gecko-dev/layout/generic/nsFlexContainerFrame.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/* rendering object for CSS "display: flex" and "display: -webkit-box" */
#ifndef nsFlexContainerFrame_h___
#define nsFlexContainerFrame_h___
#include "nsContainerFrame.h"
#include "mozilla/UniquePtr.h"
namespace mozilla {
template <class T> class LinkedList;
class LogicalPoint;
} // namespace mozilla
nsContainerFrame* NS_NewFlexContainerFrame(nsIPresShell* aPresShell,
mozilla::ComputedStyle* aStyle);
/**
* These structures are used to capture data during reflow to be
* extracted by devtools via Chrome APIs. The structures are only
* created when requested in GetFlexFrameWithComputedInfo(), and
* the structures are attached to the nsFlexContainerFrame via the
* FlexContainerInfo property.
*/
struct ComputedFlexItemInfo
{
nsCOMPtr<nsINode> mNode;
/**
* mMainBaseSize is a measure of the size of the item in the main
* axis before the flex sizing algorithm is applied. In the spec,
* this is called "flex base size", but we use this name to connect
* the value to the other main axis sizes.
*/
nscoord mMainBaseSize;
/**
* mMainDeltaSize is the value that the flex sizing algorithm
* "wants" to use to stretch or shrink the item, before clamping to
* the item's main min and max sizes. Since the flex sizing
* algorithm proceeds linearly, the mMainDeltaSize for an item only
* respects the resolved size of items already frozen.
*/
nscoord mMainDeltaSize;
nscoord mMainMinSize;
nscoord mMainMaxSize;
nscoord mCrossMinSize;
nscoord mCrossMaxSize;
};
struct ComputedFlexLineInfo
{
nsTArray<ComputedFlexItemInfo> mItems;
nscoord mCrossStart;
nscoord mCrossSize;
nscoord mFirstBaselineOffset;
nscoord mLastBaselineOffset;
enum GrowthState {
UNCHANGED,
SHRINKING,
GROWING,
} mGrowthState;
};
struct ComputedFlexContainerInfo
{
nsTArray<ComputedFlexLineInfo> mLines;
};
/**
* This is the rendering object used for laying out elements with
* "display: flex" or "display: inline-flex".
*
* We also use this class for elements with "display: -webkit-box" or
* "display: -webkit-inline-box" (but not "-moz-box" / "-moz-inline-box" --
* those are rendered with old-school XUL frame classes).
*
* Note: we represent the -webkit-box family of properties (-webkit-box-orient,
* -webkit-box-flex, etc.) as aliases for their -moz equivalents. And for
* -webkit-{inline-}box containers, nsFlexContainerFrame will honor those
* "legacy" properties for alignment/flexibility/etc. *instead of* honoring the
* modern flexbox & alignment properties. For brevity, many comments in
* nsFlexContainerFrame.cpp simply refer to these properties using their
* "-webkit" versions, since we're mostly expecting to encounter them in that
* form. (Technically, the "-moz" versions of these properties *can* influence
* layout here as well (since that's what the -webkit versions are aliased to)
* -- but only inside of a "display:-webkit-{inline-}box" container.)
*/
class nsFlexContainerFrame final : public nsContainerFrame
{
public:
NS_DECL_FRAMEARENA_HELPERS(nsFlexContainerFrame)
NS_DECL_QUERYFRAME
// Factory method:
friend nsContainerFrame* NS_NewFlexContainerFrame(nsIPresShell* aPresShell,
ComputedStyle* aStyle);
// Forward-decls of helper classes
class FlexItem;
class FlexLine;
class FlexboxAxisTracker;
struct StrutInfo;
class CachedMeasuringReflowResult;
// nsIFrame overrides
void Init(nsIContent* aContent,
nsContainerFrame* aParent,
nsIFrame* aPrevInFlow) override;
void BuildDisplayList(nsDisplayListBuilder* aBuilder,
const nsDisplayListSet& aLists) override;
void MarkIntrinsicISizesDirty() override;
void Reflow(nsPresContext* aPresContext,
ReflowOutput& aDesiredSize,
const ReflowInput& aReflowInput,
nsReflowStatus& aStatus) override;
nscoord GetMinISize(gfxContext* aRenderingContext) override;
nscoord GetPrefISize(gfxContext* aRenderingContext) override;
#ifdef DEBUG_FRAME_DUMP
nsresult GetFrameName(nsAString& aResult) const override;
#endif
nscoord GetLogicalBaseline(mozilla::WritingMode aWM) const override;
bool GetVerticalAlignBaseline(mozilla::WritingMode aWM,
nscoord* aBaseline) const override
{
return GetNaturalBaselineBOffset(aWM, BaselineSharingGroup::eFirst, aBaseline);
}
bool GetNaturalBaselineBOffset(mozilla::WritingMode aWM,
BaselineSharingGroup aBaselineGroup,
nscoord* aBaseline) const override
{
if (HasAnyStateBits(NS_STATE_FLEX_SYNTHESIZE_BASELINE)) {
return false;
}
*aBaseline = aBaselineGroup == BaselineSharingGroup::eFirst ?
mBaselineFromLastReflow : mLastBaselineFromLastReflow;
return true;
}
// nsContainerFrame overrides
uint16_t CSSAlignmentForAbsPosChild(
const ReflowInput& aChildRI,
mozilla::LogicalAxis aLogicalAxis) const override;
/**
* Helper function to calculate packing space and initial offset of alignment
* subjects in MainAxisPositionTracker() and CrossAxisPositionTracker() for
* space-between, space-around, and space-evenly.
* * @param aNumThingsToPack Number of alignment subjects.
* @param aAlignVal Value for align-self or justify-self.
* @param aFirstSubjectOffset Outparam for first subject offset.
* @param aNumPackingSpacesRemaining Outparam for number of equal-sized
* packing spaces to apply between each
* alignment subject.
* @param aPackingSpaceRemaining Outparam for total amount of packing
* space to be divided up.
*/
static void CalculatePackingSpace(uint32_t aNumThingsToPack,
uint8_t aAlignVal,
nscoord* aFirstSubjectOffset,
uint32_t* aNumPackingSpacesRemaining,
nscoord* aPackingSpaceRemaining);
/**
* This property is created by a call to
* nsFlexContainerFrame::GetFlexFrameWithComputedInfo.
*/
NS_DECLARE_FRAME_PROPERTY_DELETABLE(FlexContainerInfo, ComputedFlexContainerInfo)
/**
* This function should only be called on a nsFlexContainerFrame
* that has just been returned by a call to
* GetFlexFrameWithComputedInfo.
*/
const ComputedFlexContainerInfo* GetFlexContainerInfo()
{
const ComputedFlexContainerInfo* info = GetProperty(FlexContainerInfo());
MOZ_ASSERT(info, "Property generation wasn't requested.");
return info;
}
/**
* Return aFrame as a flex frame after ensuring it has computed flex info.
* @return nullptr if aFrame is null or doesn't have a flex frame
* as its content insertion frame.
* @note this might destroy layout/style data since it may flush layout.
*/
static nsFlexContainerFrame* GetFlexFrameWithComputedInfo(nsIFrame* aFrame);
/**
* Given a frame for a flex item, this method returns true IFF that flex
* item's inline axis is the same as (i.e. not orthogonal to) its flex
* container's main axis.
*
* (This method is only intended to be used from external
* callers. Inside of flex reflow code, FlexItem::IsInlineAxisMainAxis() is
* equivalent & more optimal.)
*
* @param aFrame a flex item (must return true from IsFlexItem)
* @return true iff aFrame's inline axis is the same as (i.e. not orthogonal
* to) its flex container's main axis. Otherwise, false.
*/
static bool IsItemInlineAxisMainAxis(nsIFrame* aFrame);
protected:
// Protected constructor & destructor
explicit nsFlexContainerFrame(ComputedStyle* aStyle)
: nsContainerFrame(aStyle, kClassID)
, mBaselineFromLastReflow(NS_INTRINSIC_WIDTH_UNKNOWN)
, mLastBaselineFromLastReflow(NS_INTRINSIC_WIDTH_UNKNOWN)
{}
virtual ~nsFlexContainerFrame();
/*
* This method does the bulk of the flex layout, implementing the algorithm
* described at:
* http://dev.w3.org/csswg/css-flexbox/#layout-algorithm
* (with a few initialization pieces happening in the caller, Reflow().
*
* Since this is a helper for Reflow(), this takes all the same parameters
* as Reflow(), plus a few more parameters that Reflow() sets up for us.
*
* (The logic behind the division of work between Reflow and DoFlexLayout is
* as follows: DoFlexLayout() begins at the step that we have to jump back
* to, if we find any visibility:collapse children, and Reflow() does
* everything before that point.)
*/
void DoFlexLayout(nsPresContext* aPresContext,
ReflowOutput& aDesiredSize,
const ReflowInput& aReflowInput,
nsReflowStatus& aStatus,
nscoord aContentBoxMainSize,
nscoord aAvailableBSizeForContent,
nsTArray<StrutInfo>& aStruts,
const FlexboxAxisTracker& aAxisTracker);
/**
* Checks whether our child-frame list "mFrames" is sorted, using the given
* IsLessThanOrEqual function, and sorts it if it's not already sorted.
*
* XXXdholbert Once we support pagination, we need to make this function
* check our continuations as well (or wrap it in a function that does).
*
* @return true if we had to sort mFrames, false if it was already sorted.
*/
template<bool IsLessThanOrEqual(nsIFrame*, nsIFrame*)>
bool SortChildrenIfNeeded();
// Protected flex-container-specific methods / member-vars
#ifdef DEBUG
void SanityCheckAnonymousFlexItems() const;
#endif // DEBUG
/*
* Returns a new FlexItem for the given child frame, allocated on the heap.
* Guaranteed to return non-null. Caller is responsible for managing the
* FlexItem's lifetime.
*
* Before returning, this method also processes the FlexItem to resolve its
* flex basis (including e.g. auto-height) as well as to resolve
* "min-height:auto", via ResolveAutoFlexBasisAndMinSize(). (Basically, the
* returned FlexItem will be ready to participate in the "Resolve the
* Flexible Lengths" step of the Flex Layout Algorithm.)
*/
mozilla::UniquePtr<FlexItem> GenerateFlexItemForChild(nsPresContext* aPresContext,
nsIFrame* aChildFrame,
const ReflowInput& aParentReflowInput,
const FlexboxAxisTracker& aAxisTracker);
/**
* This method gets a cached measuring reflow for a flex item, or does it and
* caches it.
*
* This avoids exponential reflows, see the comment on
* CachedMeasuringReflowResult.
*/
const CachedMeasuringReflowResult& MeasureAscentAndBSizeForFlexItem(
FlexItem& aItem,
nsPresContext* aPresContext,
ReflowInput& aChildReflowInput);
/**
* This method performs a "measuring" reflow to get the content BSize of
* aFlexItem.Frame() (treating it as if it had a computed BSize of "auto"),
* and returns the resulting BSize measurement.
* (Helper for ResolveAutoFlexBasisAndMinSize().)
*/
nscoord MeasureFlexItemContentBSize(nsPresContext* aPresContext,
FlexItem& aFlexItem,
bool aForceBResizeForMeasuringReflow,
const ReflowInput& aParentReflowInput);
/**
* This method resolves an "auto" flex-basis and/or min-main-size value
* on aFlexItem, if needed.
* (Helper for GenerateFlexItemForChild().)
*/
void ResolveAutoFlexBasisAndMinSize(nsPresContext* aPresContext,
FlexItem& aFlexItem,
const ReflowInput& aItemReflowInput,
const FlexboxAxisTracker& aAxisTracker);
/**
* Returns true if "this" is the nsFlexContainerFrame for a -moz-box or
* a -moz-inline-box -- these boxes have special behavior for flex items with
* "visibility:collapse".
*
* @param aFlexStyleDisp This frame's StyleDisplay(). (Just an optimization to
* avoid repeated lookup; some callers already have it.)
* @return true if "this" is the nsFlexContainerFrame for a -moz-{inline}box.
*/
bool ShouldUseMozBoxCollapseBehavior(const nsStyleDisplay* aFlexStyleDisp);
/**
* This method:
* - Creates FlexItems for all of our child frames (except placeholders).
* - Groups those FlexItems into FlexLines.
* - Returns those FlexLines in the outparam |aLines|.
*
* For any child frames which are placeholders, this method will instead just
* append that child to the outparam |aPlaceholders| for separate handling.
* (Absolutely positioned children of a flex container are *not* flex items.)
*/
void GenerateFlexLines(nsPresContext* aPresContext,
const ReflowInput& aReflowInput,
nscoord aContentBoxMainSize,
nscoord aAvailableBSizeForContent,
const nsTArray<StrutInfo>& aStruts,
const FlexboxAxisTracker& aAxisTracker,
nsTArray<nsIFrame*>& aPlaceholders,
mozilla::LinkedList<FlexLine>& aLines);
nscoord GetMainSizeFromReflowInput(const ReflowInput& aReflowInput,
const FlexboxAxisTracker& aAxisTracker);
nscoord ComputeCrossSize(const ReflowInput& aReflowInput,
const FlexboxAxisTracker& aAxisTracker,
nscoord aSumLineCrossSizes,
nscoord aAvailableBSizeForContent,
bool* aIsDefinite,
nsReflowStatus& aStatus);
void SizeItemInCrossAxis(nsPresContext* aPresContext,
const FlexboxAxisTracker& aAxisTracker,
ReflowInput& aChildReflowInput,
FlexItem& aItem);
/**
* Moves the given flex item's frame to the given LogicalPosition (modulo any
* relative positioning).
*
* This can be used in cases where we've already done a "measuring reflow"
* for the flex item at the correct size, and hence can skip its final reflow
* (but still need to move it to the right final position).
*
* @param aReflowInput The flex container's reflow state.
* @param aItem The flex item whose frame should be moved.
* @param aFramePos The position where the flex item's frame should
* be placed. (pre-relative positioning)
* @param aContainerSize The flex container's size (required by some methods
* that we call, to interpret aFramePos correctly).
*/
void MoveFlexItemToFinalPosition(const ReflowInput& aReflowInput,
const FlexItem& aItem,
mozilla::LogicalPoint& aFramePos,
const nsSize& aContainerSize);
/**
* Helper-function to reflow a child frame, at its final position determined
* by flex layout.
*
* @param aPresContext The presentation context being used in reflow.
* @param aAxisTracker A FlexboxAxisTracker with the flex container's axes.
* @param aReflowInput The flex container's reflow state.
* @param aItem The flex item to be reflowed.
* @param aFramePos The position where the flex item's frame should
* be placed. (pre-relative positioning)
* @param aContainerSize The flex container's size (required by some methods
* that we call, to interpret aFramePos correctly).
*/
void ReflowFlexItem(nsPresContext* aPresContext,
const FlexboxAxisTracker& aAxisTracker,
const ReflowInput& aReflowInput,
const FlexItem& aItem,
mozilla::LogicalPoint& aFramePos,
const nsSize& aContainerSize);
/**
* Helper-function to perform a "dummy reflow" on all our nsPlaceholderFrame
* children, at the container's content-box origin.
*
* This doesn't actually represent the static position of the placeholders'
* out-of-flow (OOF) frames -- we can't compute that until we've reflowed the
* OOF, because (depending on the CSS Align properties) the static position
* may be influenced by the OOF's size. So for now, we just co-opt the
* placeholder to store the flex container's logical content-box origin, and
* we defer to nsAbsoluteContainingBlock to determine the OOF's actual static
* position (using this origin, the OOF's size, and the CSS Align
* properties).
*
* @param aPresContext The presentation context being used in reflow.
* @param aReflowInput The flex container's reflow input.
* @param aPlaceholders An array of all the flex container's
* nsPlaceholderFrame children.
* @param aContentBoxOrigin The flex container's logical content-box
* origin (in its own coordinate space).
* @param aContainerSize The flex container's size (required by some
* reflow methods to interpret positions correctly).
*/
void ReflowPlaceholders(nsPresContext* aPresContext,
const ReflowInput& aReflowInput,
nsTArray<nsIFrame*>& aPlaceholders,
const mozilla::LogicalPoint& aContentBoxOrigin,
const nsSize& aContainerSize);
nscoord mBaselineFromLastReflow;
// Note: the last baseline is a distance from our border-box end edge.
nscoord mLastBaselineFromLastReflow;
};
#endif /* nsFlexContainerFrame_h___ */