Align resolve function names to have similiar namings
Summary: We have some resolve functions with ```YG**Resolve``` and others named ```YGResolve**```. This changes both to be named like the later one, as I think this is the grammatically better readable one. Closes https://github.com/facebook/yoga/pull/471 Differential Revision: D4688997 Pulled By: emilsjolander fbshipit-source-id: 38b5f84d4d39ed3effedf08188085b9efd96b4ce
This commit is contained in:
Lukas Wöhrl
committed by
Facebook Github Bot
Facebook Github Bot
parent
3d6fb2f2e5
commit
061981fb23
102
yoga/Yoga.c
102
yoga/Yoga.c
@@ -290,7 +290,7 @@ static inline const YGValue *YGComputedEdgeValue(const YGValue edges[YGEdgeCount
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return defaultValue;
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return defaultValue;
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}
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}
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static inline float YGValueResolve(const YGValue *const value, const float parentSize) {
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static inline float YGResolveValue(const YGValue *const value, const float parentSize) {
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switch (value->unit) {
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switch (value->unit) {
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case YGUnitUndefined:
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case YGUnitUndefined:
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case YGUnitAuto:
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case YGUnitAuto:
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@@ -303,8 +303,8 @@ static inline float YGValueResolve(const YGValue *const value, const float paren
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return YGUndefined;
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return YGUndefined;
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}
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}
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static inline float YGValueResolveMargin(const YGValue *const value, const float parentSize) {
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static inline float YGResolveValueMargin(const YGValue *const value, const float parentSize) {
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return value->unit == YGUnitAuto ? 0 : YGValueResolve(value, parentSize);
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return value->unit == YGUnitAuto ? 0 : YGResolveValue(value, parentSize);
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}
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}
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int32_t gNodeInstanceCount = 0;
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int32_t gNodeInstanceCount = 0;
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@@ -1001,10 +1001,10 @@ static inline float YGNodeLeadingMargin(const YGNodeRef node,
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const YGFlexDirection axis,
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const YGFlexDirection axis,
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const float widthSize) {
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const float widthSize) {
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if (YGFlexDirectionIsRow(axis) && node->style.margin[YGEdgeStart].unit != YGUnitUndefined) {
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if (YGFlexDirectionIsRow(axis) && node->style.margin[YGEdgeStart].unit != YGUnitUndefined) {
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return YGValueResolveMargin(&node->style.margin[YGEdgeStart], widthSize);
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return YGResolveValueMargin(&node->style.margin[YGEdgeStart], widthSize);
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}
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}
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return YGValueResolveMargin(YGComputedEdgeValue(node->style.margin, leading[axis], &YGValueZero),
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return YGResolveValueMargin(YGComputedEdgeValue(node->style.margin, leading[axis], &YGValueZero),
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widthSize);
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widthSize);
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}
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}
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@@ -1012,10 +1012,10 @@ static float YGNodeTrailingMargin(const YGNodeRef node,
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const YGFlexDirection axis,
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const YGFlexDirection axis,
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const float widthSize) {
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const float widthSize) {
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if (YGFlexDirectionIsRow(axis) && node->style.margin[YGEdgeEnd].unit != YGUnitUndefined) {
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if (YGFlexDirectionIsRow(axis) && node->style.margin[YGEdgeEnd].unit != YGUnitUndefined) {
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return YGValueResolveMargin(&node->style.margin[YGEdgeEnd], widthSize);
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return YGResolveValueMargin(&node->style.margin[YGEdgeEnd], widthSize);
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}
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}
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return YGValueResolveMargin(YGComputedEdgeValue(node->style.margin, trailing[axis], &YGValueZero),
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return YGResolveValueMargin(YGComputedEdgeValue(node->style.margin, trailing[axis], &YGValueZero),
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widthSize);
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widthSize);
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}
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}
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@@ -1023,11 +1023,11 @@ static float YGNodeLeadingPadding(const YGNodeRef node,
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const YGFlexDirection axis,
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const YGFlexDirection axis,
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const float widthSize) {
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const float widthSize) {
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if (YGFlexDirectionIsRow(axis) && node->style.padding[YGEdgeStart].unit != YGUnitUndefined &&
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if (YGFlexDirectionIsRow(axis) && node->style.padding[YGEdgeStart].unit != YGUnitUndefined &&
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YGValueResolve(&node->style.padding[YGEdgeStart], widthSize) >= 0.0f) {
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YGResolveValue(&node->style.padding[YGEdgeStart], widthSize) >= 0.0f) {
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return YGValueResolve(&node->style.padding[YGEdgeStart], widthSize);
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return YGResolveValue(&node->style.padding[YGEdgeStart], widthSize);
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}
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}
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return fmaxf(YGValueResolve(YGComputedEdgeValue(node->style.padding, leading[axis], &YGValueZero),
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return fmaxf(YGResolveValue(YGComputedEdgeValue(node->style.padding, leading[axis], &YGValueZero),
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widthSize),
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widthSize),
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0.0f);
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0.0f);
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}
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}
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@@ -1036,11 +1036,11 @@ static float YGNodeTrailingPadding(const YGNodeRef node,
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const YGFlexDirection axis,
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const YGFlexDirection axis,
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const float widthSize) {
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const float widthSize) {
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if (YGFlexDirectionIsRow(axis) && node->style.padding[YGEdgeEnd].unit != YGUnitUndefined &&
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if (YGFlexDirectionIsRow(axis) && node->style.padding[YGEdgeEnd].unit != YGUnitUndefined &&
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YGValueResolve(&node->style.padding[YGEdgeEnd], widthSize) >= 0.0f) {
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YGResolveValue(&node->style.padding[YGEdgeEnd], widthSize) >= 0.0f) {
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return YGValueResolve(&node->style.padding[YGEdgeEnd], widthSize);
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return YGResolveValue(&node->style.padding[YGEdgeEnd], widthSize);
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}
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}
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return fmaxf(YGValueResolve(YGComputedEdgeValue(node->style.padding, trailing[axis], &YGValueZero),
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return fmaxf(YGResolveValue(YGComputedEdgeValue(node->style.padding, trailing[axis], &YGValueZero),
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widthSize),
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widthSize),
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0.0f);
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0.0f);
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}
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}
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@@ -1143,7 +1143,7 @@ static float YGBaseline(const YGNodeRef node) {
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return baseline + baselineChild->layout.position[YGEdgeTop];
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return baseline + baselineChild->layout.position[YGEdgeTop];
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}
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}
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static inline YGFlexDirection YGFlexDirectionResolve(const YGFlexDirection flexDirection,
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static inline YGFlexDirection YGResolveFlexDirection(const YGFlexDirection flexDirection,
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const YGDirection direction) {
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const YGDirection direction) {
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if (direction == YGDirectionRTL) {
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if (direction == YGDirectionRTL) {
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if (flexDirection == YGFlexDirectionRow) {
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if (flexDirection == YGFlexDirectionRow) {
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@@ -1159,7 +1159,7 @@ static inline YGFlexDirection YGFlexDirectionResolve(const YGFlexDirection flexD
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static YGFlexDirection YGFlexDirectionCross(const YGFlexDirection flexDirection,
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static YGFlexDirection YGFlexDirectionCross(const YGFlexDirection flexDirection,
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const YGDirection direction) {
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const YGDirection direction) {
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return YGFlexDirectionIsColumn(flexDirection)
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return YGFlexDirectionIsColumn(flexDirection)
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? YGFlexDirectionResolve(YGFlexDirectionRow, direction)
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? YGResolveFlexDirection(YGFlexDirectionRow, direction)
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: YGFlexDirectionColumn;
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: YGFlexDirectionColumn;
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}
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}
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@@ -1233,7 +1233,7 @@ static float YGNodeLeadingPosition(const YGNodeRef node,
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const YGValue *leadingPosition =
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const YGValue *leadingPosition =
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YGComputedEdgeValue(node->style.position, YGEdgeStart, &YGValueUndefined);
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YGComputedEdgeValue(node->style.position, YGEdgeStart, &YGValueUndefined);
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if (leadingPosition->unit != YGUnitUndefined) {
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if (leadingPosition->unit != YGUnitUndefined) {
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return YGValueResolve(leadingPosition, axisSize);
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return YGResolveValue(leadingPosition, axisSize);
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}
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}
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}
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}
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@@ -1241,7 +1241,7 @@ static float YGNodeLeadingPosition(const YGNodeRef node,
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YGComputedEdgeValue(node->style.position, leading[axis], &YGValueUndefined);
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YGComputedEdgeValue(node->style.position, leading[axis], &YGValueUndefined);
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return leadingPosition->unit == YGUnitUndefined ? 0.0f
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return leadingPosition->unit == YGUnitUndefined ? 0.0f
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: YGValueResolve(leadingPosition, axisSize);
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: YGResolveValue(leadingPosition, axisSize);
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}
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}
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static float YGNodeTrailingPosition(const YGNodeRef node,
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static float YGNodeTrailingPosition(const YGNodeRef node,
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@@ -1251,7 +1251,7 @@ static float YGNodeTrailingPosition(const YGNodeRef node,
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const YGValue *trailingPosition =
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const YGValue *trailingPosition =
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YGComputedEdgeValue(node->style.position, YGEdgeEnd, &YGValueUndefined);
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YGComputedEdgeValue(node->style.position, YGEdgeEnd, &YGValueUndefined);
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if (trailingPosition->unit != YGUnitUndefined) {
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if (trailingPosition->unit != YGUnitUndefined) {
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return YGValueResolve(trailingPosition, axisSize);
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return YGResolveValue(trailingPosition, axisSize);
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}
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}
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}
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}
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@@ -1259,7 +1259,7 @@ static float YGNodeTrailingPosition(const YGNodeRef node,
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YGComputedEdgeValue(node->style.position, trailing[axis], &YGValueUndefined);
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YGComputedEdgeValue(node->style.position, trailing[axis], &YGValueUndefined);
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return trailingPosition->unit == YGUnitUndefined ? 0.0f
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return trailingPosition->unit == YGUnitUndefined ? 0.0f
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: YGValueResolve(trailingPosition, axisSize);
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: YGResolveValue(trailingPosition, axisSize);
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}
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}
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static float YGNodeBoundAxisWithinMinAndMax(const YGNodeRef node,
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static float YGNodeBoundAxisWithinMinAndMax(const YGNodeRef node,
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@@ -1270,11 +1270,11 @@ static float YGNodeBoundAxisWithinMinAndMax(const YGNodeRef node,
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float max = YGUndefined;
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float max = YGUndefined;
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if (YGFlexDirectionIsColumn(axis)) {
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if (YGFlexDirectionIsColumn(axis)) {
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min = YGValueResolve(&node->style.minDimensions[YGDimensionHeight], axisSize);
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min = YGResolveValue(&node->style.minDimensions[YGDimensionHeight], axisSize);
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max = YGValueResolve(&node->style.maxDimensions[YGDimensionHeight], axisSize);
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max = YGResolveValue(&node->style.maxDimensions[YGDimensionHeight], axisSize);
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} else if (YGFlexDirectionIsRow(axis)) {
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} else if (YGFlexDirectionIsRow(axis)) {
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min = YGValueResolve(&node->style.minDimensions[YGDimensionWidth], axisSize);
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min = YGResolveValue(&node->style.minDimensions[YGDimensionWidth], axisSize);
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max = YGValueResolve(&node->style.maxDimensions[YGDimensionWidth], axisSize);
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max = YGResolveValue(&node->style.maxDimensions[YGDimensionWidth], axisSize);
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}
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}
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float boundValue = value;
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float boundValue = value;
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@@ -1341,7 +1341,7 @@ static void YGConstrainMaxSizeForMode(const YGNodeRef node,
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const float parentWidth,
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const float parentWidth,
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YGMeasureMode *mode,
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YGMeasureMode *mode,
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float *size) {
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float *size) {
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const float maxSize = YGValueResolve(&node->style.maxDimensions[dim[axis]], parentAxisSize) +
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const float maxSize = YGResolveValue(&node->style.maxDimensions[dim[axis]], parentAxisSize) +
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YGNodeMarginForAxis(node, axis, parentWidth);
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YGNodeMarginForAxis(node, axis, parentWidth);
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switch (*mode) {
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switch (*mode) {
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case YGMeasureModeExactly:
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case YGMeasureModeExactly:
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@@ -1362,7 +1362,7 @@ static void YGNodeSetPosition(const YGNodeRef node,
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const float mainSize,
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const float mainSize,
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const float crossSize,
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const float crossSize,
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const float parentWidth) {
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const float parentWidth) {
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const YGFlexDirection mainAxis = YGFlexDirectionResolve(node->style.flexDirection, direction);
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const YGFlexDirection mainAxis = YGResolveFlexDirection(node->style.flexDirection, direction);
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const YGFlexDirection crossAxis = YGFlexDirectionCross(mainAxis, direction);
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const YGFlexDirection crossAxis = YGFlexDirectionCross(mainAxis, direction);
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const float relativePositionMain = YGNodeRelativePosition(node, mainAxis, mainSize);
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const float relativePositionMain = YGNodeRelativePosition(node, mainAxis, mainSize);
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const float relativePositionCross = YGNodeRelativePosition(node, crossAxis, crossSize);
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const float relativePositionCross = YGNodeRelativePosition(node, crossAxis, crossSize);
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@@ -1387,7 +1387,7 @@ static void YGNodeComputeFlexBasisForChild(const YGNodeRef node,
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const YGMeasureMode heightMode,
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const YGMeasureMode heightMode,
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const YGDirection direction,
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const YGDirection direction,
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const YGConfigRef config) {
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const YGConfigRef config) {
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const YGFlexDirection mainAxis = YGFlexDirectionResolve(node->style.flexDirection, direction);
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const YGFlexDirection mainAxis = YGResolveFlexDirection(node->style.flexDirection, direction);
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const bool isMainAxisRow = YGFlexDirectionIsRow(mainAxis);
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const bool isMainAxisRow = YGFlexDirectionIsRow(mainAxis);
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const float mainAxisSize = isMainAxisRow ? width : height;
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const float mainAxisSize = isMainAxisRow ? width : height;
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const float mainAxisParentSize = isMainAxisRow ? parentWidth : parentHeight;
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const float mainAxisParentSize = isMainAxisRow ? parentWidth : parentHeight;
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@@ -1398,7 +1398,7 @@ static void YGNodeComputeFlexBasisForChild(const YGNodeRef node,
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YGMeasureMode childHeightMeasureMode;
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YGMeasureMode childHeightMeasureMode;
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const float resolvedFlexBasis =
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const float resolvedFlexBasis =
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YGValueResolve(YGNodeResolveFlexBasisPtr(child), mainAxisParentSize);
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YGResolveValue(YGNodeResolveFlexBasisPtr(child), mainAxisParentSize);
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const bool isRowStyleDimDefined = YGNodeIsStyleDimDefined(child, YGFlexDirectionRow, parentWidth);
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const bool isRowStyleDimDefined = YGNodeIsStyleDimDefined(child, YGFlexDirectionRow, parentWidth);
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const bool isColumnStyleDimDefined =
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const bool isColumnStyleDimDefined =
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YGNodeIsStyleDimDefined(child, YGFlexDirectionColumn, parentHeight);
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YGNodeIsStyleDimDefined(child, YGFlexDirectionColumn, parentHeight);
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@@ -1413,12 +1413,12 @@ static void YGNodeComputeFlexBasisForChild(const YGNodeRef node,
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} else if (isMainAxisRow && isRowStyleDimDefined) {
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} else if (isMainAxisRow && isRowStyleDimDefined) {
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// The width is definite, so use that as the flex basis.
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// The width is definite, so use that as the flex basis.
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child->layout.computedFlexBasis =
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child->layout.computedFlexBasis =
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fmaxf(YGValueResolve(child->resolvedDimensions[YGDimensionWidth], parentWidth),
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fmaxf(YGResolveValue(child->resolvedDimensions[YGDimensionWidth], parentWidth),
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YGNodePaddingAndBorderForAxis(child, YGFlexDirectionRow, parentWidth));
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YGNodePaddingAndBorderForAxis(child, YGFlexDirectionRow, parentWidth));
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} else if (!isMainAxisRow && isColumnStyleDimDefined) {
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} else if (!isMainAxisRow && isColumnStyleDimDefined) {
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// The height is definite, so use that as the flex basis.
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// The height is definite, so use that as the flex basis.
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child->layout.computedFlexBasis =
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child->layout.computedFlexBasis =
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fmaxf(YGValueResolve(child->resolvedDimensions[YGDimensionHeight], parentHeight),
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fmaxf(YGResolveValue(child->resolvedDimensions[YGDimensionHeight], parentHeight),
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YGNodePaddingAndBorderForAxis(child, YGFlexDirectionColumn, parentWidth));
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YGNodePaddingAndBorderForAxis(child, YGFlexDirectionColumn, parentWidth));
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} else {
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} else {
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// Compute the flex basis and hypothetical main size (i.e. the clamped
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// Compute the flex basis and hypothetical main size (i.e. the clamped
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@@ -1433,12 +1433,12 @@ static void YGNodeComputeFlexBasisForChild(const YGNodeRef node,
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if (isRowStyleDimDefined) {
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if (isRowStyleDimDefined) {
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childWidth =
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childWidth =
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YGValueResolve(child->resolvedDimensions[YGDimensionWidth], parentWidth) + marginRow;
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YGResolveValue(child->resolvedDimensions[YGDimensionWidth], parentWidth) + marginRow;
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childWidthMeasureMode = YGMeasureModeExactly;
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childWidthMeasureMode = YGMeasureModeExactly;
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}
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}
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if (isColumnStyleDimDefined) {
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if (isColumnStyleDimDefined) {
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childHeight =
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childHeight =
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YGValueResolve(child->resolvedDimensions[YGDimensionHeight], parentHeight) + marginColumn;
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YGResolveValue(child->resolvedDimensions[YGDimensionHeight], parentHeight) + marginColumn;
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childHeightMeasureMode = YGMeasureModeExactly;
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childHeightMeasureMode = YGMeasureModeExactly;
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}
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}
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@@ -1521,7 +1521,7 @@ static void YGNodeAbsoluteLayoutChild(const YGNodeRef node,
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const float height,
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const float height,
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const YGDirection direction,
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const YGDirection direction,
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const YGConfigRef config) {
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const YGConfigRef config) {
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const YGFlexDirection mainAxis = YGFlexDirectionResolve(node->style.flexDirection, direction);
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const YGFlexDirection mainAxis = YGResolveFlexDirection(node->style.flexDirection, direction);
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const YGFlexDirection crossAxis = YGFlexDirectionCross(mainAxis, direction);
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const YGFlexDirection crossAxis = YGFlexDirectionCross(mainAxis, direction);
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const bool isMainAxisRow = YGFlexDirectionIsRow(mainAxis);
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const bool isMainAxisRow = YGFlexDirectionIsRow(mainAxis);
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@@ -1534,7 +1534,7 @@ static void YGNodeAbsoluteLayoutChild(const YGNodeRef node,
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const float marginColumn = YGNodeMarginForAxis(child, YGFlexDirectionColumn, width);
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const float marginColumn = YGNodeMarginForAxis(child, YGFlexDirectionColumn, width);
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if (YGNodeIsStyleDimDefined(child, YGFlexDirectionRow, width)) {
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if (YGNodeIsStyleDimDefined(child, YGFlexDirectionRow, width)) {
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childWidth = YGValueResolve(child->resolvedDimensions[YGDimensionWidth], width) + marginRow;
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childWidth = YGResolveValue(child->resolvedDimensions[YGDimensionWidth], width) + marginRow;
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} else {
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} else {
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// If the child doesn't have a specified width, compute the width based
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// If the child doesn't have a specified width, compute the width based
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// on the left/right
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// on the left/right
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@@ -1552,7 +1552,7 @@ static void YGNodeAbsoluteLayoutChild(const YGNodeRef node,
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if (YGNodeIsStyleDimDefined(child, YGFlexDirectionColumn, height)) {
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if (YGNodeIsStyleDimDefined(child, YGFlexDirectionColumn, height)) {
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childHeight =
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childHeight =
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YGValueResolve(child->resolvedDimensions[YGDimensionHeight], height) + marginColumn;
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YGResolveValue(child->resolvedDimensions[YGDimensionHeight], height) + marginColumn;
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} else {
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} else {
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// If the child doesn't have a specified height, compute the height
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// If the child doesn't have a specified height, compute the height
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// based on the top/bottom
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// based on the top/bottom
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@@ -1925,9 +1925,9 @@ static void YGNodelayoutImpl(const YGNodeRef node,
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const YGDirection direction = YGNodeResolveDirection(node, parentDirection);
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const YGDirection direction = YGNodeResolveDirection(node, parentDirection);
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node->layout.direction = direction;
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node->layout.direction = direction;
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const YGFlexDirection flexRowDirection = YGFlexDirectionResolve(YGFlexDirectionRow, direction);
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const YGFlexDirection flexRowDirection = YGResolveFlexDirection(YGFlexDirectionRow, direction);
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const YGFlexDirection flexColumnDirection =
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const YGFlexDirection flexColumnDirection =
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YGFlexDirectionResolve(YGFlexDirectionColumn, direction);
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YGResolveFlexDirection(YGFlexDirectionColumn, direction);
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node->layout.margin[YGEdgeStart] = YGNodeLeadingMargin(node, flexRowDirection, parentWidth);
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node->layout.margin[YGEdgeStart] = YGNodeLeadingMargin(node, flexRowDirection, parentWidth);
|
||||||
node->layout.margin[YGEdgeEnd] = YGNodeTrailingMargin(node, flexRowDirection, parentWidth);
|
node->layout.margin[YGEdgeEnd] = YGNodeTrailingMargin(node, flexRowDirection, parentWidth);
|
||||||
@@ -1981,7 +1981,7 @@ static void YGNodelayoutImpl(const YGNodeRef node,
|
|||||||
}
|
}
|
||||||
|
|
||||||
// STEP 1: CALCULATE VALUES FOR REMAINDER OF ALGORITHM
|
// STEP 1: CALCULATE VALUES FOR REMAINDER OF ALGORITHM
|
||||||
const YGFlexDirection mainAxis = YGFlexDirectionResolve(node->style.flexDirection, direction);
|
const YGFlexDirection mainAxis = YGResolveFlexDirection(node->style.flexDirection, direction);
|
||||||
const YGFlexDirection crossAxis = YGFlexDirectionCross(mainAxis, direction);
|
const YGFlexDirection crossAxis = YGFlexDirectionCross(mainAxis, direction);
|
||||||
const bool isMainAxisRow = YGFlexDirectionIsRow(mainAxis);
|
const bool isMainAxisRow = YGFlexDirectionIsRow(mainAxis);
|
||||||
const YGJustify justifyContent = node->style.justifyContent;
|
const YGJustify justifyContent = node->style.justifyContent;
|
||||||
@@ -2016,16 +2016,16 @@ static void YGNodelayoutImpl(const YGNodeRef node,
|
|||||||
|
|
||||||
// STEP 2: DETERMINE AVAILABLE SIZE IN MAIN AND CROSS DIRECTIONS
|
// STEP 2: DETERMINE AVAILABLE SIZE IN MAIN AND CROSS DIRECTIONS
|
||||||
const float minInnerWidth =
|
const float minInnerWidth =
|
||||||
YGValueResolve(&node->style.minDimensions[YGDimensionWidth], parentWidth) - marginAxisRow -
|
YGResolveValue(&node->style.minDimensions[YGDimensionWidth], parentWidth) - marginAxisRow -
|
||||||
paddingAndBorderAxisRow;
|
paddingAndBorderAxisRow;
|
||||||
const float maxInnerWidth =
|
const float maxInnerWidth =
|
||||||
YGValueResolve(&node->style.maxDimensions[YGDimensionWidth], parentWidth) - marginAxisRow -
|
YGResolveValue(&node->style.maxDimensions[YGDimensionWidth], parentWidth) - marginAxisRow -
|
||||||
paddingAndBorderAxisRow;
|
paddingAndBorderAxisRow;
|
||||||
const float minInnerHeight =
|
const float minInnerHeight =
|
||||||
YGValueResolve(&node->style.minDimensions[YGDimensionHeight], parentHeight) -
|
YGResolveValue(&node->style.minDimensions[YGDimensionHeight], parentHeight) -
|
||||||
marginAxisColumn - paddingAndBorderAxisColumn;
|
marginAxisColumn - paddingAndBorderAxisColumn;
|
||||||
const float maxInnerHeight =
|
const float maxInnerHeight =
|
||||||
YGValueResolve(&node->style.maxDimensions[YGDimensionHeight], parentHeight) -
|
YGResolveValue(&node->style.maxDimensions[YGDimensionHeight], parentHeight) -
|
||||||
marginAxisColumn - paddingAndBorderAxisColumn;
|
marginAxisColumn - paddingAndBorderAxisColumn;
|
||||||
const float minInnerMainDim = isMainAxisRow ? minInnerWidth : minInnerHeight;
|
const float minInnerMainDim = isMainAxisRow ? minInnerWidth : minInnerHeight;
|
||||||
const float maxInnerMainDim = isMainAxisRow ? maxInnerWidth : maxInnerHeight;
|
const float maxInnerMainDim = isMainAxisRow ? maxInnerWidth : maxInnerHeight;
|
||||||
@@ -2173,7 +2173,7 @@ static void YGNodelayoutImpl(const YGNodeRef node,
|
|||||||
|
|
||||||
if (child->style.positionType != YGPositionTypeAbsolute) {
|
if (child->style.positionType != YGPositionTypeAbsolute) {
|
||||||
const float outerFlexBasis =
|
const float outerFlexBasis =
|
||||||
fmaxf(YGValueResolve(&child->style.minDimensions[dim[mainAxis]], mainAxisParentSize),
|
fmaxf(YGResolveValue(&child->style.minDimensions[dim[mainAxis]], mainAxisParentSize),
|
||||||
child->layout.computedFlexBasis) +
|
child->layout.computedFlexBasis) +
|
||||||
YGNodeMarginForAxis(child, mainAxis, availableInnerWidth);
|
YGNodeMarginForAxis(child, mainAxis, availableInnerWidth);
|
||||||
|
|
||||||
@@ -2416,7 +2416,7 @@ static void YGNodelayoutImpl(const YGNodeRef node,
|
|||||||
childCrossMeasureMode =
|
childCrossMeasureMode =
|
||||||
YGFloatIsUndefined(childCrossSize) ? YGMeasureModeUndefined : YGMeasureModeAtMost;
|
YGFloatIsUndefined(childCrossSize) ? YGMeasureModeUndefined : YGMeasureModeAtMost;
|
||||||
} else {
|
} else {
|
||||||
childCrossSize = YGValueResolve(currentRelativeChild->resolvedDimensions[dim[crossAxis]],
|
childCrossSize = YGResolveValue(currentRelativeChild->resolvedDimensions[dim[crossAxis]],
|
||||||
availableInnerCrossDim) +
|
availableInnerCrossDim) +
|
||||||
marginCross;
|
marginCross;
|
||||||
const bool isLoosePercentageMeasurement =
|
const bool isLoosePercentageMeasurement =
|
||||||
@@ -2506,10 +2506,10 @@ static void YGNodelayoutImpl(const YGNodeRef node,
|
|||||||
|
|
||||||
if (measureModeMainDim == YGMeasureModeAtMost && remainingFreeSpace > 0) {
|
if (measureModeMainDim == YGMeasureModeAtMost && remainingFreeSpace > 0) {
|
||||||
if (node->style.minDimensions[dim[mainAxis]].unit != YGUnitUndefined &&
|
if (node->style.minDimensions[dim[mainAxis]].unit != YGUnitUndefined &&
|
||||||
YGValueResolve(&node->style.minDimensions[dim[mainAxis]], mainAxisParentSize) >= 0) {
|
YGResolveValue(&node->style.minDimensions[dim[mainAxis]], mainAxisParentSize) >= 0) {
|
||||||
remainingFreeSpace =
|
remainingFreeSpace =
|
||||||
fmaxf(0,
|
fmaxf(0,
|
||||||
YGValueResolve(&node->style.minDimensions[dim[mainAxis]], mainAxisParentSize) -
|
YGResolveValue(&node->style.minDimensions[dim[mainAxis]], mainAxisParentSize) -
|
||||||
(availableInnerMainDim - remainingFreeSpace));
|
(availableInnerMainDim - remainingFreeSpace));
|
||||||
} else {
|
} else {
|
||||||
remainingFreeSpace = 0;
|
remainingFreeSpace = 0;
|
||||||
@@ -3386,11 +3386,11 @@ void YGNodeCalculateLayout(const YGNodeRef node,
|
|||||||
float width = YGUndefined;
|
float width = YGUndefined;
|
||||||
YGMeasureMode widthMeasureMode = YGMeasureModeUndefined;
|
YGMeasureMode widthMeasureMode = YGMeasureModeUndefined;
|
||||||
if (YGNodeIsStyleDimDefined(node, YGFlexDirectionRow, parentWidth)) {
|
if (YGNodeIsStyleDimDefined(node, YGFlexDirectionRow, parentWidth)) {
|
||||||
width = YGValueResolve(node->resolvedDimensions[dim[YGFlexDirectionRow]], parentWidth) +
|
width = YGResolveValue(node->resolvedDimensions[dim[YGFlexDirectionRow]], parentWidth) +
|
||||||
YGNodeMarginForAxis(node, YGFlexDirectionRow, parentWidth);
|
YGNodeMarginForAxis(node, YGFlexDirectionRow, parentWidth);
|
||||||
widthMeasureMode = YGMeasureModeExactly;
|
widthMeasureMode = YGMeasureModeExactly;
|
||||||
} else if (YGValueResolve(&node->style.maxDimensions[YGDimensionWidth], parentWidth) >= 0.0f) {
|
} else if (YGResolveValue(&node->style.maxDimensions[YGDimensionWidth], parentWidth) >= 0.0f) {
|
||||||
width = YGValueResolve(&node->style.maxDimensions[YGDimensionWidth], parentWidth);
|
width = YGResolveValue(&node->style.maxDimensions[YGDimensionWidth], parentWidth);
|
||||||
widthMeasureMode = YGMeasureModeAtMost;
|
widthMeasureMode = YGMeasureModeAtMost;
|
||||||
} else {
|
} else {
|
||||||
width = parentWidth;
|
width = parentWidth;
|
||||||
@@ -3400,12 +3400,12 @@ void YGNodeCalculateLayout(const YGNodeRef node,
|
|||||||
float height = YGUndefined;
|
float height = YGUndefined;
|
||||||
YGMeasureMode heightMeasureMode = YGMeasureModeUndefined;
|
YGMeasureMode heightMeasureMode = YGMeasureModeUndefined;
|
||||||
if (YGNodeIsStyleDimDefined(node, YGFlexDirectionColumn, parentHeight)) {
|
if (YGNodeIsStyleDimDefined(node, YGFlexDirectionColumn, parentHeight)) {
|
||||||
height = YGValueResolve(node->resolvedDimensions[dim[YGFlexDirectionColumn]], parentHeight) +
|
height = YGResolveValue(node->resolvedDimensions[dim[YGFlexDirectionColumn]], parentHeight) +
|
||||||
YGNodeMarginForAxis(node, YGFlexDirectionColumn, parentWidth);
|
YGNodeMarginForAxis(node, YGFlexDirectionColumn, parentWidth);
|
||||||
heightMeasureMode = YGMeasureModeExactly;
|
heightMeasureMode = YGMeasureModeExactly;
|
||||||
} else if (YGValueResolve(&node->style.maxDimensions[YGDimensionHeight], parentHeight) >=
|
} else if (YGResolveValue(&node->style.maxDimensions[YGDimensionHeight], parentHeight) >=
|
||||||
0.0f) {
|
0.0f) {
|
||||||
height = YGValueResolve(&node->style.maxDimensions[YGDimensionHeight], parentHeight);
|
height = YGResolveValue(&node->style.maxDimensions[YGDimensionHeight], parentHeight);
|
||||||
heightMeasureMode = YGMeasureModeAtMost;
|
heightMeasureMode = YGMeasureModeAtMost;
|
||||||
} else {
|
} else {
|
||||||
height = parentHeight;
|
height = parentHeight;
|
||||||
|
|||||||
Reference in New Issue
Block a user