diff --git a/ReactCommon/yoga/yoga/Yoga.cpp b/ReactCommon/yoga/yoga/Yoga.cpp index ee466d1e98f0e8..51be389f0b378a 100644 --- a/ReactCommon/yoga/yoga/Yoga.cpp +++ b/ReactCommon/yoga/yoga/Yoga.cpp @@ -1701,6 +1701,183 @@ static YGCollectFlexItemsRowValues YGCalculateCollectFlexItemsRowValues( return flexAlgoRowMeasurement; } +static void YGDistributeFreeSpaceSecondPass( + YGCollectFlexItemsRowValues& collectedFlexItemsValues, + const YGNodeRef node, + const YGFlexDirection mainAxis, + const YGFlexDirection crossAxis, + const float mainAxisParentSize, + const float availableInnerMainDim, + const float availableInnerCrossDim, + const float availableInnerWidth, + const float availableInnerHeight, + const bool flexBasisOverflows, + const YGMeasureMode measureModeCrossDim, + const bool performLayout, + const YGConfigRef config) { + float childFlexBasis = 0; + float flexShrinkScaledFactor = 0; + float flexGrowFactor = 0; + float deltaFreeSpace = 0; + const bool isMainAxisRow = YGFlexDirectionIsRow(mainAxis); + const bool isNodeFlexWrap = node->getStyle().flexWrap != YGWrapNoWrap; + + for (auto currentRelativeChild : collectedFlexItemsValues.relativeChildren) { + childFlexBasis = YGNodeBoundAxisWithinMinAndMax( + currentRelativeChild, + mainAxis, + currentRelativeChild->getLayout().computedFlexBasis, + mainAxisParentSize); + float updatedMainSize = childFlexBasis; + + if (collectedFlexItemsValues.remainingFreeSpace < 0) { + flexShrinkScaledFactor = + -currentRelativeChild->resolveFlexShrink() * childFlexBasis; + // Is this child able to shrink? + if (flexShrinkScaledFactor != 0) { + float childSize; + + if (collectedFlexItemsValues.totalFlexShrinkScaledFactors == 0) { + childSize = childFlexBasis + flexShrinkScaledFactor; + } else { + childSize = childFlexBasis + + (collectedFlexItemsValues.remainingFreeSpace / + collectedFlexItemsValues.totalFlexShrinkScaledFactors) * + flexShrinkScaledFactor; + } + + updatedMainSize = YGNodeBoundAxis( + currentRelativeChild, + mainAxis, + childSize, + availableInnerMainDim, + availableInnerWidth); + } + } else if (collectedFlexItemsValues.remainingFreeSpace > 0) { + flexGrowFactor = currentRelativeChild->resolveFlexGrow(); + + // Is this child able to grow? + if (flexGrowFactor != 0) { + updatedMainSize = YGNodeBoundAxis( + currentRelativeChild, + mainAxis, + childFlexBasis + + collectedFlexItemsValues.remainingFreeSpace / + collectedFlexItemsValues.totalFlexGrowFactors * + flexGrowFactor, + availableInnerMainDim, + availableInnerWidth); + } + } + + deltaFreeSpace -= updatedMainSize - childFlexBasis; + + const float marginMain = YGNodeMarginForAxis( + currentRelativeChild, mainAxis, availableInnerWidth); + const float marginCross = YGNodeMarginForAxis( + currentRelativeChild, crossAxis, availableInnerWidth); + + float childCrossSize; + float childMainSize = updatedMainSize + marginMain; + YGMeasureMode childCrossMeasureMode; + YGMeasureMode childMainMeasureMode = YGMeasureModeExactly; + + if (!YGFloatIsUndefined(currentRelativeChild->getStyle().aspectRatio)) { + childCrossSize = isMainAxisRow ? (childMainSize - marginMain) / + currentRelativeChild->getStyle().aspectRatio + : (childMainSize - marginMain) * + currentRelativeChild->getStyle().aspectRatio; + childCrossMeasureMode = YGMeasureModeExactly; + + childCrossSize += marginCross; + } else if ( + !YGFloatIsUndefined(availableInnerCrossDim) && + !YGNodeIsStyleDimDefined( + currentRelativeChild, crossAxis, availableInnerCrossDim) && + measureModeCrossDim == YGMeasureModeExactly && + !(isNodeFlexWrap && flexBasisOverflows) && + YGNodeAlignItem(node, currentRelativeChild) == YGAlignStretch && + currentRelativeChild->marginLeadingValue(crossAxis).unit != + YGUnitAuto && + currentRelativeChild->marginTrailingValue(crossAxis).unit != + YGUnitAuto) { + childCrossSize = availableInnerCrossDim; + childCrossMeasureMode = YGMeasureModeExactly; + } else if (!YGNodeIsStyleDimDefined( + currentRelativeChild, crossAxis, availableInnerCrossDim)) { + childCrossSize = availableInnerCrossDim; + childCrossMeasureMode = YGFloatIsUndefined(childCrossSize) + ? YGMeasureModeUndefined + : YGMeasureModeAtMost; + } else { + childCrossSize = + YGResolveValue( + currentRelativeChild->getResolvedDimension(dim[crossAxis]), + availableInnerCrossDim) + + marginCross; + const bool isLoosePercentageMeasurement = + currentRelativeChild->getResolvedDimension(dim[crossAxis]).unit == + YGUnitPercent && + measureModeCrossDim != YGMeasureModeExactly; + childCrossMeasureMode = + YGFloatIsUndefined(childCrossSize) || isLoosePercentageMeasurement + ? YGMeasureModeUndefined + : YGMeasureModeExactly; + } + + YGConstrainMaxSizeForMode( + currentRelativeChild, + mainAxis, + availableInnerMainDim, + availableInnerWidth, + &childMainMeasureMode, + &childMainSize); + YGConstrainMaxSizeForMode( + currentRelativeChild, + crossAxis, + availableInnerCrossDim, + availableInnerWidth, + &childCrossMeasureMode, + &childCrossSize); + + const bool requiresStretchLayout = + !YGNodeIsStyleDimDefined( + currentRelativeChild, crossAxis, availableInnerCrossDim) && + YGNodeAlignItem(node, currentRelativeChild) == YGAlignStretch && + currentRelativeChild->marginLeadingValue(crossAxis).unit != + YGUnitAuto && + currentRelativeChild->marginTrailingValue(crossAxis).unit != YGUnitAuto; + + const float childWidth = isMainAxisRow ? childMainSize : childCrossSize; + const float childHeight = !isMainAxisRow ? childMainSize : childCrossSize; + + const YGMeasureMode childWidthMeasureMode = + isMainAxisRow ? childMainMeasureMode : childCrossMeasureMode; + const YGMeasureMode childHeightMeasureMode = + !isMainAxisRow ? childMainMeasureMode : childCrossMeasureMode; + + // Recursively call the layout algorithm for this child with the updated + // main size. + YGLayoutNodeInternal( + currentRelativeChild, + childWidth, + childHeight, + node->getLayout().direction, + childWidthMeasureMode, + childHeightMeasureMode, + availableInnerWidth, + availableInnerHeight, + performLayout && !requiresStretchLayout, + "flex", + config); + node->setLayoutHadOverflow( + node->getLayout().hadOverflow | + currentRelativeChild->getLayout().hadOverflow); + } + + collectedFlexItemsValues.remainingFreeSpace += deltaFreeSpace; +} + // It distributes the free space to the flexible items, for those flexible items // whose min and max constraints are triggered, the clamped size is removed from // the remaingfreespace. @@ -2126,15 +2303,7 @@ static void YGNodelayoutImpl(const YGNodeRef node, -collectedFlexItemsValues.sizeConsumedOnCurrentLine; } - const float originalRemainingFreeSpace = - collectedFlexItemsValues.remainingFreeSpace; - float deltaFreeSpace = 0; - if (!canSkipFlex) { - float childFlexBasis; - float flexShrinkScaledFactor; - float flexGrowFactor; - // Do two passes over the flex items to figure out how to distribute the // remaining space. // The first pass finds the items whose min/max constraints trigger, @@ -2166,169 +2335,22 @@ static void YGNodelayoutImpl(const YGNodeRef node, availableInnerWidth); // Second pass: resolve the sizes of the flexible items - deltaFreeSpace = 0; - for (auto currentRelativeChild : - collectedFlexItemsValues.relativeChildren) { - childFlexBasis = YGNodeBoundAxisWithinMinAndMax( - currentRelativeChild, - mainAxis, - currentRelativeChild->getLayout().computedFlexBasis, - mainAxisParentSize); - float updatedMainSize = childFlexBasis; - - if (collectedFlexItemsValues.remainingFreeSpace < 0) { - flexShrinkScaledFactor = - -currentRelativeChild->resolveFlexShrink() * childFlexBasis; - // Is this child able to shrink? - if (flexShrinkScaledFactor != 0) { - float childSize; - - if (collectedFlexItemsValues.totalFlexShrinkScaledFactors == 0) { - childSize = childFlexBasis + flexShrinkScaledFactor; - } else { - childSize = childFlexBasis + - (collectedFlexItemsValues.remainingFreeSpace / - collectedFlexItemsValues.totalFlexShrinkScaledFactors) * - flexShrinkScaledFactor; - } - - updatedMainSize = YGNodeBoundAxis( - currentRelativeChild, - mainAxis, - childSize, - availableInnerMainDim, - availableInnerWidth); - } - } else if (collectedFlexItemsValues.remainingFreeSpace > 0) { - flexGrowFactor = currentRelativeChild->resolveFlexGrow(); - - // Is this child able to grow? - if (flexGrowFactor != 0) { - updatedMainSize = YGNodeBoundAxis( - currentRelativeChild, - mainAxis, - childFlexBasis + - collectedFlexItemsValues.remainingFreeSpace / - collectedFlexItemsValues.totalFlexGrowFactors * - flexGrowFactor, - availableInnerMainDim, - availableInnerWidth); - } - } - - deltaFreeSpace -= updatedMainSize - childFlexBasis; - - const float marginMain = YGNodeMarginForAxis( - currentRelativeChild, mainAxis, availableInnerWidth); - const float marginCross = YGNodeMarginForAxis( - currentRelativeChild, crossAxis, availableInnerWidth); - - float childCrossSize; - float childMainSize = updatedMainSize + marginMain; - YGMeasureMode childCrossMeasureMode; - YGMeasureMode childMainMeasureMode = YGMeasureModeExactly; - - if (!YGFloatIsUndefined(currentRelativeChild->getStyle().aspectRatio)) { - childCrossSize = isMainAxisRow ? (childMainSize - marginMain) / - currentRelativeChild->getStyle().aspectRatio - : (childMainSize - marginMain) * - currentRelativeChild->getStyle().aspectRatio; - childCrossMeasureMode = YGMeasureModeExactly; - - childCrossSize += marginCross; - } else if ( - !YGFloatIsUndefined(availableInnerCrossDim) && - !YGNodeIsStyleDimDefined( - currentRelativeChild, crossAxis, availableInnerCrossDim) && - measureModeCrossDim == YGMeasureModeExactly && - !(isNodeFlexWrap && flexBasisOverflows) && - YGNodeAlignItem(node, currentRelativeChild) == YGAlignStretch && - currentRelativeChild->marginLeadingValue(crossAxis).unit != - YGUnitAuto && - currentRelativeChild->marginTrailingValue(crossAxis).unit != - YGUnitAuto) { - childCrossSize = availableInnerCrossDim; - childCrossMeasureMode = YGMeasureModeExactly; - } else if (!YGNodeIsStyleDimDefined( - currentRelativeChild, - crossAxis, - availableInnerCrossDim)) { - childCrossSize = availableInnerCrossDim; - childCrossMeasureMode = YGFloatIsUndefined(childCrossSize) - ? YGMeasureModeUndefined - : YGMeasureModeAtMost; - } else { - childCrossSize = - YGResolveValue( - currentRelativeChild->getResolvedDimension(dim[crossAxis]), - availableInnerCrossDim) + - marginCross; - const bool isLoosePercentageMeasurement = - currentRelativeChild->getResolvedDimension(dim[crossAxis]).unit == - YGUnitPercent && - measureModeCrossDim != YGMeasureModeExactly; - childCrossMeasureMode = - YGFloatIsUndefined(childCrossSize) || isLoosePercentageMeasurement - ? YGMeasureModeUndefined - : YGMeasureModeExactly; - } - - YGConstrainMaxSizeForMode( - currentRelativeChild, - mainAxis, - availableInnerMainDim, - availableInnerWidth, - &childMainMeasureMode, - &childMainSize); - YGConstrainMaxSizeForMode( - currentRelativeChild, - crossAxis, - availableInnerCrossDim, - availableInnerWidth, - &childCrossMeasureMode, - &childCrossSize); - - const bool requiresStretchLayout = - !YGNodeIsStyleDimDefined( - currentRelativeChild, crossAxis, availableInnerCrossDim) && - YGNodeAlignItem(node, currentRelativeChild) == YGAlignStretch && - currentRelativeChild->marginLeadingValue(crossAxis).unit != - YGUnitAuto && - currentRelativeChild->marginTrailingValue(crossAxis).unit != - YGUnitAuto; - - const float childWidth = isMainAxisRow ? childMainSize : childCrossSize; - const float childHeight = - !isMainAxisRow ? childMainSize : childCrossSize; - - const YGMeasureMode childWidthMeasureMode = - isMainAxisRow ? childMainMeasureMode : childCrossMeasureMode; - const YGMeasureMode childHeightMeasureMode = - !isMainAxisRow ? childMainMeasureMode : childCrossMeasureMode; - - // Recursively call the layout algorithm for this child with the updated - // main size. - YGLayoutNodeInternal( - currentRelativeChild, - childWidth, - childHeight, - direction, - childWidthMeasureMode, - childHeightMeasureMode, - availableInnerWidth, - availableInnerHeight, - performLayout && !requiresStretchLayout, - "flex", - config); - node->setLayoutHadOverflow( - node->getLayout().hadOverflow | - currentRelativeChild->getLayout().hadOverflow); - currentRelativeChild = currentRelativeChild->getNextChild(); - } + YGDistributeFreeSpaceSecondPass( + collectedFlexItemsValues, + node, + mainAxis, + crossAxis, + mainAxisParentSize, + availableInnerMainDim, + availableInnerCrossDim, + availableInnerWidth, + availableInnerHeight, + flexBasisOverflows, + measureModeCrossDim, + performLayout, + config); } - collectedFlexItemsValues.remainingFreeSpace = - originalRemainingFreeSpace + deltaFreeSpace; node->setLayoutHadOverflow( node->getLayout().hadOverflow | (collectedFlexItemsValues.remainingFreeSpace < 0));