com.itextpdf.layout.renderer.FlexContainerRenderer Maven / Gradle / Ivy
/*
This file is part of the iText (R) project.
Copyright (c) 1998-2023 Apryse Group NV
Authors: Apryse Software.
This program is offered under a commercial and under the AGPL license.
For commercial licensing, contact us at https://itextpdf.com/sales. For AGPL licensing, see below.
AGPL licensing:
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see .
*/
package com.itextpdf.layout.renderer;
import com.itextpdf.kernel.geom.Rectangle;
import com.itextpdf.layout.borders.Border;
import com.itextpdf.layout.element.Div;
import com.itextpdf.layout.layout.LayoutArea;
import com.itextpdf.layout.layout.LayoutContext;
import com.itextpdf.layout.layout.LayoutResult;
import com.itextpdf.layout.margincollapse.MarginsCollapseHandler;
import com.itextpdf.layout.margincollapse.MarginsCollapseInfo;
import com.itextpdf.layout.minmaxwidth.MinMaxWidth;
import com.itextpdf.layout.minmaxwidth.MinMaxWidthUtils;
import com.itextpdf.layout.properties.*;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
public class FlexContainerRenderer extends DivRenderer {
/* Used for caching purposes in FlexUtil
* We couldn't find the real use case when this map contains more than 1 entry
* but let it still be a map to be on a safe(r) side
* Map mainSize (always width in our case) - hypotheticalCrossSize
*/
private final Map hypotheticalCrossSizes = new HashMap<>();
private List> lines;
private IFlexItemMainDirector flexItemMainDirector = null;
/**
* Creates a FlexContainerRenderer from its corresponding layout object.
* @param modelElement the {@link com.itextpdf.layout.element.Div} which this object should manage
*/
public FlexContainerRenderer(Div modelElement) {
super(modelElement);
}
/**
* Gets a new instance of this class to be used as a next renderer, after this renderer is used, if
* {@link #layout(LayoutContext)} is called more than once.
*
*
* If a renderer overflows to the next area, iText uses this method to create a renderer
* for the overflow part. So if one wants to extend {@link FlexContainerRenderer}, one should override
* this method: otherwise the default method will be used and thus the default rather than the custom
* renderer will be created.
* @return new renderer instance
*/
@Override
public IRenderer getNextRenderer() {
logWarningIfGetNextRendererNotOverridden(FlexContainerRenderer.class, this.getClass());
return new FlexContainerRenderer((Div) modelElement);
}
/**
* {@inheritDoc}
*/
@Override
public LayoutResult layout(LayoutContext layoutContext) {
Rectangle layoutContextRectangle = layoutContext.getArea().getBBox();
setThisAsParent(getChildRenderers());
lines = FlexUtil.calculateChildrenRectangles(layoutContextRectangle, this);
applyWrapReverse();
List renderers = getFlexItemMainDirector().applyDirection(lines);
removeAllChildRenderers(getChildRenderers());
addAllChildRenderers(renderers);
final List previousWidths = new ArrayList<>();
final List previousHeights = new ArrayList<>();
final List previousMinHeights = new ArrayList<>();
for (final List line : lines) {
for (final FlexItemInfo itemInfo : line) {
final Rectangle rectangleWithoutBordersMarginsPaddings;
if (AbstractRenderer.isBorderBoxSizing(itemInfo.getRenderer())) {
rectangleWithoutBordersMarginsPaddings =
itemInfo.getRenderer().applyMargins(itemInfo.getRectangle().clone(), false);
} else {
rectangleWithoutBordersMarginsPaddings =
itemInfo.getRenderer().applyMarginsBordersPaddings(itemInfo.getRectangle().clone(), false);
}
previousWidths.add(itemInfo.getRenderer().getProperty(Property.WIDTH));
previousHeights.add(itemInfo.getRenderer().getProperty(Property.HEIGHT));
previousMinHeights.add(itemInfo.getRenderer().getProperty(Property.MIN_HEIGHT));
itemInfo.getRenderer().setProperty(Property.WIDTH,
UnitValue.createPointValue(rectangleWithoutBordersMarginsPaddings.getWidth()));
itemInfo.getRenderer().setProperty(Property.HEIGHT,
UnitValue.createPointValue(rectangleWithoutBordersMarginsPaddings.getHeight()));
// TODO DEVSIX-1895 Once the ticket is closed, there will be no need in setting min-height
// In case element takes less vertical space than expected, we need to make sure
// it is extended to the height predicted by the algo
itemInfo.getRenderer().setProperty(Property.MIN_HEIGHT,
UnitValue.createPointValue(rectangleWithoutBordersMarginsPaddings.getHeight()));
// Property.HORIZONTAL_ALIGNMENT mustn't play, in flex container items are aligned
// using justify-content and align-items
itemInfo.getRenderer().setProperty(Property.HORIZONTAL_ALIGNMENT, null);
}
}
final LayoutResult result = super.layout(layoutContext);
// We must set back widths of the children because multiple layouts are possible
// If flex-grow is less than 1, layout algorithm increases the width of the element based on the initial width
// And if we would not set back widths, every layout flex-item width will grow.
int counter = 0;
for (final List line : lines) {
for (final FlexItemInfo itemInfo : line) {
itemInfo.getRenderer().setProperty(Property.WIDTH, previousWidths.get(counter));
itemInfo.getRenderer().setProperty(Property.HEIGHT, previousHeights.get(counter));
itemInfo.getRenderer().setProperty(Property.MIN_HEIGHT, previousMinHeights.get(counter));
++counter;
}
}
return result;
}
/**
* {@inheritDoc}
*/
@Override
public MinMaxWidth getMinMaxWidth() {
final MinMaxWidth minMaxWidth = new MinMaxWidth(calculateAdditionalWidth(this));
final AbstractWidthHandler minMaxWidthHandler = new MaxMaxWidthHandler(minMaxWidth);
if (!setMinMaxWidthBasedOnFixedWidth(minMaxWidth)) {
final Float minWidth = hasAbsoluteUnitValue(Property.MIN_WIDTH) ? retrieveMinWidth(0) : null;
final Float maxWidth = hasAbsoluteUnitValue(Property.MAX_WIDTH) ? retrieveMaxWidth(0) : null;
if (minWidth == null || maxWidth == null) {
findMinMaxWidthIfCorrespondingPropertiesAreNotSet(minMaxWidth, minMaxWidthHandler);
}
if (minWidth != null) {
minMaxWidth.setChildrenMinWidth((float) minWidth);
}
// if max-width was defined explicitly, it shouldn't be overwritten
if (maxWidth == null) {
if (minMaxWidth.getChildrenMinWidth() > minMaxWidth.getChildrenMaxWidth()) {
minMaxWidth.setChildrenMaxWidth(minMaxWidth.getChildrenMinWidth());
}
} else {
minMaxWidth.setChildrenMaxWidth((float) maxWidth);
}
}
if (this.getPropertyAsFloat(Property.ROTATION_ANGLE) != null) {
return RotationUtils.countRotationMinMaxWidth(minMaxWidth, this);
}
return minMaxWidth;
}
IFlexItemMainDirector getFlexItemMainDirector() {
if (flexItemMainDirector == null) {
flexItemMainDirector = createMainDirector();
}
return flexItemMainDirector;
}
/**
* Check if flex container is wrapped reversely.
*
* @return {@code true} if flex-wrap property is set to wrap-reverse, {@code false} otherwise.
*/
boolean isWrapReverse() {
return FlexWrapPropertyValue.WRAP_REVERSE ==
this.getProperty(Property.FLEX_WRAP, null);
}
/**
* {@inheritDoc}
*/
@Override
AbstractRenderer[] createSplitAndOverflowRenderers(int childPos, int layoutStatus, LayoutResult childResult,
Map waitingFloatsSplitRenderers,
List waitingOverflowFloatRenderers) {
final AbstractRenderer splitRenderer = createSplitRenderer(layoutStatus);
final AbstractRenderer overflowRenderer = createOverflowRenderer(layoutStatus);
final IRenderer childRenderer = getChildRenderers().get(childPos);
final boolean forcedPlacement = Boolean.TRUE.equals(this.getProperty(Property.FORCED_PLACEMENT));
boolean metChildRenderer = false;
for (final List line : lines) {
final boolean isSplitLine = line.stream().anyMatch(flexItem -> flexItem.getRenderer() == childRenderer);
metChildRenderer = metChildRenderer || isSplitLine;
// If the renderer to split is in the current line
if (isSplitLine && !forcedPlacement && layoutStatus == LayoutResult.PARTIAL &&
!FlexUtil.isColumnDirection(this)) {
// It has sense to call it also for LayoutResult.NOTHING. And then try to layout remaining renderers
// in line inside fillSplitOverflowRenderersForPartialResult to see if some of them can be left or
// partially left on the first page (in split renderer). But it's not that easy.
// So currently, if the 1st not fully layouted renderer is layouted with LayoutResult.NOTHING,
// the whole line is moved to the next page (overflow renderer).
fillSplitOverflowRenderersForPartialResult(splitRenderer, overflowRenderer, line, childRenderer,
childResult);
getFlexItemMainDirector().applyDirectionForLine(overflowRenderer.getChildRenderers());
} else {
List overflowRendererChildren = new ArrayList();
for (final FlexItemInfo itemInfo : line) {
if (metChildRenderer && !forcedPlacement) {
overflowRendererChildren.add(itemInfo.getRenderer());
} else {
splitRenderer.addChildRenderer(itemInfo.getRenderer());
}
}
getFlexItemMainDirector().applyDirectionForLine(overflowRendererChildren);
// If wrapped reversely we should add a line into beginning to correctly recalculate
// and inverse lines while layouting overflowRenderer.
if (isWrapReverse()) {
overflowRenderer.addAllChildRenderers(0, overflowRendererChildren);
} else {
overflowRenderer.addAllChildRenderers(overflowRendererChildren);
}
}
}
overflowRenderer.deleteOwnProperty(Property.FORCED_PLACEMENT);
return new AbstractRenderer[]{splitRenderer, overflowRenderer};
}
@Override
LayoutResult processNotFullChildResult(LayoutContext layoutContext,
Map waitingFloatsSplitRenderers,
List waitingOverflowFloatRenderers, boolean wasHeightClipped,
List floatRendererAreas, boolean marginsCollapsingEnabled,
float clearHeightCorrection, Border[] borders, UnitValue[] paddings,
List areas, int currentAreaPos, Rectangle layoutBox,
Set nonChildFloatingRendererAreas, IRenderer causeOfNothing,
boolean anythingPlaced, int childPos, LayoutResult result) {
final boolean keepTogether = isKeepTogether(causeOfNothing);
if (Boolean.TRUE.equals(getPropertyAsBoolean(Property.FORCED_PLACEMENT)) || wasHeightClipped) {
final AbstractRenderer splitRenderer = keepTogether ? null : createSplitRenderer(result.getStatus());
if (splitRenderer != null) {
splitRenderer.setChildRenderers(getChildRenderers());
}
return new LayoutResult(LayoutResult.FULL,
getOccupiedAreaInCaseNothingWasWrappedWithFull(result, splitRenderer), splitRenderer, null, null);
}
final AbstractRenderer[] splitAndOverflowRenderers = createSplitAndOverflowRenderers(
childPos, result.getStatus(), result, waitingFloatsSplitRenderers, waitingOverflowFloatRenderers);
AbstractRenderer splitRenderer = splitAndOverflowRenderers[0];
final AbstractRenderer overflowRenderer = splitAndOverflowRenderers[1];
overflowRenderer.deleteOwnProperty(Property.FORCED_PLACEMENT);
updateHeightsOnSplit(wasHeightClipped, splitRenderer, overflowRenderer);
if (isRelativePosition() && !positionedRenderers.isEmpty()) {
overflowRenderer.positionedRenderers = new ArrayList<>(positionedRenderers);
}
if (keepTogether) {
splitRenderer = null;
overflowRenderer.setChildRenderers(getChildRenderers());
}
correctFixedLayout(layoutBox);
applyAbsolutePositionIfNeeded(layoutContext);
applyPaddings(occupiedArea.getBBox(), paddings, true);
applyBorderBox(occupiedArea.getBBox(), borders, true);
applyMargins(occupiedArea.getBBox(), true);
if (splitRenderer == null || splitRenderer.getChildRenderers().isEmpty()) {
return new LayoutResult(LayoutResult.NOTHING, null, null, overflowRenderer,
result.getCauseOfNothing()).setAreaBreak(result.getAreaBreak());
} else {
return new LayoutResult(LayoutResult.PARTIAL, layoutContext.getArea(), splitRenderer,
overflowRenderer, null).setAreaBreak(result.getAreaBreak());
}
}
// TODO DEVSIX-5238 Consider this fix (perhaps it should be improved or unified) while working on the ticket
LayoutArea getOccupiedAreaInCaseNothingWasWrappedWithFull(LayoutResult result, IRenderer splitRenderer) {
return null != result.getOccupiedArea() ? result.getOccupiedArea() : splitRenderer.getOccupiedArea();
}
@Override
boolean stopLayoutingChildrenIfChildResultNotFull(LayoutResult returnResult) {
return returnResult.getStatus() != LayoutResult.FULL;
}
/**
* {@inheritDoc}
*/
@Override
void recalculateOccupiedAreaAfterChildLayout(Rectangle resultBBox, Float blockMaxHeight) {
final Rectangle oldBBox = occupiedArea.getBBox().clone();
final Rectangle recalculatedRectangle = Rectangle.getCommonRectangle(occupiedArea.getBBox(),
resultBBox);
occupiedArea.getBBox().setY(recalculatedRectangle.getY());
occupiedArea.getBBox().setHeight(recalculatedRectangle.getHeight());
if (oldBBox.getTop() < occupiedArea.getBBox().getTop()) {
occupiedArea.getBBox().decreaseHeight(occupiedArea.getBBox().getTop() - oldBBox.getTop());
}
if (null != blockMaxHeight &&
occupiedArea.getBBox().getHeight() > ((float) blockMaxHeight)) {
occupiedArea.getBBox()
.moveUp(occupiedArea.getBBox().getHeight() - ((float) blockMaxHeight));
occupiedArea.getBBox().setHeight((float) blockMaxHeight);
}
}
@Override
MarginsCollapseInfo startChildMarginsHandling(IRenderer childRenderer,
Rectangle layoutBox, MarginsCollapseHandler marginsCollapseHandler) {
return marginsCollapseHandler.startChildMarginsHandling(null, layoutBox);
}
@Override
void decreaseLayoutBoxAfterChildPlacement(Rectangle layoutBox, LayoutResult result, IRenderer childRenderer) {
if (FlexUtil.isColumnDirection(this)) {
decreaseLayoutBoxAfterChildPlacementColumnLayout(layoutBox, childRenderer);
} else {
decreaseLayoutBoxAfterChildPlacementRowLayout(layoutBox,result, childRenderer);
}
}
void decreaseLayoutBoxAfterChildPlacementRowLayout(Rectangle layoutBox, LayoutResult result,
IRenderer childRenderer) {
layoutBox.decreaseWidth(result.getOccupiedArea().getBBox().getRight() - layoutBox.getLeft());
layoutBox.setX(result.getOccupiedArea().getBBox().getRight());
List line = findLine(childRenderer);
final boolean isLastInLine = childRenderer.equals(line.get(line.size() - 1).getRenderer());
// If it was the last renderer in line we have to go to the next line (row)
if (isLastInLine) {
float minBottom = layoutBox.getTop();
float minLeft = layoutBox.getLeft();
float commonWidth = 0;
for (FlexItemInfo item : line) {
minLeft = Math.min(minLeft,
item.getRenderer().getOccupiedArea().getBBox().getLeft() - item.getRectangle().getLeft());
minBottom = Math.min(minBottom, item.getRenderer().getOccupiedArea().getBBox().getBottom());
commonWidth += item.getRectangle().getLeft() + item.getRenderer().getOccupiedArea().getBBox().getWidth();
}
layoutBox.setX(minLeft);
layoutBox.increaseWidth(commonWidth);
layoutBox.decreaseHeight(layoutBox.getTop() - minBottom);
}
}
void decreaseLayoutBoxAfterChildPlacementColumnLayout(Rectangle layoutBox, IRenderer childRenderer) {
FlexItemInfo childFlexItemInfo = findFlexItemInfo((AbstractRenderer) childRenderer);
layoutBox.decreaseHeight(childFlexItemInfo.getRenderer().getOccupiedArea().getBBox().getHeight() +
childFlexItemInfo.getRectangle().getY());
List line = findLine(childRenderer);
final boolean isLastInLine = childRenderer.equals(line.get(line.size() - 1).getRenderer());
// If it was the last renderer in line we have to go to the next line (row)
if (isLastInLine) {
float maxWidth = 0;
float commonHeight = 0;
for (FlexItemInfo item : line) {
maxWidth = Math.max(maxWidth, item.getRenderer().getOccupiedArea().getBBox().getWidth()
+ item.getRectangle().getX());
commonHeight += item.getRectangle().getY() + item.getRenderer().getOccupiedArea().getBBox().getHeight();
}
layoutBox.increaseHeight(commonHeight);
layoutBox.decreaseWidth(maxWidth);
layoutBox.moveRight(maxWidth);
}
}
@Override
Rectangle recalculateLayoutBoxBeforeChildLayout(Rectangle layoutBox,
IRenderer childRenderer, Rectangle initialLayoutBox) {
Rectangle layoutBoxCopy = layoutBox.clone();
if (childRenderer instanceof AbstractRenderer) {
FlexItemInfo childFlexItemInfo = findFlexItemInfo((AbstractRenderer) childRenderer);
if (childFlexItemInfo != null) {
layoutBoxCopy.decreaseWidth(childFlexItemInfo.getRectangle().getX());
layoutBoxCopy.moveRight(childFlexItemInfo.getRectangle().getX());
layoutBoxCopy.decreaseHeight(childFlexItemInfo.getRectangle().getY());
}
}
return layoutBoxCopy;
}
@Override
void handleForcedPlacement(boolean anythingPlaced) {
// In (horizontal) FlexContainerRenderer Property.FORCED_PLACEMENT is still valid for other children
// so do nothing
}
void setHypotheticalCrossSize(Float mainSize, Float hypotheticalCrossSize) {
hypotheticalCrossSizes.put(mainSize.floatValue(), hypotheticalCrossSize);
}
Float getHypotheticalCrossSize(Float mainSize) {
return hypotheticalCrossSizes.get(mainSize.floatValue());
}
/**
* Apply wrap-reverse property.
*/
private void applyWrapReverse() {
if (!isWrapReverse()) {
return;
}
Collections.reverse(lines);
List reorderedRendererList = new ArrayList<>();
for (List line : lines) {
for (FlexItemInfo itemInfo : line) {
reorderedRendererList.add(itemInfo.getRenderer());
}
}
removeAllChildRenderers(getChildRenderers());
addAllChildRenderers(reorderedRendererList);
}
private FlexItemInfo findFlexItemInfo(AbstractRenderer renderer) {
for (List line : lines) {
for (FlexItemInfo itemInfo : line) {
if (itemInfo.getRenderer().equals(renderer)) {
return itemInfo;
}
}
}
return null;
}
private List findLine(IRenderer renderer) {
for (List line : lines) {
for (FlexItemInfo itemInfo : line) {
if (itemInfo.getRenderer().equals(renderer)) {
return line;
}
}
}
return null;
}
@Override
void fixOccupiedAreaIfOverflowedX(OverflowPropertyValue overflowX, Rectangle layoutBox) {
// TODO DEVSIX-5087 Support overflow visible/hidden property correctly
return;
}
/**
* {@inheritDoc}
*/
@Override
public void addChild(IRenderer renderer) {
// TODO DEVSIX-5087 Since overflow-fit is an internal iText overflow value, we do not need to support if
// for html/css objects, such as flex. As for now we will set VISIBLE by default, however, while working
// on the ticket one may come to some more satifactory approach
renderer.setProperty(Property.OVERFLOW_X, OverflowPropertyValue.VISIBLE);
super.addChild(renderer);
}
private static void addSimulateDiv(AbstractRenderer overflowRenderer, float width) {
final IRenderer fakeOverflowRenderer = new DivRenderer(
new Div().setMinWidth(width).setMaxWidth(width));
overflowRenderer.addChildRenderer(fakeOverflowRenderer);
}
private void fillSplitOverflowRenderersForPartialResult(AbstractRenderer splitRenderer,
AbstractRenderer overflowRenderer, List line, IRenderer childRenderer,
LayoutResult childResult) {
float occupiedSpace = 0;
float maxHeightInLine = 0;
boolean metChildRendererInLine = false;
for (final FlexItemInfo itemInfo : line) {
// Split the line
if (itemInfo.getRenderer() == childRenderer) {
metChildRendererInLine = true;
if (childResult.getSplitRenderer() != null) {
splitRenderer.addChildRenderer(childResult.getSplitRenderer());
}
if (childResult.getOverflowRenderer() != null) {
// Get rid of cross alignment for item with partial result
childResult.getOverflowRenderer().setProperty(Property.ALIGN_SELF, AlignmentPropertyValue.START);
overflowRenderer.addChildRenderer(childResult.getOverflowRenderer());
}
// Count the height allowed for the items after the one which was partially layouted
maxHeightInLine = Math.max(maxHeightInLine,
itemInfo.getRectangle().getY() + itemInfo.getRenderer().getOccupiedAreaBBox().getHeight());
} else if (metChildRendererInLine) {
// Process all following renderers in the current line
// We have to layout them to understand what goes where
// x - space occupied by all preceding items
// y - y of current occupied area
// width - item width
// height - allowed height for the item
final Rectangle neighbourBbox = new Rectangle(getOccupiedAreaBBox().getX() + occupiedSpace,
getOccupiedAreaBBox().getY(),
itemInfo.getRectangle().getWidth(),
maxHeightInLine - itemInfo.getRectangle().getY());
final LayoutResult neighbourLayoutResult = itemInfo.getRenderer().layout(new LayoutContext(
new LayoutArea(childResult.getOccupiedArea().getPageNumber(), neighbourBbox)));
// Handle result
if (neighbourLayoutResult.getStatus() == LayoutResult.PARTIAL &&
neighbourLayoutResult.getSplitRenderer() != null) {
splitRenderer.addChildRenderer(neighbourLayoutResult.getSplitRenderer());
} else if (neighbourLayoutResult.getStatus() == LayoutResult.FULL) {
splitRenderer.addChildRenderer(itemInfo.getRenderer());
} else {
// LayoutResult.NOTHING
}
if (neighbourLayoutResult.getOverflowRenderer() != null) {
if (neighbourLayoutResult.getStatus() == LayoutResult.PARTIAL) {
// Get rid of cross alignment for item with partial result
neighbourLayoutResult.getOverflowRenderer()
.setProperty(Property.ALIGN_SELF, AlignmentPropertyValue.START);
}
overflowRenderer.addChildRenderer(neighbourLayoutResult.getOverflowRenderer());
} else {
// Here we might need to still occupy the space on overflow renderer
addSimulateDiv(overflowRenderer, itemInfo.getRectangle().getWidth());
}
} else {
// Process all preceeding renderers in the current line
// They all were layouted as FULL so add them into split renderer
splitRenderer.addChildRenderer(itemInfo.getRenderer());
// But we also need to occupy the space on overflow renderer
addSimulateDiv(overflowRenderer, itemInfo.getRectangle().getWidth());
// Count the height allowed for the items after the one which was partially layouted
maxHeightInLine = Math.max(maxHeightInLine,
itemInfo.getRectangle().getY() + itemInfo.getRenderer().getOccupiedAreaBBox().getHeight());
}
// X is nonzero only for the 1st renderer in line serving for alignment adjustments
occupiedSpace += itemInfo.getRectangle().getX() + itemInfo.getRectangle().getWidth();
}
}
private void findMinMaxWidthIfCorrespondingPropertiesAreNotSet(MinMaxWidth minMaxWidth,
AbstractWidthHandler minMaxWidthHandler) {
float initialMinWidth = minMaxWidth.getChildrenMinWidth();
float initialMaxWidth = minMaxWidth.getChildrenMaxWidth();
if (lines == null || lines.size() == 1) {
findMinMaxWidth(initialMinWidth, initialMaxWidth, minMaxWidthHandler, getChildRenderers());
} else {
for (List line : lines) {
List childRenderers = new ArrayList<>();
for (FlexItemInfo itemInfo : line) {
childRenderers.add(itemInfo.getRenderer());
}
findMinMaxWidth(initialMinWidth, initialMaxWidth, minMaxWidthHandler, childRenderers);
}
}
}
private void findMinMaxWidth(float initialMinWidth, float initialMaxWidth, AbstractWidthHandler minMaxWidthHandler,
List childRenderers) {
float maxWidth = initialMaxWidth;
float minWidth = initialMinWidth;
for (final IRenderer childRenderer : childRenderers) {
MinMaxWidth childMinMaxWidth;
childRenderer.setParent(this);
if (childRenderer instanceof AbstractRenderer) {
childMinMaxWidth = ((AbstractRenderer) childRenderer).getMinMaxWidth();
} else {
childMinMaxWidth = MinMaxWidthUtils.countDefaultMinMaxWidth(childRenderer);
}
if (FlexUtil.isColumnDirection(this)) {
maxWidth = Math.max(maxWidth, childMinMaxWidth.getMaxWidth());
minWidth = Math.max(minWidth, childMinMaxWidth.getMinWidth());
} else {
maxWidth += childMinMaxWidth.getMaxWidth();
minWidth += childMinMaxWidth.getMinWidth();
}
}
minMaxWidthHandler.updateMaxChildWidth(maxWidth);
minMaxWidthHandler.updateMinChildWidth(minWidth);
}
/**
* Check if flex container direction is row reverse.
*
* @return {@code true} if flex-direction property is set to row-reverse, {@code false} otherwise.
*/
private boolean isRowReverse() {
return FlexDirectionPropertyValue.ROW_REVERSE ==
this.getProperty(Property.FLEX_DIRECTION, null);
}
private boolean isColumnReverse() {
return FlexDirectionPropertyValue.COLUMN_REVERSE ==
this.getProperty(Property.FLEX_DIRECTION, null);
}
private IFlexItemMainDirector createMainDirector() {
if (FlexUtil.isColumnDirection(this)) {
return isColumnReverse()
? (IFlexItemMainDirector) new BottomToTopFlexItemMainDirector() :
new TopToBottomFlexItemMainDirector();
} else {
final boolean isRtlDirection = BaseDirection.RIGHT_TO_LEFT ==
this.getProperty(Property.BASE_DIRECTION, null);
flexItemMainDirector = isRowReverse() ^ isRtlDirection
? (IFlexItemMainDirector) new RtlFlexItemMainDirector() : new LtrFlexItemMainDirector();
return flexItemMainDirector;
}
}
}