block_start = MaybeAuto::from_style(position.block_start,
|
||
containing_block_block_size);
|
||
block_end = MaybeAuto::from_style(position.block_end, containing_block_block_size);
|
||
}
|
||
|
||
let available_block_size = containing_block_block_size -
|
||
self.fragment.border_padding.block_start_end();
|
||
if self.fragment.is_replaced() {
|
||
// Calculate used value of block-size just like we do for inline replaced elements.
|
||
// TODO: Pass in the containing block block-size when Fragment's
|
||
// assign-block-size can handle it correctly.
|
||
self.fragment.assign_replaced_block_size_if_necessary();
|
||
// TODO: Right now, this content block-size value includes the
|
||
// margin because of erroneous block-size calculation in fragment.
|
||
// Check this when that has been fixed.
|
||
let block_size_used_val = self.fragment.border_box.size.block;
|
||
solution = Some(BSizeConstraintSolution::solve_vertical_constraints_abs_replaced(
|
||
block_size_used_val,
|
||
margin_block_start,
|
||
margin_block_end,
|
||
block_start,
|
||
block_end,
|
||
content_block_size,
|
||
available_block_size))
|
||
} else {
|
||
let mut candidate_block_size_iterator =
|
||
CandidateBSizeIterator::new(&self.fragment, Some(containing_block_block_size));
|
||
|
||
// Can't use `for` because we assign to
|
||
// `candidate_block_size_iterator.candidate_value`.
|
||
while let Some(block_size_used_val) = candidate_block_size_iterator.next() {
|
||
solution = Some(
|
||
BSizeConstraintSolution::solve_vertical_constraints_abs_nonreplaced(
|
||
block_size_used_val,
|
||
margin_block_start,
|
||
margin_block_end,
|
||
block_start,
|
||
block_end,
|
||
content_block_size,
|
||
available_block_size));
|
||
|
||
candidate_block_size_iterator.candidate_value =
|
||
solution.unwrap().block_size;
|
||
}
|
||
}
|
||
}
|
||
|
||
let solution = solution.unwrap();
|
||
self.fragment.margin.block_start = solution.margin_block_start;
|
||
self.fragment.margin.block_end = solution.margin_block_end;
|
||
self.fragment.border_box.start.b = Au(0);
|
||
|
||
if !self.base.flags.contains(FlowFlags::BLOCK_POSITION_IS_STATIC) {
|
||
self.base.position.start.b = solution.block_start + self.fragment.margin.block_start
|
||
}
|
||
|
||
let block_size = solution.block_size + self.fragment.border_padding.block_start_end();
|
||
self.fragment.border_box.size.block = block_size;
|
||
self.base.position.size.block = block_size;
|
||
|
||
self.base.restyle_damage.remove(ServoRestyleDamage::REFLOW_OUT_OF_FLOW | ServoRestyleDamage::REFLOW);
|
||
self.fragment.restyle_damage.remove(ServoRestyleDamage::REFLOW_OUT_OF_FLOW | ServoRestyleDamage::REFLOW);
|
||
}
|
||
|
||
/// Compute inline size based using the `block_container_inline_size` set by the parent flow.
|
||
///
|
||
/// This is run in the `AssignISizes` traversal.
|
||
fn propagate_and_compute_used_inline_size(&mut self, shared_context: &SharedStyleContext) {
|
||
let containing_block_inline_size = self.base.block_container_inline_size;
|
||
self.compute_used_inline_size(shared_context, containing_block_inline_size);
|
||
if self.base.flags.is_float() {
|
||
self.float.as_mut().unwrap().containing_inline_size = containing_block_inline_size
|
||
}
|
||
}
|
||
|
||
/// Assigns the computed inline-start content edge and inline-size to all the children of this
|
||
/// block flow. The given `callback`, if supplied, will be called once per child; it is
|
||
/// currently used to push down column sizes for tables.
|
||
///
|
||
/// `#[inline(always)]` because this is called only from block or table inline-size assignment
|
||
/// and the code for block layout is significantly simpler.
|
||
#[inline(always)]
|
||
pub fn propagate_assigned_inline_size_to_children<F>(&mut self,
|
||
shared_context: &SharedStyleContext,
|
||
inline_start_content_edge: Au,
|
||
inline_end_content_edge: Au,
|
||
content_inline_size: Au,
|
||
mut callback: F)
|
||
where F: FnMut(&mut Flow,
|
||
usize,
|
||
Au,
|
||
WritingMode,
|
||
&mut Au,
|
||
&mut Au) {
|
||
let flags = self.base.flags.clone();
|
||
|
||
let opaque_self = OpaqueFlow::from_flow(self);
|
||
|
||
// Calculate non-auto block size to pass to children.
|
||
let box_border = match self.fragment.style().get_position().box_sizing {
|
||
BoxSizing::BorderBox => self.fragment.border_padding.block_start_end(),
|
||
BoxSizing::ContentBox => Au(0),
|
||
};
|
||
let parent_container_size = self.explicit_block_containing_size(shared_context);
|
||
// https://drafts.csswg.org/css-ui-3/#box-sizing
|
||
let mut explicit_content_size = self
|
||
.explicit_block_size(parent_container_size)
|
||
.map(|x| if x < box_border { Au(0) } else { x - box_border });
|
||
if self.is_root() { explicit_content_size = max(parent_container_size, explicit_content_size); }
|
||
// Calculate containing block inline size.
|
||
let containing_block_size = if flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) {
|
||
self.containing_block_size(&shared_context.viewport_size(), opaque_self).inline
|
||
} else {
|
||
content_inline_size
|
||
};
|
||
// FIXME (mbrubeck): Get correct mode for absolute containing block
|
||
let containing_block_mode = self.base.writing_mode;
|
||
|
||
let mut inline_start_margin_edge = inline_start_content_edge;
|
||
let mut inline_end_margin_edge = inline_end_content_edge;
|
||
|
||
let mut iterator = self.base.child_iter_mut().enumerate().peekable();
|
||
while let Some((i, kid)) = iterator.next() {
|
||
kid.mut_base().block_container_explicit_block_size = explicit_content_size;
|
||
|
||
// The inline-start margin edge of the child flow is at our inline-start content edge,
|
||
// and its inline-size is our content inline-size.
|
||
let kid_mode = kid.base().writing_mode;
|
||
{
|
||
// Don't assign positions to children unless they're going to be reflowed.
|
||
// Otherwise, the position we assign might be incorrect and never fixed up. (Issue
|
||
// #13704.)
|
||
//
|
||
// For instance, floats have their true inline position calculated in
|
||
// `assign_block_size()`, which won't do anything unless `REFLOW` is set. So, if a
|
||
// float child does not have `REFLOW` set, we must be careful to avoid touching its
|
||
// inline position, as no logic will run afterward to set its true value.
|
||
let kid_base = kid.mut_base();
|
||
let reflow_damage = if kid_base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) {
|
||
ServoRestyleDamage::REFLOW_OUT_OF_FLOW
|
||
} else {
|
||
ServoRestyleDamage::REFLOW
|
||
};
|
||
if kid_base.flags.contains(FlowFlags::INLINE_POSITION_IS_STATIC) &&
|
||
kid_base.restyle_damage.contains(reflow_damage) {
|
||
kid_base.position.start.i =
|
||
if kid_mode.is_bidi_ltr() == containing_block_mode.is_bidi_ltr() {
|
||
inline_start_content_edge
|
||
} else {
|
||
// The kid's inline 'start' is at the parent's 'end'
|
||
inline_end_content_edge
|
||
};
|
||
}
|
||
kid_base.block_container_inline_size = content_inline_size;
|
||
kid_base.block_container_writing_mode = containing_block_mode;
|
||
}
|
||
|
||
// Call the callback to propagate extra inline size information down to the child. This
|
||
// is currently used for tables.
|
||
callback(kid,
|
||
i,
|
||
content_inline_size,
|
||
containing_block_mode,
|
||
&mut inline_start_margin_edge,
|
||
&mut inline_end_margin_edge);
|
||
|
||
// Per CSS 2.1 § 16.3.1, text alignment propagates to all children in flow.
|
||
//
|
||
// TODO(#2265, pcwalton): Do this in the cascade instead.
|
||
let containing_block_text_align = self.fragment.style().get_inheritedtext().text_align;
|
||
kid.mut_base().flags.set_text_align(containing_block_text_align);
|
||
|
||
// Handle `text-indent` on behalf of any inline children that we have. This is
|
||
// necessary because any percentages are relative to the containing block, which only
|
||
// we know.
|
||
if kid.is_inline_flow() {
|
||
kid.as_mut_inline().first_line_indentation =
|
||
self.fragment.style().get_inheritedtext().text_indent
|
||
.to_used_value(containing_block_size);
|
||
}
|
||
}
|
||
}
|
||
|
||
/// Determines the type of formatting context this is. See the definition of
|
||
/// `FormattingContextType`.
|
||
pub fn formatting_context_type(&self) -> FormattingContextType {
|
||
if self.is_inline_flex_item() || self.is_block_flex_item() {
|
||
return FormattingContextType::Other
|
||
}
|
||
let style = self.fragment.style();
|
||
if style.get_box().float != Float::None {
|
||
return FormattingContextType::Other
|
||
}
|
||
match style.get_box().display {
|
||
Display::TableCell |
|
||
Display::TableCaption |
|
||
Display::TableRowGroup |
|
||
Display::Table |
|
||
Display::InlineBlock |
|
||
Display::Flex => {
|
||
FormattingContextType::Other
|
||
}
|
||
_ if style.get_box().overflow_x != StyleOverflow::Visible ||
|
||
style.get_box().overflow_y != StyleOverflow::Visible ||
|
||
style.is_multicol() => {
|
||
FormattingContextType::Block
|
||
}
|
||
_ => FormattingContextType::None,
|
||
}
|
||
}
|
||
|
||
/// Per CSS 2.1 § 9.5, block formatting contexts' inline widths and positions are affected by
|
||
/// the presence of floats. This is the part of the assign-heights traversal that computes
|
||
/// the final inline position and width for such flows.
|
||
///
|
||
/// Note that this is part of the assign-block-sizes traversal, not the assign-inline-sizes
|
||
/// traversal as one might expect. That is because, in general, float placement cannot occur
|
||
/// until heights are assigned. To work around this unfortunate circular dependency, by the
|
||
/// time we get here we have already estimated the width of the block formatting context based
|
||
/// on the floats we could see at the time of inline-size assignment. The job of this function,
|
||
/// therefore, is not only to assign the final size but also to perform the layout again for
|
||
/// this block formatting context if our speculation was wrong.
|
||
fn assign_inline_position_for_formatting_context(&mut self,
|
||
layout_context: &LayoutContext,
|
||
content_box: LogicalRect<Au>) {
|
||
debug_assert_ne!(self.formatting_context_type(), FormattingContextType::None);
|
||
|
||
if !self.base.restyle_damage.intersects(ServoRestyleDamage::REFLOW_OUT_OF_FLOW | ServoRestyleDamage::REFLOW) {
|
||
return
|
||
}
|
||
|
||
// We do this first to avoid recomputing our inline size when we propagate it.
|
||
self.base.restyle_damage.remove(ServoRestyleDamage::REFLOW_OUT_OF_FLOW | ServoRestyleDamage::REFLOW);
|
||
self.fragment.restyle_damage.remove(ServoRestyleDamage::REFLOW_OUT_OF_FLOW | ServoRestyleDamage::REFLOW);
|
||
|
||
// The code below would completely wreck the layout if run on a flex item, however:
|
||
// * Flex items are always the children of flex containers.
|
||
// * Flex containers only contain flex items.
|
||
// * Floats cannot intrude into flex containers.
|
||
// * Floats cannot escape flex items.
|
||
// * Flex items cannot also be floats.
|
||
// Therefore, a flex item cannot be impacted by a float.
|
||
// See also: https://www.w3.org/TR/css-flexbox-1/#flex-containers
|
||
if !self.base.might_have_floats_in() {
|
||
return
|
||
}
|
||
|
||
// If you remove the might_have_floats_in conditional, this will go off.
|
||
debug_assert!(!self.is_inline_flex_item());
|
||
|
||
// Compute the available space for us, based on the actual floats.
|
||
let rect = self.base.floats.available_rect(Au(0),
|
||
self.fragment.border_box.size.block,
|
||
content_box.size.inline);
|
||
let available_inline_size = if let Some(rect) = rect {
|
||
// Offset our position by whatever displacement is needed to not impact the floats.
|
||
// Also, account for margins sliding behind floats.
|
||
let inline_offset = if self.fragment.margin.inline_start < rect.start.i {
|
||
// Do not do anything for negative margins; those are handled separately.
|
||
rect.start.i - max(Au(0), self.fragment.margin.inline_start)
|
||
} else {
|
||
Au(0)
|
||
};
|
||
self.base.position.start.i = content_box.start.i + inline_offset;
|
||
// Handle the end margin sliding behind the float.
|
||
let end = content_box.size.inline - rect.start.i - rect.size.inline;
|
||
let inline_end_offset = if self.fragment.margin.inline_end < end {
|
||
end - max(Au(0), self.fragment.margin.inline_end)
|
||
} else {
|
||
Au(0)
|
||
};
|
||
content_box.size.inline - inline_offset - inline_end_offset
|
||
} else {
|
||
content_box.size.inline
|
||
} - self.fragment.margin.inline_start_end();
|
||
let max_inline_size =
|
||
self.fragment.style().max_inline_size()
|
||
.to_used_value(self.base.block_container_inline_size)
|
||
.unwrap_or(MAX_AU);
|
||
let min_inline_size =
|
||
self.fragment.style().min_inline_size().to_used_value(self.base.block_container_inline_size);
|
||
let specified_inline_size = self.fragment.style().content_inline_size();
|
||
let container_size = self.base.block_container_inline_size;
|
||
let inline_size =
|
||
if let MaybeAuto::Specified(size) = MaybeAuto::from_style(specified_inline_size,
|
||
container_size) {
|
||
match self.fragment.style().get_position().box_sizing {
|
||
BoxSizing::BorderBox => size,
|
||
BoxSizing::ContentBox =>
|
||
size + self.fragment.border_padding.inline_start_end(),
|
||
}
|
||
} else {
|
||
max(min_inline_size, min(available_inline_size, max_inline_size))
|
||
};
|
||
self.base.position.size.inline = inline_size + self.fragment.margin.inline_start_end();
|
||
|
||
// If float speculation failed, fixup our layout, and re-layout all the children.
|
||
if self.fragment.margin_box_inline_size() != self.base.position.size.inline {
|
||
debug!("assign_inline_position_for_formatting_context: float speculation failed");
|
||
// Fix-up our own layout.
|
||
// We can't just traverse_flow_tree_preorder ourself, because that would re-run
|
||
// float speculation, instead of acting on the actual results.
|
||
self.fragment.border_box.size.inline = inline_size;
|
||
// Assign final-final inline sizes on all our children.
|
||
self.assign_inline_sizes(layout_context);
|
||
// Re-run layout on our children.
|
||
for child in self.base.child_iter_mut() {
|
||
sequential::reflow(child, layout_context, RelayoutMode::Force);
|
||
}
|
||
// Assign our final-final block size.
|
||
self.assign_block_size(layout_context);
|
||
}
|
||
|
||
debug_assert_eq!(self.fragment.margin_box_inline_size(), self.base.position.size.inline);
|
||
}
|
||
|
||
fn is_inline_block_or_inline_flex(&self) -> bool {
|
||
self.fragment.style().get_box().display == Display::InlineBlock ||
|
||
self.fragment.style().get_box().display == Display::InlineFlex
|
||
}
|
||
|
||
/// Computes the content portion (only) of the intrinsic inline sizes of this flow. This is
|
||
/// used for calculating shrink-to-fit width. Assumes that intrinsic sizes have already been
|
||
/// computed for this flow.
|
||
fn content_intrinsic_inline_sizes(&self) -> IntrinsicISizes {
|
||
let (border_padding, margin) = self.fragment.surrounding_intrinsic_inline_size();
|
||
IntrinsicISizes {
|
||
minimum_inline_size: self.base.intrinsic_inline_sizes.minimum_inline_size -
|
||
border_padding - margin,
|
||
preferred_inline_size: self.base.intrinsic_inline_sizes.preferred_inline_size -
|
||
border_padding - margin,
|
||
}
|
||
}
|
||
|
||
/// Computes intrinsic inline sizes for a block.
|
||
pub fn bubble_inline_sizes_for_block(&mut self, consult_children: bool) {
|
||
let _scope = layout_debug_scope!("block::bubble_inline_sizes {:x}", self.base.debug_id());
|
||
|
||
let mut flags = self.base.flags;
|
||
if self.definitely_has_zero_block_size() {
|
||
// This is kind of a hack for Acid2. But it's a harmless one, because (a) this behavior
|
||
// is unspecified; (b) it matches the behavior one would intuitively expect, since
|
||
// floats don't flow around blocks that take up no space in the block direction.
|
||
flags.remove(FlowFlags::CONTAINS_TEXT_OR_REPLACED_FRAGMENTS);
|
||
} else if self.fragment.is_text_or_replaced() {
|
||
flags.insert(FlowFlags::CONTAINS_TEXT_OR_REPLACED_FRAGMENTS);
|
||
} else {
|
||
flags.remove(FlowFlags::CONTAINS_TEXT_OR_REPLACED_FRAGMENTS);
|
||
for kid in self.base.children.iter() {
|
||
if kid.base().flags.contains(FlowFlags::CONTAINS_TEXT_OR_REPLACED_FRAGMENTS) {
|
||
flags.insert(FlowFlags::CONTAINS_TEXT_OR_REPLACED_FRAGMENTS);
|
||
break
|
||
}
|
||
}
|
||
}
|
||
|
||
// Find the maximum inline-size from children.
|
||
//
|
||
// See: https://lists.w3.org/Archives/Public/www-style/2014Nov/0085.html
|
||
//
|
||
// FIXME(pcwalton): This doesn't exactly follow that algorithm at the moment.
|
||
// FIXME(pcwalton): This should consider all float descendants, not just children.
|
||
let mut computation = self.fragment.compute_intrinsic_inline_sizes();
|
||
let (mut left_float_width, mut right_float_width) = (Au(0), Au(0));
|
||
let (mut left_float_width_accumulator, mut right_float_width_accumulator) = (Au(0), Au(0));
|
||
let mut preferred_inline_size_of_children_without_text_or_replaced_fragments = Au(0);
|
||
for kid in self.base.child_iter_mut() {
|
||
if kid.base().flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) || !consult_children {
|
||
continue
|
||
}
|
||
|
||
let child_base = kid.mut_base();
|
||
let float_kind = child_base.flags.float_kind();
|
||
computation.content_intrinsic_sizes.minimum_inline_size =
|
||
max(computation.content_intrinsic_sizes.minimum_inline_size,
|
||
child_base.intrinsic_inline_sizes.minimum_inline_size);
|
||
|
||
if child_base.flags.contains(FlowFlags::CLEARS_LEFT) {
|
||
left_float_width = max(left_float_width, left_float_width_accumulator);
|
||
left_float_width_accumulator = Au(0)
|
||
}
|
||
if child_base.flags.contains(FlowFlags::CLEARS_RIGHT) {
|
||
right_float_width = max(right_float_width, right_float_width_accumulator);
|
||
right_float_width_accumulator = Au(0)
|
||
}
|
||
|
||
match (float_kind, child_base.flags.contains(FlowFlags::CONTAINS_TEXT_OR_REPLACED_FRAGMENTS)) {
|
||
(Float::None, true) => {
|
||
computation.content_intrinsic_sizes.preferred_inline_size =
|
||
max(computation.content_intrinsic_sizes.preferred_inline_size,
|
||
child_base.intrinsic_inline_sizes.preferred_inline_size);
|
||
}
|
||
(Float::None, false) => {
|
||
preferred_inline_size_of_children_without_text_or_replaced_fragments = max(
|
||
preferred_inline_size_of_children_without_text_or_replaced_fragments,
|
||
child_base.intrinsic_inline_sizes.preferred_inline_size)
|
||
}
|
||
(Float::Left, _) => {
|
||
left_float_width_accumulator = left_float_width_accumulator +
|
||
child_base.intrinsic_inline_sizes.preferred_inline_size;
|
||
}
|
||
(Float::Right, _) => {
|
||
right_float_width_accumulator = right_float_width_accumulator +
|
||
child_base.intrinsic_inline_sizes.preferred_inline_size;
|
||
}
|
||
}
|
||
}
|
||
|
||
left_float_width = max(left_float_width, left_float_width_accumulator);
|
||
right_float_width = max(right_float_width, right_float_width_accumulator);
|
||
|
||
computation.content_intrinsic_sizes.preferred_inline_size =
|
||
computation.content_intrinsic_sizes.preferred_inline_size + left_float_width +
|
||
right_float_width;
|
||
computation.content_intrinsic_sizes.preferred_inline_size =
|
||
max(computation.content_intrinsic_sizes.preferred_inline_size,
|
||
preferred_inline_size_of_children_without_text_or_replaced_fragments);
|
||
|
||
self.base.intrinsic_inline_sizes = computation.finish();
|
||
self.base.flags = flags
|
||
}
|
||
|
||
pub fn overflow_style_may_require_clip_scroll_node(&self) -> bool {
|
||
match (self.fragment.style().get_box().overflow_x,
|
||
self.fragment.style().get_box().overflow_y) {
|
||
(StyleOverflow::Auto, _) | (StyleOverflow::Scroll, _) | (StyleOverflow::Hidden, _) |
|
||
(_, StyleOverflow::Auto) | (_, StyleOverflow::Scroll) | (_, StyleOverflow::Hidden) =>
|
||
true,
|
||
(_, _) => false,
|
||
}
|
||
}
|
||
|
||
pub fn compute_inline_sizes(&mut self, shared_context: &SharedStyleContext) {
|
||
if !self.base.restyle_damage.intersects(ServoRestyleDamage::REFLOW_OUT_OF_FLOW | ServoRestyleDamage::REFLOW) {
|
||
return
|
||
}
|
||
|
||
debug!("assign_inline_sizes({}): assigning inline_size for flow",
|
||
if self.base.flags.is_float() {
|
||
"float"
|
||
} else {
|
||
"block"
|
||
});
|
||
|
||
self.base.floats = Floats::new(self.base.writing_mode);
|
||
|
||
self.initialize_container_size_for_root(shared_context);
|
||
|
||
// Our inline-size was set to the inline-size of the containing block by the flow's parent.
|
||
// Now compute the real value.
|
||
self.propagate_and_compute_used_inline_size(shared_context);
|
||
|
||
self.guess_inline_size_for_block_formatting_context_if_necessary()
|
||
}
|
||
|
||
/// If this is the root flow, initialize values that would normally be set by the parent.
|
||
///
|
||
/// Should be called during `assign_inline_sizes` for flows that may be the root.
|
||
pub fn initialize_container_size_for_root(&mut self, shared_context: &SharedStyleContext) {
|
||
if self.is_root() {
|
||
debug!("Setting root position");
|
||
self.base.position.start = LogicalPoint::zero(self.base.writing_mode);
|
||
self.base.block_container_inline_size = LogicalSize::from_physical(
|
||
self.base.writing_mode, shared_context.viewport_size()).inline;
|
||
self.base.block_container_writing_mode = self.base.writing_mode;
|
||
}
|
||
}
|
||
|
||
fn guess_inline_size_for_block_formatting_context_if_necessary(&mut self) {
|
||
// We don't need to guess anything unless this is a block formatting context.
|
||
if self.formatting_context_type() != FormattingContextType::Block {
|
||
return
|
||
}
|
||
|
||
// If `max-width` is set, then don't perform this speculation. We guess that the
|
||
// page set `max-width` in order to avoid hitting floats. The search box on Google
|
||
// SERPs falls into this category.
|
||
if self.fragment.style.max_inline_size() != LengthOrPercentageOrNone::None {
|
||
return
|
||
}
|
||
|
||
// At this point, we know we can't precisely compute the inline-size of this block now,
|
||
// because floats might affect it. Speculate that its inline-size is equal to the
|
||
// inline-size computed above minus the inline-size of the previous left and/or right
|
||
// floats.
|
||
let speculated_left_float_size = if self.fragment.margin.inline_start >= Au(0) &&
|
||
self.base.speculated_float_placement_in.left > self.fragment.margin.inline_start {
|
||
self.base.speculated_float_placement_in.left - self.fragment.margin.inline_start
|
||
} else {
|
||
Au(0)
|
||
};
|
||
let speculated_right_float_size = if self.fragment.margin.inline_end >= Au(0) &&
|
||
self.base.speculated_float_placement_in.right > self.fragment.margin.inline_end {
|
||
self.base.speculated_float_placement_in.right - self.fragment.margin.inline_end
|
||
} else {
|
||
Au(0)
|
||
};
|
||
self.fragment.border_box.size.inline = self.fragment.border_box.size.inline -
|
||
speculated_left_float_size - speculated_right_float_size
|
||
}
|
||
|
||
fn definitely_has_zero_block_size(&self) -> bool {
|
||
if !self.fragment.style.content_block_size().is_definitely_zero() {
|
||
return false
|
||
}
|
||
let border_width = self.fragment.border_width();
|
||
if border_width.block_start != Au(0) || border_width.block_end != Au(0) {
|
||
return false
|
||
}
|
||
let padding = self.fragment.style.logical_padding();
|
||
padding.block_start.is_definitely_zero() && padding.block_end.is_definitely_zero()
|
||
}
|
||
|
||
pub fn is_inline_flex_item(&self) -> bool {
|
||
self.fragment.flags.contains(FragmentFlags::IS_INLINE_FLEX_ITEM)
|
||
}
|
||
|
||
pub fn is_block_flex_item(&self) -> bool {
|
||
self.fragment.flags.contains(FragmentFlags::IS_BLOCK_FLEX_ITEM)
|
||
}
|
||
|
||
pub fn mark_scrolling_overflow(&mut self, has_scrolling_overflow: bool) {
|
||
if has_scrolling_overflow {
|
||
self.flags.insert(BlockFlowFlags::HAS_SCROLLING_OVERFLOW);
|
||
} else {
|
||
self.flags.remove(BlockFlowFlags::HAS_SCROLLING_OVERFLOW);
|
||
}
|
||
}
|
||
|
||
pub fn has_scrolling_overflow(&self) -> bool {
|
||
self.flags.contains(BlockFlowFlags::HAS_SCROLLING_OVERFLOW)
|
||
}
|
||
|
||
// Return offset from original position because of `position: sticky`.
|
||
pub fn sticky_position(&self) -> SideOffsets2D<MaybeAuto> {
|
||
let containing_block_size = &self.base.early_absolute_position_info
|
||
.relative_containing_block_size;
|
||
let writing_mode = self.base.early_absolute_position_info.relative_containing_block_mode;
|
||
let offsets = self.fragment.style().logical_position();
|
||
let as_margins = LogicalMargin::new(writing_mode,
|
||
MaybeAuto::from_style(offsets.block_start, containing_block_size.inline),
|
||
MaybeAuto::from_style(offsets.inline_end, containing_block_size.inline),
|
||
MaybeAuto::from_style(offsets.block_end, containing_block_size.inline),
|
||
MaybeAuto::from_style(offsets.inline_start, containing_block_size.inline));
|
||
as_margins.to_physical(writing_mode)
|
||
}
|
||
|
||
pub fn background_border_section(&self) -> DisplayListSection {
|
||
if self.base.flags.is_float() {
|
||
DisplayListSection::BackgroundAndBorders
|
||
} else if self.base
|
||
.flags
|
||
.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED)
|
||
{
|
||
if self.fragment.establishes_stacking_context() {
|
||
DisplayListSection::BackgroundAndBorders
|
||
} else {
|
||
DisplayListSection::BlockBackgroundsAndBorders
|
||
}
|
||
} else {
|
||
DisplayListSection::BlockBackgroundsAndBorders
|
||
}
|
||
}
|
||
}
|
||
|
||
impl Flow for BlockFlow {
|
||
fn class(&self) -> FlowClass {
|
||
FlowClass::Block
|
||
}
|
||
|
||
fn as_mut_block(&mut self) -> &mut BlockFlow {
|
||
self
|
||
}
|
||
|
||
fn as_block(&self) -> &BlockFlow {
|
||
self
|
||
}
|
||
|
||
/// Pass 1 of reflow: computes minimum and preferred inline-sizes.
|
||
///
|
||
/// Recursively (bottom-up) determine the flow's minimum and preferred inline-sizes. When
|
||
/// called on this flow, all child flows have had their minimum and preferred inline-sizes set.
|
||
/// This function must decide minimum/preferred inline-sizes based on its children's
|
||
/// inline-sizes and the dimensions of any fragments it is responsible for flowing.
|
||
fn bubble_inline_sizes(&mut self) {
|
||
// If this block has a fixed width, just use that for the minimum and preferred width,
|
||
// rather than bubbling up children inline width.
|
||
let consult_children = match self.fragment.style().get_position().width {
|
||
LengthOrPercentageOrAuto::Length(_) => false,
|
||
_ => true,
|
||
};
|
||
self.bubble_inline_sizes_for_block(consult_children);
|
||
self.fragment.restyle_damage.remove(ServoRestyleDamage::BUBBLE_ISIZES);
|
||
}
|
||
|
||
/// Recursively (top-down) determines the actual inline-size of child contexts and fragments.
|
||
/// When called on this context, the context has had its inline-size set by the parent context.
|
||
///
|
||
/// Dual fragments consume some inline-size first, and the remainder is assigned to all child
|
||
/// (block) contexts.
|
||
fn assign_inline_sizes(&mut self, layout_context: &LayoutContext) {
|
||
let _scope = layout_debug_scope!("block::assign_inline_sizes {:x}", self.base.debug_id());
|
||
|
||
let shared_context = layout_context.shared_context();
|
||
self.compute_inline_sizes(shared_context);
|
||
|
||
// Move in from the inline-start border edge.
|
||
let inline_start_content_edge = self.fragment.border_box.start.i +
|
||
self.fragment.border_padding.inline_start;
|
||
|
||
let padding_and_borders = self.fragment.border_padding.inline_start_end();
|
||
|
||
// Distance from the inline-end margin edge to the inline-end content edge.
|
||
let inline_end_content_edge =
|
||
self.fragment.margin.inline_end +
|
||
self.fragment.border_padding.inline_end;
|
||
|
||
let content_inline_size = self.fragment.border_box.size.inline - padding_and_borders;
|
||
|
||
self.propagate_assigned_inline_size_to_children(shared_context,
|
||
inline_start_content_edge,
|
||
inline_end_content_edge,
|
||
content_inline_size,
|
||
|_, _, _, _, _, _| {});
|
||
}
|
||
|
||
fn place_float_if_applicable<'a>(&mut self) {
|
||
if self.base.flags.is_float() {
|
||
self.place_float();
|
||
}
|
||
}
|
||
|
||
fn assign_block_size_for_inorder_child_if_necessary(&mut self,
|
||
layout_context: &LayoutContext,
|
||
parent_thread_id: u8,
|
||
content_box: LogicalRect<Au>)
|
||
-> bool {
|
||
if self.base.flags.is_float() {
|
||
return false
|
||
}
|
||
|
||
let is_formatting_context = self.formatting_context_type() != FormattingContextType::None;
|
||
if !self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) && is_formatting_context {
|
||
self.assign_inline_position_for_formatting_context(layout_context, content_box);
|
||
}
|
||
|
||
if (self as &Flow).floats_might_flow_through() {
|
||
self.base.thread_id = parent_thread_id;
|
||
if self.base.restyle_damage.intersects(ServoRestyleDamage::REFLOW_OUT_OF_FLOW |
|
||
ServoRestyleDamage::REFLOW) {
|
||
self.assign_block_size(layout_context);
|
||
// Don't remove the restyle damage; `assign_block_size` decides whether that is
|
||
// appropriate (which in the case of e.g. absolutely-positioned flows, it is not).
|
||
}
|
||
return true
|
||
}
|
||
|
||
if is_formatting_context {
|
||
// If this is a formatting context and definitely did not have floats in, then we must
|
||
// translate the floats past us.
|
||
let writing_mode = self.base.floats.writing_mode;
|
||
let delta = self.base.position.size.block;
|
||
self.base.floats.translate(LogicalSize::new(writing_mode, Au(0), -delta));
|
||
return true
|
||
}
|
||
|
||
false
|
||
}
|
||
|
||
fn assign_block_size(&mut self, ctx: &LayoutContext) {
|
||
let remaining = Flow::fragment(self, ctx, None);
|
||
debug_assert!(remaining.is_none());
|
||
}
|
||
|
||
fn fragment(&mut self, layout_context: &LayoutContext,
|
||
fragmentation_context: Option<FragmentationContext>)
|
||
-> Option<Arc<Flow>> {
|
||
if self.fragment.is_replaced() {
|
||
let _scope = layout_debug_scope!("assign_replaced_block_size_if_necessary {:x}",
|
||
self.base.debug_id());
|
||
|
||
// Assign block-size for fragment if it is an image fragment.
|
||
self.fragment.assign_replaced_block_size_if_necessary();
|
||
if !self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) {
|
||
self.base.position.size.block = self.fragment.border_box.size.block;
|
||
let mut block_start = AdjoiningMargins::from_margin(self.fragment.margin.block_start);
|
||
let block_end = AdjoiningMargins::from_margin(self.fragment.margin.block_end);
|
||
if self.fragment.border_box.size.block == Au(0) {
|
||
block_start.union(block_end);
|
||
self.base.collapsible_margins = CollapsibleMargins::CollapseThrough(block_start);
|
||
} else {
|
||
self.base.collapsible_margins = CollapsibleMargins::Collapse(block_start, block_end);
|
||
}
|
||
self.base.restyle_damage.remove(ServoRestyleDamage::REFLOW_OUT_OF_FLOW | ServoRestyleDamage::REFLOW);
|
||
self.fragment.restyle_damage.remove(ServoRestyleDamage::REFLOW_OUT_OF_FLOW |
|
||
ServoRestyleDamage::REFLOW);
|
||
}
|
||
None
|
||
} else if self.is_root() ||
|
||
self.formatting_context_type() != FormattingContextType::None ||
|
||
self.base.flags.contains(FlowFlags::MARGINS_CANNOT_COLLAPSE) {
|
||
// Root element margins should never be collapsed according to CSS § 8.3.1.
|
||
debug!("assign_block_size: assigning block_size for root flow {:?}",
|
||
self.base().debug_id());
|
||
self.assign_block_size_block_base(
|
||
layout_context,
|
||
fragmentation_context,
|
||
MarginsMayCollapseFlag::MarginsMayNotCollapse)
|
||
} else {
|
||
debug!("assign_block_size: assigning block_size for block {:?}",
|
||
self.base().debug_id());
|
||
self.assign_block_size_block_base(
|
||
layout_context,
|
||
fragmentation_context,
|
||
MarginsMayCollapseFlag::MarginsMayCollapse)
|
||
}
|
||
}
|
||
|
||
fn compute_stacking_relative_position(&mut self, _layout_context: &LayoutContext) {
|
||
// FIXME (mbrubeck): Get the real container size, taking the container writing mode into
|
||
// account. Must handle vertical writing modes.
|
||
let container_size = Size2D::new(self.base.block_container_inline_size, Au(0));
|
||
|
||
if self.is_root() {
|
||
self.base.clip = Rect::max_rect();
|
||
}
|
||
|
||
if self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) {
|
||
let position_start = self.base.position.start.to_physical(self.base.writing_mode,
|
||
container_size);
|
||
|
||
// Compute our position relative to the nearest ancestor stacking context. This will be
|
||
// passed down later as part of containing block details for absolute descendants.
|
||
let absolute_stacking_relative_position = if self.is_fixed() {
|
||
// The viewport is initially at (0, 0).
|
||
position_start
|
||
} else {
|
||
// Absolute position of the containing block + position of absolute
|
||
// flow w.r.t. the containing block.
|
||
self.base
|
||
.late_absolute_position_info
|
||
.stacking_relative_position_of_absolute_containing_block + position_start.to_vector()
|
||
};
|
||
|
||
if !self.base.writing_mode.is_vertical() {
|
||
if !self.base.flags.contains(FlowFlags::INLINE_POSITION_IS_STATIC) {
|
||
self.base.stacking_relative_position.x = absolute_stacking_relative_position.x
|
||
}
|
||
if !self.base.flags.contains(FlowFlags::BLOCK_POSITION_IS_STATIC) {
|
||
self.base.stacking_relative_position.y = absolute_stacking_relative_position.y
|
||
}
|
||
} else {
|
||
if !self.base.flags.contains(FlowFlags::INLINE_POSITION_IS_STATIC) {
|
||
self.base.stacking_relative_position.y = absolute_stacking_relative_position.y
|
||
}
|
||
if !self.base.flags.contains(FlowFlags::BLOCK_POSITION_IS_STATIC) {
|
||
self.base.stacking_relative_position.x = absolute_stacking_relative_position.x
|
||
}
|
||
}
|
||
}
|
||
|
||
// For relatively-positioned descendants, the containing block formed by a block is just
|
||
// the content box. The containing block for absolutely-positioned descendants, on the
|
||
// other hand, is established in other circumstances (see `is_absolute_containing_block').
|
||
let relative_offset =
|
||
self.fragment.relative_position(&self.base
|
||
.early_absolute_position_info
|
||
.relative_containing_block_size);
|
||
if self.is_absolute_containing_block() {
|
||
let border_box_origin = (self.fragment.border_box -
|
||
self.fragment.style.logical_border_width()).start;
|
||
self.base
|
||
.late_absolute_position_info
|
||
.stacking_relative_position_of_absolute_containing_block =
|
||
self.base.stacking_relative_position.to_point() +
|
||
(border_box_origin + relative_offset).to_physical(self.base.writing_mode,
|
||
container_size).to_vector()
|
||
}
|
||
|
||
// Compute absolute position info for children.
|
||
let stacking_relative_position_of_absolute_containing_block_for_children =
|
||
if self.fragment.establishes_stacking_context() {
|
||
let logical_border_width = self.fragment.style().logical_border_width();
|
||
let position = LogicalPoint::new(self.base.writing_mode,
|
||
logical_border_width.inline_start,
|
||
logical_border_width.block_start);
|
||
let position = position.to_physical(self.base.writing_mode, container_size);
|
||
|
||
// Some blocks establish a stacking context, but not a containing block for
|
||
// absolutely positioned elements. An example of this might be a block that has
|
||
// `position: static` and `opacity` set. In these cases, absolutely-positioned
|
||
// children will not be positioned relative to us but will instead be positioned
|
||
// relative to our containing block.
|
||
if self.is_absolute_containing_block() {
|
||
position
|
||
} else {
|
||
position - self.base.stacking_relative_position
|
||
}
|
||
} else {
|
||
self.base
|
||
.late_absolute_position_info
|
||
.stacking_relative_position_of_absolute_containing_block
|
||
};
|
||
let late_absolute_position_info_for_children = LateAbsolutePositionInfo {
|
||
stacking_relative_position_of_absolute_containing_block:
|
||
stacking_relative_position_of_absolute_containing_block_for_children,
|
||
};
|
||
let container_size_for_children =
|
||
self.base.position.size.to_physical(self.base.writing_mode);
|
||
|
||
// Compute the origin and clipping rectangle for children.
|
||
let relative_offset = relative_offset.to_physical(self.base.writing_mode).to_vector();
|
||
let is_stacking_context = self.fragment.establishes_stacking_context();
|
||
let origin_for_children = if is_stacking_context {
|
||
// We establish a stacking context, so the position of our children is vertically
|
||
// correct, but has to be adjusted to accommodate horizontal margins. (Note the
|
||
// calculation involving `position` below and recall that inline-direction flow
|
||
// positions are relative to the edges of the margin box.)
|
||
//
|
||
// FIXME(pcwalton): Is this vertical-writing-direction-safe?
|
||
let margin = self.fragment.margin.to_physical(self.base.writing_mode);
|
||
Point2D::new(-margin.left, Au(0))
|
||
} else {
|
||
self.base.stacking_relative_position.to_point() + relative_offset
|
||
};
|
||
|
||
// Process children.
|
||
for kid in self.base.child_iter_mut() {
|
||
if kid.base().flags.contains(FlowFlags::INLINE_POSITION_IS_STATIC) ||
|
||
kid.base().flags.contains(FlowFlags::BLOCK_POSITION_IS_STATIC) {
|
||
let kid_base = kid.mut_base();
|
||
let physical_position = kid_base.position.to_physical(kid_base.writing_mode,
|
||
container_size_for_children);
|
||
|
||
// Set the inline and block positions as necessary.
|
||
if !kid_base.writing_mode.is_vertical() {
|
||
if kid_base.flags.contains(FlowFlags::INLINE_POSITION_IS_STATIC) {
|
||
kid_base.stacking_relative_position.x = origin_for_children.x +
|
||
physical_position.origin.x
|
||
}
|
||
if kid_base.flags.contains(FlowFlags::BLOCK_POSITION_IS_STATIC) {
|
||
kid_base.stacking_relative_position.y = origin_for_children.y +
|
||
physical_position.origin.y
|
||
}
|
||
} else {
|
||
if kid_base.flags.contains(FlowFlags::INLINE_POSITION_IS_STATIC) {
|
||
kid_base.stacking_relative_position.y = origin_for_children.y +
|
||
physical_position.origin.y
|
||
}
|
||
if kid_base.flags.contains(FlowFlags::BLOCK_POSITION_IS_STATIC) {
|
||
kid_base.stacking_relative_position.x = origin_for_children.x +
|
||
physical_position.origin.x
|
||
}
|
||
}
|
||
}
|
||
|
||
kid.mut_base().late_absolute_position_info =
|
||
late_absolute_position_info_for_children;
|
||
}
|
||
}
|
||
|
||
fn mark_as_root(&mut self) {
|
||
self.flags.insert(BlockFlowFlags::IS_ROOT)
|
||
}
|
||
|
||
fn is_root(&self) -> bool {
|
||
self.flags.contains(BlockFlowFlags::IS_ROOT)
|
||
}
|
||
|
||
/// The 'position' property of this flow.
|
||
fn positioning(&self) -> Position {
|
||
self.fragment.style.get_box().position
|
||
}
|
||
|
||
/// Return the dimensions of the containing block generated by this flow for absolutely-
|
||
/// positioned descendants. For block flows, this is the padding box.
|
||
fn generated_containing_block_size(&self, _: OpaqueFlow) -> LogicalSize<Au> {
|
||
(self.fragment.border_box - self.fragment.style().logical_border_width()).size
|
||
}
|
||
|
||
/// Returns true if this flow contains fragments that are roots of an absolute flow tree.
|
||
fn contains_roots_of_absolute_flow_tree(&self) -> bool {
|
||
self.contains_relatively_positioned_fragments() || self.is_root() ||
|
||
self.fragment.has_filter_transform_or_perspective()
|
||
}
|
||
|
||
/// Returns true if this is an absolute containing block.
|
||
fn is_absolute_containing_block(&self) -> bool {
|
||
self.contains_positioned_fragments() || self.fragment.has_filter_transform_or_perspective()
|
||
}
|
||
|
||
fn update_late_computed_inline_position_if_necessary(&mut self, inline_position: Au) {
|
||
if self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) &&
|
||
self.fragment.style().logical_position().inline_start ==
|
||
LengthOrPercentageOrAuto::Auto &&
|
||
self.fragment.style().logical_position().inline_end ==
|
||
LengthOrPercentageOrAuto::Auto {
|
||
self.base.position.start.i = inline_position
|
||
}
|
||
}
|
||
|
||
fn update_late_computed_block_position_if_necessary(&mut self, block_position: Au) {
|
||
if self.base.flags.contains(FlowFlags::IS_ABSOLUTELY_POSITIONED) &&
|
||
self.fragment.style().logical_position().block_start ==
|
||
LengthOrPercentageOrAuto::Auto &&
|
||
self.fragment.style().logical_position().block_end ==
|
||
LengthOrPercentageOrAuto::Auto {
|
||
self.base.position.start.b = block_position
|
||
}
|
||
}
|
||
|
||
fn collect_stacking_contexts(&mut self, state: &mut StackingContextCollectionState) {
|
||
self.collect_stacking_contexts_for_block(state, StackingContextCollectionFlags::empty());
|
||
}
|
||
|
||
fn build_display_list(&mut self, state: &mut DisplayListBuildState) {
|
||
self.build_display_list_for_block(state, BorderPaintingMode::Separate);
|
||
}
|
||
|
||
fn repair_style(&mut self, new_style: &::ServoArc<ComputedValues>) {
|
||
self.fragment.repair_style(new_style)
|
||
}
|
||
|
||
fn compute_overflow(&self) -> Overflow {
|
||
let flow_size = self.base.position.size.to_physical(self.base.writing_mode);
|
||
let overflow = self.fragment.compute_overflow(&flow_size,
|
||
&self.base
|
||
.early_absolute_position_info
|
||
.relative_containing_block_size);
|
||
overflow
|
||
}
|
||
|
||
fn iterate_through_fragment_border_boxes(&self,
|
||
iterator: &mut FragmentBorderBoxIterator,
|
||
level: i32,
|
||
stacking_context_position: &Point2D<Au>) {
|
||
if !iterator.should_process(&self.fragment) {
|
||
return
|
||
}
|
||
|
||
iterator.process(&self.fragment,
|
||
level,
|
||
&self.fragment
|
||
.stacking_relative_border_box(&self.base.stacking_relative_position,
|
||
&self.base
|
||
.early_absolute_position_info
|
||
.relative_containing_block_size,
|
||
self.base
|
||
.early_absolute_position_info
|
||
.relative_containing_block_mode,
|
||
CoordinateSystem::Own)
|
||
.translate(&stacking_context_position.to_vector()));
|
||
}
|
||
|
||
fn mutate_fragments(&mut self, mutator: &mut FnMut(&mut Fragment)) {
|
||
(*mutator)(&mut self.fragment)
|
||
}
|
||
|
||
fn print_extra_flow_children(&self, print_tree: &mut PrintTree) {
|
||
print_tree.add_item(format!("↑↑ Fragment for block:{:?}", self.fragment));
|
||
}
|
||
}
|
||
|
||
impl fmt::Debug for BlockFlow {
|
||
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
|
||
write!(f,
|
||
"{:?}({:x}) {:?}",
|
||
self.class(),
|
||
self.base.debug_id(),
|
||
self.base)
|
||
}
|
||
}
|
||
|
||
/// The inputs for the inline-sizes-and-margins constraint equation.
|
||
#[derive(Clone, Copy, Debug)]
|
||
pub struct ISizeConstraintInput {
|
||
pub computed_inline_size: MaybeAuto,
|
||
pub inline_start_margin: MaybeAuto,
|
||
pub inline_end_margin: MaybeAuto,
|
||
pub inline_start: MaybeAuto,
|
||
pub inline_end: MaybeAuto,
|
||
pub text_align: TextAlign,
|
||
pub available_inline_size: Au,
|
||
}
|
||
|
||
impl ISizeConstraintInput {
|
||
pub fn new(computed_inline_size: MaybeAuto,
|
||
inline_start_margin: MaybeAuto,
|
||
inline_end_margin: MaybeAuto,
|
||
inline_start: MaybeAuto,
|
||
inline_end: MaybeAuto,
|
||
text_align: TextAlign,
|
||
available_inline_size: Au)
|
||
-> ISizeConstraintInput {
|
||
ISizeConstraintInput {
|
||
computed_inline_size: computed_inline_size,
|
||
inline_start_margin: inline_start_margin,
|
||
inline_end_margin: inline_end_margin,
|
||
inline_start: inline_start,
|
||
inline_end: inline_end,
|
||
text_align: text_align,
|
||
available_inline_size: available_inline_size,
|
||
}
|
||
}
|
||
}
|
||
|
||
/// The solutions for the inline-size-and-margins constraint equation.
|
||
#[derive(Clone, Copy, Debug)]
|
||
pub struct ISizeConstraintSolution {
|
||
pub inline_start: Au,
|
||
pub inline_size: Au,
|
||
pub margin_inline_start: Au,
|
||
pub margin_inline_end: Au
|
||
}
|
||
|
||
impl ISizeConstraintSolution {
|
||
pub fn new(inline_size: Au, margin_inline_start: Au, margin_inline_end: Au)
|
||
-> ISizeConstraintSolution {
|
||
ISizeConstraintSolution {
|
||
inline_start: Au(0),
|
||
inline_size: inline_size,
|
||
margin_inline_start: margin_inline_start,
|
||
margin_inline_end: margin_inline_end,
|
||
}
|
||
}
|
||
|
||
fn for_absolute_flow(inline_start: Au,
|
||
inline_size: Au,
|
||
margin_inline_start: Au,
|
||
margin_inline_end: Au)
|
||
-> ISizeConstraintSolution {
|
||
ISizeConstraintSolution {
|
||
inline_start: inline_start,
|
||
inline_size: inline_size,
|
||
margin_inline_start: margin_inline_start,
|
||
margin_inline_end: margin_inline_end,
|
||
}
|
||
}
|
||
}
|
||
|
||
// Trait to encapsulate the ISize and Margin calculation.
|
||
//
|
||
// CSS Section 10.3
|
||
pub trait ISizeAndMarginsComputer {
|
||
/// Instructs the fragment to compute its border and padding.
|
||
fn compute_border_and_padding(&self, block: &mut BlockFlow, containing_block_inline_size: Au) {
|
||
block.fragment.compute_border_and_padding(containing_block_inline_size);
|
||
}
|
||
|
||
/// Compute the inputs for the ISize constraint equation.
|
||
///
|
||
/// This is called only once to compute the initial inputs. For calculations involving
|
||
/// minimum and maximum inline-size, we don't need to recompute these.
|
||
fn compute_inline_size_constraint_inputs(&self,
|
||
block: &mut BlockFlow,
|
||
parent_flow_inline_size: Au,
|
||
shared_context: &SharedStyleContext)
|
||
-> ISizeConstraintInput {
|
||
let containing_block_inline_size =
|
||
self.containing_block_inline_size(block, parent_flow_inline_size, shared_context);
|
||
|
||
block.fragment.compute_block_direction_margins(containing_block_inline_size);
|
||
block.fragment.compute_inline_direction_margins(containing_block_inline_size);
|
||
self.compute_border_and_padding(block, containing_block_inline_size);
|
||
|
||
let mut computed_inline_size = self.initial_computed_inline_size(block,
|
||
parent_flow_inline_size,
|
||
shared_context);
|
||
let style = block.fragment.style();
|
||
match (computed_inline_size, style.get_position().box_sizing) {
|
||
(MaybeAuto::Specified(size), BoxSizing::BorderBox) => {
|
||
computed_inline_size =
|
||
MaybeAuto::Specified(size - block.fragment.border_padding.inline_start_end())
|
||
}
|
||
(MaybeAuto::Auto, BoxSizing::BorderBox) |
|
||
(_, BoxSizing::ContentBox) => {}
|
||
}
|
||
|
||
let margin = style.logical_margin();
|
||
let position = style.logical_position();
|
||
|
||
let available_inline_size = containing_block_inline_size -
|
||
block.fragment.border_padding.inline_start_end();
|
||
ISizeConstraintInput::new(computed_inline_size,
|
||
MaybeAuto::from_style(margin.inline_start,
|
||
containing_block_inline_size),
|
||
MaybeAuto::from_style(margin.inline_end,
|
||
containing_block_inline_size),
|
||
MaybeAuto::from_style(position.inline_start,
|
||
containing_block_inline_size),
|
||
MaybeAuto::from_style(position.inline_end,
|
||
containing_block_inline_size),
|
||
style.get_inheritedtext().text_align,
|
||
available_inline_size)
|
||
}
|
||
|
||
/// Set the used values for inline-size and margins from the relevant constraint equation.
|
||
/// This is called only once.
|
||
///
|
||
/// Set:
|
||
/// * Used values for content inline-size, inline-start margin, and inline-end margin for this
|
||
/// flow's box;
|
||
/// * Inline-start coordinate of this flow's box;
|
||
/// * Inline-start coordinate of the flow with respect to its containing block (if this is an
|
||
/// absolute flow).
|
||
fn set_inline_size_constraint_solutions(&self,
|
||
block: &mut BlockFlow,
|
||
solution: ISizeConstraintSolution) {
|
||
let inline_size;
|
||
let extra_inline_size_from_margin;
|
||
{
|
||
let block_mode = block.base.writing_mode;
|
||
|
||
// FIXME (mbrubeck): Get correct containing block for positioned blocks?
|
||
let container_mode = block.base.block_container_writing_mode;
|
||
let container_size = block.base.block_container_inline_size;
|
||
|
||
let fragment = block.fragment();
|
||
fragment.margin.inline_start = solution.margin_inline_start;
|
||
fragment.margin.inline_end = solution.margin_inline_end;
|
||
|
||
// The associated fragment has the border box of this flow.
|
||
inline_size = solution.inline_size + fragment.border_padding.inline_start_end();
|
||
fragment.border_box.size.inline = inline_size;
|
||
|
||
// Start border edge.
|
||
// FIXME (mbrubeck): Handle vertical writing modes.
|
||
fragment.border_box.start.i =
|
||
if container_mode.is_bidi_ltr() == block_mode.is_bidi_ltr() {
|
||
fragment.margin.inline_start
|
||
} else {
|
||
// The parent's "start" direction is the child's "end" direction.
|
||
container_size - inline_size - fragment.margin.inline_end
|
||
};
|
||
|
||
// To calculate the total size of this block, we also need to account for any
|
||
// additional size contribution from positive margins. Negative margins means the block
|
||
// isn't made larger at all by the margin.
|
||
extra_inline_size_from_margin = max(Au(0), fragment.margin.inline_start) +
|
||
max(Au(0), fragment.margin.inline_end);
|
||
}
|
||
|
||
// We also resize the block itself, to ensure that overflow is not calculated
|
||
// as the inline-size of our parent. We might be smaller and we might be larger if we
|
||
// overflow.
|
||
block.mut_base().position.size.inline = inline_size + extra_inline_size_from_margin;
|
||
}
|
||
|
||
/// Set the inline coordinate of the given flow if it is absolutely positioned.
|
||
fn set_inline_position_of_flow_if_necessary(&self,
|
||
_: &mut BlockFlow,
|
||
_: ISizeConstraintSolution) {}
|
||
|
||
/// Solve the inline-size and margins constraints for this block flow.
|
||
fn solve_inline_size_constraints(&self,
|
||
block: &mut BlockFlow,
|
||
input: &ISizeConstraintInput)
|
||
-> ISizeConstraintSolution;
|
||
|
||
fn initial_computed_inline_size(&self,
|
||
block: &mut BlockFlow,
|
||
parent_flow_inline_size: Au,
|
||
shared_context: &SharedStyleContext)
|
||
-> MaybeAuto {
|
||
MaybeAuto::from_style(block.fragment().style().content_inline_size(),
|
||
self.containing_block_inline_size(block,
|
||
parent_flow_inline_size,
|
||
shared_context))
|
||
}
|
||
|
||
fn containing_block_inline_size(&self,
|
||
_: &mut BlockFlow,
|
||
parent_flow_inline_size: Au,
|
||
_: &SharedStyleContext)
|
||
-> Au {
|
||
parent_flow_inline_size
|
||
}
|
||
|
||
/// Compute the used value of inline-size, taking care of min-inline-size and max-inline-size.
|
||
///
|
||
/// CSS Section 10.4: Minimum and Maximum inline-sizes
|
||
fn compute_used_inline_size(&self,
|
||
block: &mut BlockFlow,
|
||
shared_context: &SharedStyleContext,
|
||
parent_flow_inline_size: Au) {
|
||
let mut input = self.compute_inline_size_constraint_inputs(block,
|
||
parent_flow_inline_size,
|
||
shared_context);
|
||
|
||
let containing_block_inline_size =
|
||
self.containing_block_inline_size(block, parent_flow_inline_size, shared_context);
|
||
|
||
let mut solution = self.solve_inline_size_constraints(block, &input);
|
||
|
||
// If the tentative used inline-size is greater than 'max-inline-size', inline-size should
|
||
// be recalculated, but this time using the computed value of 'max-inline-size' as the
|
||
// computed value for 'inline-size'.
|
||
match block.fragment().style().max_inline_size().to_used_value(containing_block_inline_size) {
|
||
Some(max_inline_size) if max_inline_size < solution.inline_size => {
|
||
input.computed_inline_size = MaybeAuto::Specified(max_inline_size);
|
||
solution = self.solve_inline_size_constraints(block, &input);
|
||
}
|
||
_ => {}
|
||
}
|
||
|
||
// If the resulting inline-size is smaller than 'min-inline-size', inline-size should be
|
||
// recalculated, but this time using the value of 'min-inline-size' as the computed value
|
||
// for 'inline-size'.
|
||
let computed_min_inline_size =
|
||
block.fragment().style().min_inline_size().to_used_value(containing_block_inline_size);
|
||
if computed_min_inline_size > solution.inline_size {
|
||
input.computed_inline_size = MaybeAuto::Specified(computed_min_inline_size);
|
||
solution = self.solve_inline_size_constraints(block, &input);
|
||
}
|
||
|
||
self.set_inline_size_constraint_solutions(block, solution);
|
||
self.set_inline_position_of_flow_if_necessary(block, solution);
|
||
}
|
||
|
||
/// Computes inline-start and inline-end margins and inline-size.
|
||
///
|
||
/// This is used by both replaced and non-replaced Blocks.
|
||
///
|
||
/// CSS 2.1 Section 10.3.3.
|
||
/// Constraint Equation: margin-inline-start + margin-inline-end + inline-size =
|
||
/// available_inline-size
|
||
/// where available_inline-size = CB inline-size - (horizontal border + padding)
|
||
fn solve_block_inline_size_constraints(&self,
|
||
block: &mut BlockFlow,
|
||
input: &ISizeConstraintInput)
|
||
-> ISizeConstraintSolution {
|
||
let (computed_inline_size, inline_start_margin, inline_end_margin, available_inline_size) =
|
||
(input.computed_inline_size,
|
||
input.inline_start_margin,
|
||
input.inline_end_margin,
|
||
input.available_inline_size);
|
||
|
||
// Check for direction of parent flow (NOT Containing Block)
|
||
let block_mode = block.base.writing_mode;
|
||
let container_mode = block.base.block_container_writing_mode;
|
||
let block_align = block.base.flags.text_align();
|
||
|
||
// FIXME (mbrubeck): Handle vertical writing modes.
|
||
let parent_has_same_direction = container_mode.is_bidi_ltr() == block_mode.is_bidi_ltr();
|
||
|
||
// If inline-size is not 'auto', and inline-size + margins > available_inline-size, all
|
||
// 'auto' margins are treated as 0.
|
||
let (inline_start_margin, inline_end_margin) = match computed_inline_size {
|
||
MaybeAuto::Auto => (inline_start_margin, inline_end_margin),
|
||
MaybeAuto::Specified(inline_size) => {
|
||
let inline_start = inline_start_margin.specified_or_zero();
|
||
let inline_end = inline_end_margin.specified_or_zero();
|
||
|
||
if (inline_start + inline_end + inline_size) > available_inline_size {
|
||
(MaybeAuto::Specified(inline_start), MaybeAuto::Specified(inline_end))
|
||
} else {
|
||
(inline_start_margin, inline_end_margin)
|
||
}
|
||
}
|
||
};
|
||
|
||
// Invariant: inline-start_margin + inline-size + inline-end_margin ==
|
||
// available_inline-size
|
||
let (inline_start_margin, inline_size, inline_end_margin) =
|
||
match (inline_start_margin, computed_inline_size, inline_end_margin) {
|
||
// If all have a computed value other than 'auto', the system is over-constrained.
|
||
(MaybeAuto::Specified(margin_start),
|
||
MaybeAuto::Specified(inline_size),
|
||
MaybeAuto::Specified(margin_end)) => {
|
||
// servo_left, servo_right, and servo_center are used to implement
|
||
// the "align descendants" rule in HTML5 § 14.2.
|
||
if block_align == TextAlign::ServoCenter {
|
||
// Ignore any existing margins, and make the inline-start and
|
||
// inline-end margins equal.
|
||
let margin = (available_inline_size - inline_size).scale_by(0.5);
|
||
(margin, inline_size, margin)
|
||
} else {
|
||
let ignore_end_margin = match block_align {
|
||
TextAlign::ServoLeft => block_mode.is_bidi_ltr(),
|
||
TextAlign::ServoRight => !block_mode.is_bidi_ltr(),
|
||
_ => parent_has_same_direction,
|
||
};
|
||
if ignore_end_margin {
|
||
(margin_start, inline_size, available_inline_size -
|
||
(margin_start + inline_size))
|
||
} else {
|
||
(available_inline_size - (margin_end + inline_size),
|
||
inline_size,
|
||
margin_end)
|
||
}
|
||
}
|
||
}
|
||
// If exactly one value is 'auto', solve for it
|
||
(MaybeAuto::Auto,
|
||
MaybeAuto::Specified(inline_size),
|
||
MaybeAuto::Specified(margin_end)) =>
|
||
(available_inline_size - (inline_size + margin_end), inline_size, margin_end),
|
||
(MaybeAuto::Specified(margin_start),
|
||
MaybeAuto::Auto,
|
||
MaybeAuto::Specified(margin_end)) => {
|
||
(margin_start,
|
||
available_inline_size - (margin_start + margin_end),
|
||
margin_end)
|
||
}
|
||
(MaybeAuto::Specified(margin_start),
|
||
MaybeAuto::Specified(inline_size),
|
||
MaybeAuto::Auto) => {
|
||
(margin_start,
|
||
inline_size,
|
||
available_inline_size - (margin_start + inline_size))
|
||
}
|
||
|
||
// If inline-size is set to 'auto', any other 'auto' value becomes '0',
|
||
// and inline-size is solved for
|
||
(MaybeAuto::Auto, MaybeAuto::Auto, MaybeAuto::Specified(margin_end)) => {
|
||
(Au(0), available_inline_size - margin_end, margin_end)
|
||
}
|
||
(MaybeAuto::Specified(margin_start), MaybeAuto::Auto, MaybeAuto::Auto) => {
|
||
(margin_start, available_inline_size - margin_start, Au(0))
|
||
}
|
||
(MaybeAuto::Auto, MaybeAuto::Auto, MaybeAuto::Auto) => {
|
||
(Au(0), available_inline_size, Au(0))
|
||
}
|
||
|
||
// If inline-start and inline-end margins are auto, they become equal
|
||
(MaybeAuto::Auto, MaybeAuto::Specified(inline_size), MaybeAuto::Auto) => {
|
||
let margin = (available_inline_size - inline_size).scale_by(0.5);
|
||
(margin, inline_size, margin)
|
||
}
|
||
};
|
||
|
||
ISizeConstraintSolution::new(inline_size, inline_start_margin, inline_end_margin)
|
||
}
|
||
}
|
||
|
||
/// The different types of Blocks.
|
||
///
|
||
/// They mainly differ in the way inline-size and block-sizes and margins are calculated
|
||
/// for them.
|
||
pub struct AbsoluteNonReplaced;
|
||
pub struct AbsoluteReplaced;
|
||
pub struct BlockNonReplaced;
|
||
pub struct BlockReplaced;
|
||
pub struct FloatNonReplaced;
|
||
pub struct FloatReplaced;
|
||
pub struct InlineBlockNonReplaced;
|
||
pub struct InlineBlockReplaced;
|
||
pub struct InlineFlexItem;
|
||
|
||
impl ISizeAndMarginsComputer for AbsoluteNonReplaced {
|
||
/// Solve the horizontal constraint equation for absolute non-replaced elements.
|
||
///
|
||
/// CSS Section 10.3.7
|
||
/// Constraint equation:
|
||
/// inline-start + inline-end + inline-size + margin-inline-start + margin-inline-end
|
||
/// = absolute containing block inline-size - (horizontal padding and border)
|
||
/// [aka available inline-size]
|
||
///
|
||
/// Return the solution for the equation.
|
||
fn solve_inline_size_constraints(&self,
|
||
block: &mut BlockFlow,
|
||
input: &ISizeConstraintInput)
|
||
-> ISizeConstraintSolution {
|
||
let &ISizeConstraintInput {
|
||
computed_inline_size,
|
||
inline_start_margin,
|
||
inline_end_margin,
|
||
inline_start,
|
||
inline_end,
|
||
available_inline_size,
|
||
..
|
||
} = input;
|
||
|
||
// Check for direction of parent flow (NOT Containing Block)
|
||
let block_mode = block.base.writing_mode;
|
||
let container_mode = block.base.block_container_writing_mode;
|
||
|
||
// FIXME (mbrubeck): Handle vertical writing modes.
|
||
let parent_has_same_direction = container_mode.is_bidi_ltr() == block_mode.is_bidi_ltr();
|
||
|
||
let (inline_start, inline_size, margin_inline_start, margin_inline_end) =
|
||
match (inline_start, inline_end, computed_inline_size) {
|
||
(MaybeAuto::Auto, MaybeAuto::Auto, MaybeAuto::Auto) => {
|
||
let margin_start = inline_start_margin.specified_or_zero();
|
||
let margin_end = inline_end_margin.specified_or_zero();
|
||
// Now it is the same situation as inline-start Specified and inline-end
|
||
// and inline-size Auto.
|
||
|
||
// Set inline-end to zero to calculate inline-size.
|
||
let inline_size =
|
||
block.get_shrink_to_fit_inline_size(available_inline_size -
|
||
(margin_start + margin_end));
|
||
(Au(0), inline_size, margin_start, margin_end)
|
||
}
|
||
(MaybeAuto::Specified(inline_start),
|
||
MaybeAuto::Specified(inline_end),
|
||
MaybeAuto::Specified(inline_size)) => {
|
||
match (inline_start_margin, inline_end_margin) {
|
||
(MaybeAuto::Auto, MaybeAuto::Auto) => {
|
||
let total_margin_val =
|
||
available_inline_size - inline_start - inline_end - inline_size;
|
||
if total_margin_val < Au(0) {
|
||
if parent_has_same_direction {
|
||
// margin-inline-start becomes 0
|
||
(inline_start, inline_size, Au(0), total_margin_val)
|
||
} else {
|
||
// margin-inline-end becomes 0, because it's toward the parent's
|
||
// inline-start edge.
|
||
(inline_start, inline_size, total_margin_val, Au(0))
|
||
}
|
||
} else {
|
||
// Equal margins
|
||
(inline_start,
|
||
inline_size,
|
||
total_margin_val.scale_by(0.5),
|
||
total_margin_val.scale_by(0.5))
|
||
}
|
||
}
|
||
(MaybeAuto::Specified(margin_start), MaybeAuto::Auto) => {
|
||
let sum = inline_start + inline_end + inline_size + margin_start;
|
||
(inline_start, inline_size, margin_start, available_inline_size - sum)
|
||
}
|
||
(MaybeAuto::Auto, MaybeAuto::Specified(margin_end)) => {
|
||
let sum = inline_start + inline_end + inline_size + margin_end;
|
||
(inline_start, inline_size, available_inline_size - sum, margin_end)
|
||
}
|
||
(MaybeAuto::Specified(margin_start), MaybeAuto::Specified(margin_end)) => {
|
||
// Values are over-constrained.
|
||
let sum = inline_start + inline_size + margin_start + margin_end;
|
||
if parent_has_same_direction {
|
||
// Ignore value for 'inline-end'
|
||
(inline_start, inline_size, margin_start, margin_end)
|
||
} else {
|
||
// Ignore value for 'inline-start'
|
||
(available_inline_size - sum,
|
||
inline_size,
|
||
margin_start,
|
||
margin_end)
|
||
}
|
||
}
|
||
}
|
||
}
|
||
// For the rest of the cases, auto values for margin are set to 0
|
||
|
||
// If only one is Auto, solve for it
|
||
(MaybeAuto::Auto,
|
||
MaybeAuto::Specified(inline_end),
|
||
MaybeAuto::Specified(inline_size)) => {
|
||
let margin_start = inline_start_margin.specified_or_zero();
|
||
let margin_end = inline_end_margin.specified_or_zero();
|
||
let sum = inline_end + inline_size + margin_start + margin_end;
|
||
(available_inline_size - sum, inline_size, margin_start, margin_end)
|
||
}
|
||
(MaybeAuto::Specified(inline_start),
|
||
MaybeAuto::Auto,
|
||
MaybeAuto::Specified(inline_size)) => {
|
||
let margin_start = inline_start_margin.specified_or_zero();
|
||
let margin_end = inline_end_margin.specified_or_zero();
|
||
(inline_start, inline_size, margin_start, margin_end)
|
||
}
|
||
(MaybeAuto::Specified(inline_start),
|
||
MaybeAuto::Specified(inline_end),
|
||
MaybeAuto::Auto) => {
|
||
let margin_start = inline_start_margin.specified_or_zero();
|
||
let margin_end = inline_end_margin.specified_or_zero();
|
||
let sum = inline_start + inline_end + margin_start + margin_end;
|
||
(inline_start, available_inline_size - sum, margin_start, margin_end)
|
||
}
|
||
|
||
// If inline-size is auto, then inline-size is shrink-to-fit. Solve for the
|
||
// non-auto value.
|
||
(MaybeAuto::Specified(inline_start), MaybeAuto::Auto, MaybeAuto::Auto) => {
|
||
let margin_start = inline_start_margin.specified_or_zero();
|
||
let margin_end = inline_end_margin.specified_or_zero();
|
||
// Set inline-end to zero to calculate inline-size
|
||
let inline_size =
|
||
block.get_shrink_to_fit_inline_size(available_inline_size -
|
||
(margin_start + margin_end));
|
||
(inline_start, inline_size, margin_start, margin_end)
|
||
}
|
||
(MaybeAuto::Auto, MaybeAuto::Specified(inline_end), MaybeAuto::Auto) => {
|
||
let margin_start = inline_start_margin.specified_or_zero();
|
||
let margin_end = inline_end_margin.specified_or_zero();
|
||
// Set inline-start to zero to calculate inline-size
|
||
let inline_size =
|
||
block.get_shrink_to_fit_inline_size(available_inline_size -
|
||
(margin_start + margin_end));
|
||
let sum = inline_end + inline_size + margin_start + margin_end;
|
||
(available_inline_size - sum, inline_size, margin_start, margin_end)
|
||
}
|
||
|
||
(MaybeAuto::Auto, MaybeAuto::Auto, MaybeAuto::Specified(inline_size)) => {
|
||
let margin_start = inline_start_margin.specified_or_zero();
|
||
let margin_end = inline_end_margin.specified_or_zero();
|
||
// Setting 'inline-start' to static position because direction is 'ltr'.
|
||
// TODO: Handle 'rtl' when it is implemented.
|
||
(Au(0), inline_size, margin_start, margin_end)
|
||
}
|
||
};
|
||
ISizeConstraintSolution::for_absolute_flow(inline_start,
|
||
inline_size,
|
||
margin_inline_start,
|
||
margin_inline_end)
|
||
}
|
||
|
||
fn containing_block_inline_size(&self,
|
||
block: &mut BlockFlow,
|
||
_: Au,
|
||
shared_context: &SharedStyleContext)
|
||
-> Au {
|
||
let opaque_block = OpaqueFlow::from_flow(block);
|
||
block.containing_block_size(&shared_context.viewport_size(), opaque_block).inline
|
||
}
|
||
|
||
fn set_inline_position_of_flow_if_necessary(&self,
|
||
block: &mut BlockFlow,
|
||
solution: ISizeConstraintSolution) {
|
||
// Set the inline position of the absolute flow wrt to its containing block.
|
||
if !block.base.flags.contains(FlowFlags::INLINE_POSITION_IS_STATIC) {
|
||
block.base.position.start.i = solution.inline_start;
|
||
}
|
||
}
|
||
}
|
||
|
||
impl ISizeAndMarginsComputer for AbsoluteReplaced {
|
||
/// Solve the horizontal constraint equation for absolute replaced elements.
|
||
///
|
||
/// CSS Section 10.3.8
|
||
/// Constraint equation:
|
||
/// inline-start + inline-end + inline-size + margin-inline-start + margin-inline-end
|
||
/// = absolute containing block inline-size - (horizontal padding and border)
|
||
/// [aka available_inline-size]
|
||
///
|
||
/// Return the solution for the equation.
|
||
fn solve_inline_size_constraints(&self, _: &mut BlockFlow, input: &ISizeConstraintInput)
|
||
-> ISizeConstraintSolution {
|
||
let &ISizeConstraintInput {
|
||
computed_inline_size,
|
||
inline_start_margin,
|
||
inline_end_margin,
|
||
inline_start,
|
||
inline_end,
|
||
available_inline_size,
|
||
..
|
||
} = input;
|
||
// TODO: Check for direction of static-position Containing Block (aka
|
||
// parent flow, _not_ the actual Containing Block) when right-to-left
|
||
// is implemented
|
||
// Assume direction is 'ltr' for now
|
||
// TODO: Handle all the cases for 'rtl' direction.
|
||
|
||
let inline_size = match computed_inline_size {
|
||
MaybeAuto::Specified(w) => w,
|
||
_ => panic!("{} {}",
|
||
"The used value for inline_size for absolute replaced flow",
|
||
"should have already been calculated by now.")
|
||
};
|
||
|
||
let (inline_start, inline_size, margin_inline_start, margin_inline_end) =
|
||
match (inline_start, inline_end) {
|
||
(MaybeAuto::Auto, MaybeAuto::Auto) => {
|
||
let margin_start = inline_start_margin.specified_or_zero();
|
||
let margin_end = inline_end_margin.specified_or_zero();
|
||
(Au(0), inline_size, margin_start, margin_end)
|
||
}
|
||
// If only one is Auto, solve for it
|
||
(MaybeAuto::Auto, MaybeAuto::Specified(inline_end)) => {
|
||
let margin_start = inline_start_margin.specified_or_zero();
|
||
let margin_end = inline_end_margin.specified_or_zero();
|
||
let sum = inline_end + inline_size + margin_start + margin_end;
|
||
(available_inline_size - sum, inline_size, margin_start, margin_end)
|
||
}
|
||
(MaybeAuto::Specified(inline_start), MaybeAuto::Auto) => {
|
||
let margin_start = inline_start_margin.specified_or_zero();
|
||
let margin_end = inline_end_margin.specified_or_zero();
|
||
(inline_start, inline_size, margin_start, margin_end)
|
||
}
|
||
(MaybeAuto::Specified(inline_start), MaybeAuto::Specified(inline_end)) => {
|
||
match (inline_start_margin, inline_end_margin) {
|
||
(MaybeAuto::Auto, MaybeAuto::Auto) => {
|
||
let total_margin_val = available_inline_size - inline_start -
|
||
inline_end - inline_size;
|
||
if total_margin_val < Au(0) {
|
||
// margin-inline-start becomes 0 because direction is 'ltr'.
|
||
(inline_start, inline_size, Au(0), total_margin_val)
|
||
} else {
|
||
// Equal margins
|
||
(inline_start,
|
||
inline_size,
|
||
total_margin_val.scale_by(0.5),
|
||
total_margin_val.scale_by(0.5))
|
||
}
|
||
}
|
||
(MaybeAuto::Specified(margin_start), MaybeAuto::Auto) => {
|
||
let sum = inline_start + inline_end + inline_size + margin_start;
|
||
(inline_start, inline_size, margin_start, available_inline_size - sum)
|
||
}
|
||
(MaybeAuto::Auto, MaybeAuto::Specified(margin_end)) => {
|
||
let sum = inline_start + inline_end + inline_size + margin_end;
|
||
(inline_start, inline_size, available_inline_size - sum, margin_end)
|
||
}
|
||
(MaybeAuto::Specified(margin_start), MaybeAuto::Specified(margin_end)) => {
|
||
// Values are over-constrained.
|
||
// Ignore value for 'inline-end' cos direction is 'ltr'.
|
||
(inline_start, inline_size, margin_start, margin_end)
|
||
}
|
||
}
|
||
}
|
||
};
|
||
ISizeConstraintSolution::for_absolute_flow(inline_start,
|
||
inline_size,
|
||
margin_inline_start,
|
||
margin_inline_end)
|
||
}
|
||
|
||
/// Calculate used value of inline-size just like we do for inline replaced elements.
|
||
fn initial_computed_inline_size(&self,
|
||
block: &mut BlockFlow,
|
||
_: Au,
|
||
shared_context: &SharedStyleContext)
|
||
-> MaybeAuto {
|
||
let opaque_block = OpaqueFlow::from_flow(block);
|
||
let containing_block_inline_size =
|
||
block.containing_block_size(&shared_context.viewport_size(), opaque_block).inline;
|
||
let container_block_size = block.explicit_block_containing_size(shared_context);
|
||
let fragment = block.fragment();
|
||
fragment.assign_replaced_inline_size_if_necessary(containing_block_inline_size, container_block_size);
|
||
// For replaced absolute flow, the rest of the constraint solving will
|
||
// take inline-size to be specified as the value computed here.
|
||
MaybeAuto::Specified(fragment.content_box().size.inline)
|
||
}
|
||
|
||
fn containing_block_inline_size(&self,
|
||
block: &mut BlockFlow,
|
||
_: Au,
|
||
shared_context: &SharedStyleContext)
|
||
-> Au {
|
||
let opaque_block = OpaqueFlow::from_flow(block);
|
||
block.containing_block_size(&shared_context.viewport_size(), opaque_block).inline
|
||
}
|
||
|
||
fn set_inline_position_of_flow_if_necessary(&self,
|
||
block: &mut BlockFlow,
|
||
solution: ISizeConstraintSolution) {
|
||
// Set the x-coordinate of the absolute flow wrt to its containing block.
|
||
block.base.position.start.i = solution.inline_start;
|
||
}
|
||
}
|
||
|
||
impl ISizeAndMarginsComputer for BlockNonReplaced {
|
||
/// Compute inline-start and inline-end margins and inline-size.
|
||
fn solve_inline_size_constraints(&self,
|
||
block: &mut BlockFlow,
|
||
input: &ISizeConstraintInput)
|
||
-> ISizeConstraintSolution {
|
||
self.solve_block_inline_size_constraints(block, input)
|
||
}
|
||
}
|
||
|
||
impl ISizeAndMarginsComputer for BlockReplaced {
|
||
/// Compute inline-start and inline-end margins and inline-size.
|
||
///
|
||
/// ISize has already been calculated. We now calculate the margins just
|
||
/// like for non-replaced blocks.
|
||
fn solve_inline_size_constraints(&self,
|
||
block: &mut BlockFlow,
|
||
input: &ISizeConstraintInput)
|
||
-> ISizeConstraintSolution {
|
||
match input.computed_inline_size {
|
||
MaybeAuto::Specified(_) => {},
|
||
MaybeAuto::Auto => {
|
||
panic!("BlockReplaced: inline_size should have been computed by now")
|
||
}
|
||
};
|
||
self.solve_block_inline_size_constraints(block, input)
|
||
}
|
||
|
||
/// Calculate used value of inline-size just like we do for inline replaced elements.
|
||
fn initial_computed_inline_size(&self,
|
||
block: &mut BlockFlow,
|
||
parent_flow_inline_size: Au,
|
||
shared_context: &SharedStyleContext)
|
||
-> MaybeAuto {
|
||
let container_block_size = block.explicit_block_containing_size(shared_context);
|
||
let fragment = block.fragment();
|
||
fragment.assign_replaced_inline_size_if_necessary(parent_flow_inline_size, container_block_size);
|
||
// For replaced block flow, the rest of the constraint solving will
|
||
// take inline-size to be specified as the value computed here.
|
||
MaybeAuto::Specified(fragment.content_box().size.inline)
|
||
}
|
||
|
||
}
|
||
|
||
impl ISizeAndMarginsComputer for FloatNonReplaced {
|
||
/// CSS Section 10.3.5
|
||
///
|
||
/// If inline-size is computed as 'auto', the used value is the 'shrink-to-fit' inline-size.
|
||
fn solve_inline_size_constraints(&self,
|
||
block: &mut BlockFlow,
|
||
input: &ISizeConstraintInput)
|
||
-> ISizeConstraintSolution {
|
||
let (computed_inline_size, inline_start_margin, inline_end_margin, available_inline_size) =
|
||
(input.computed_inline_size,
|
||
input.inline_start_margin,
|
||
input.inline_end_margin,
|
||
input.available_inline_size);
|
||
let margin_inline_start = inline_start_margin.specified_or_zero();
|
||
let margin_inline_end = inline_end_margin.specified_or_zero();
|
||
let available_inline_size_float = available_inline_size - margin_inline_start -
|
||
margin_inline_end;
|
||
let shrink_to_fit = block.get_shrink_to_fit_inline_size(available_inline_size_float);
|
||
let inline_size = computed_inline_size.specified_or_default(shrink_to_fit);
|
||
debug!("assign_inline_sizes_float -- inline_size: {:?}", inline_size);
|
||
ISizeConstraintSolution::new(inline_size, margin_inline_start, margin_inline_end)
|
||
}
|
||
}
|
||
|
||
impl ISizeAndMarginsComputer for FloatReplaced {
|
||
/// CSS Section 10.3.5
|
||
///
|
||
/// If inline-size is computed as 'auto', the used value is the 'shrink-to-fit' inline-size.
|
||
fn solve_inline_size_constraints(&self, _: &mut BlockFlow, input: &ISizeConstraintInput)
|
||
-> ISizeConstraintSolution {
|
||
let (computed_inline_size, inline_start_margin, inline_end_margin) =
|
||
(input.computed_inline_size, input.inline_start_margin, input.inline_end_margin);
|
||
let margin_inline_start = inline_start_margin.specified_or_zero();
|
||
let margin_inline_end = inline_end_margin.specified_or_zero();
|
||
let inline_size = match computed_inline_size {
|
||
MaybeAuto::Specified(w) => w,
|
||
MaybeAuto::Auto => panic!("FloatReplaced: inline_size should have been computed by now")
|
||
};
|
||
debug!("assign_inline_sizes_float -- inline_size: {:?}", inline_size);
|
||
ISizeConstraintSolution::new(inline_size, margin_inline_start, margin_inline_end)
|
||
}
|
||
|
||
/// Calculate used value of inline-size just like we do for inline replaced elements.
|
||
fn initial_computed_inline_size(&self,
|
||
block: &mut BlockFlow,
|
||
parent_flow_inline_size: Au,
|
||
shared_context: &SharedStyleContext)
|
||
-> MaybeAuto {
|
||
let container_block_size = block.explicit_block_containing_size(shared_context);
|
||
let fragment = block.fragment();
|
||
fragment.assign_replaced_inline_size_if_necessary(parent_flow_inline_size, container_block_size);
|
||
// For replaced block flow, the rest of the constraint solving will
|
||
// take inline-size to be specified as the value computed here.
|
||
MaybeAuto::Specified(fragment.content_box().size.inline)
|
||
}
|
||
}
|
||
|
||
impl ISizeAndMarginsComputer for InlineBlockNonReplaced {
|
||
/// Compute inline-start and inline-end margins and inline-size.
|
||
fn solve_inline_size_constraints(&self,
|
||
block: &mut BlockFlow,
|
||
input: &ISizeConstraintInput)
|
||
-> ISizeConstraintSolution {
|
||
let (computed_inline_size,
|
||
inline_start_margin,
|
||
inline_end_margin,
|
||
available_inline_size) =
|
||
(input.computed_inline_size,
|
||
input.inline_start_margin,
|
||
input.inline_end_margin,
|
||
input.available_inline_size);
|
||
|
||
// For inline-blocks, `auto` margins compute to 0.
|
||
let inline_start_margin = inline_start_margin.specified_or_zero();
|
||
let inline_end_margin = inline_end_margin.specified_or_zero();
|
||
|
||
// If inline-size is set to 'auto', and this is an inline block, use the
|
||
// shrink to fit algorithm (see CSS 2.1 § 10.3.9)
|
||
let inline_size = match computed_inline_size {
|
||
MaybeAuto::Auto => {
|
||
block.get_shrink_to_fit_inline_size(available_inline_size - (inline_start_margin +
|
||
inline_end_margin))
|
||
}
|
||
MaybeAuto::Specified(inline_size) => inline_size,
|
||
};
|
||
|
||
ISizeConstraintSolution::new(inline_size, inline_start_margin, inline_end_margin)
|
||
}
|
||
}
|
||
|
||
impl ISizeAndMarginsComputer for InlineBlockReplaced {
|
||
/// Compute inline-start and inline-end margins and inline-size.
|
||
///
|
||
/// ISize has already been calculated. We now calculate the margins just
|
||
/// like for non-replaced blocks.
|
||
fn solve_inline_size_constraints(&self,
|
||
block: &mut BlockFlow,
|
||
input: &ISizeConstraintInput)
|
||
-> ISizeConstraintSolution {
|
||
debug_assert!(match input.computed_inline_size {
|
||
MaybeAuto::Specified(_) => true,
|
||
MaybeAuto::Auto => false,
|
||
});
|
||
|
||
let (computed_inline_size,
|
||
inline_start_margin,
|
||
inline_end_margin,
|
||
available_inline_size) =
|
||
(input.computed_inline_size,
|
||
input.inline_start_margin,
|
||
input.inline_end_margin,
|
||
input.available_inline_size);
|
||
|
||
// For inline-blocks, `auto` margins compute to 0.
|
||
let inline_start_margin = inline_start_margin.specified_or_zero();
|
||
let inline_end_margin = inline_end_margin.specified_or_zero();
|
||
|
||
// If inline-size is set to 'auto', and this is an inline block, use the
|
||
// shrink to fit algorithm (see CSS 2.1 § 10.3.9)
|
||
let inline_size = match computed_inline_size {
|
||
MaybeAuto::Auto => {
|
||
block.get_shrink_to_fit_inline_size(available_inline_size - (inline_start_margin +
|
||
inline_end_margin))
|
||
}
|
||
MaybeAuto::Specified(inline_size) => inline_size,
|
||
};
|
||
|
||
ISizeConstraintSolution::new(inline_size, inline_start_margin, inline_end_margin)
|
||
}
|
||
|
||
/// Calculate used value of inline-size just like we do for inline replaced elements.
|
||
fn initial_computed_inline_size(&self,
|
||
block: &mut BlockFlow,
|
||
parent_flow_inline_size: Au,
|
||
shared_context: &SharedStyleContext)
|
||
-> MaybeAuto {
|
||
let container_block_size = block.explicit_block_containing_size(shared_context);
|
||
let fragment = block.fragment();
|
||
fragment.assign_replaced_inline_size_if_necessary(parent_flow_inline_size, container_block_size);
|
||
// For replaced block flow, the rest of the constraint solving will
|
||
// take inline-size to be specified as the value computed here.
|
||
MaybeAuto::Specified(fragment.content_box().size.inline)
|
||
}
|
||
}
|
||
|
||
impl ISizeAndMarginsComputer for InlineFlexItem {
|
||
// Replace the default method directly to prevent recalculating and setting margins again
|
||
// which has already been set by its parent.
|
||
fn compute_used_inline_size(&self,
|
||
block: &mut BlockFlow,
|
||
shared_context: &SharedStyleContext,
|
||
parent_flow_inline_size: Au) {
|
||
let container_block_size = block.explicit_block_containing_size(shared_context);
|
||
block.fragment.assign_replaced_inline_size_if_necessary(parent_flow_inline_size,
|
||
container_block_size);
|
||
}
|
||
|
||
// The used inline size and margins are set by parent flex flow, do nothing here.
|
||
fn solve_inline_size_constraints(&self,
|
||
block: &mut BlockFlow,
|
||
_: &ISizeConstraintInput)
|
||
-> ISizeConstraintSolution {
|
||
let fragment = block.fragment();
|
||
ISizeConstraintSolution::new(fragment.border_box.size.inline,
|
||
fragment.margin.inline_start,
|
||
fragment.margin.inline_end)
|
||
}
|
||
}
|