/** * Copyright (c) 2015-present, Facebook, Inc. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ #pragma once #include #include #include #include #include #include #include namespace facebook { namespace react { inline Float fabricFloatFromYogaFloat(float value) { if (value == YGUndefined) { return kFloatUndefined; } return (Float)value; } inline float yogaFloatFromFabricFloat(Float value) { if (value == kFloatUndefined) { return YGUndefined; } return (float)value; } inline Float fabricFloatFromYogaOptionalFloat(YGFloatOptional value) { if (value.isUndefined()) { return kFloatUndefined; } return fabricFloatFromYogaFloat(value.getValue()); } inline YGFloatOptional yogaOptionalFloatFromFabricFloat(Float value) { if (value == kFloatUndefined) { return YGFloatOptional(); } return YGFloatOptional(yogaFloatFromFabricFloat(value)); } inline YGValue yogaStyleValueFromFloat(const Float &value) { if (isnan(value) || value == kFloatUndefined) { return YGValueUndefined; } return {(float)value, YGUnitPoint}; } inline LayoutMetrics layoutMetricsFromYogaNode(YGNode &yogaNode) { LayoutMetrics layoutMetrics; YGLayout layout = yogaNode.getLayout(); layoutMetrics.frame = Rect { Point { fabricFloatFromYogaFloat(layout.position[YGEdgeLeft]), fabricFloatFromYogaFloat(layout.position[YGEdgeTop]) }, Size { fabricFloatFromYogaFloat(layout.dimensions[YGDimensionWidth]), fabricFloatFromYogaFloat(layout.dimensions[YGDimensionHeight]) } }; layoutMetrics.borderWidth = EdgeInsets { fabricFloatFromYogaFloat(layout.border[YGEdgeLeft]), fabricFloatFromYogaFloat(layout.border[YGEdgeTop]), fabricFloatFromYogaFloat(layout.border[YGEdgeRight]), fabricFloatFromYogaFloat(layout.border[YGEdgeBottom]) }; layoutMetrics.contentInsets = EdgeInsets { fabricFloatFromYogaFloat(layout.border[YGEdgeLeft] + layout.padding[YGEdgeLeft]), fabricFloatFromYogaFloat(layout.border[YGEdgeTop] + layout.padding[YGEdgeTop]), fabricFloatFromYogaFloat(layout.border[YGEdgeRight] + layout.padding[YGEdgeRight]), fabricFloatFromYogaFloat(layout.border[YGEdgeBottom] + layout.padding[YGEdgeBottom]) }; layoutMetrics.displayType = yogaNode.getStyle().display == YGDisplayNone ? DisplayType::None : DisplayType::Flex; layoutMetrics.layoutDirection = layout.direction == YGDirectionRTL ? LayoutDirection::RightToLeft : LayoutDirection::LeftToRight; return layoutMetrics; } inline void fromDynamic(const folly::dynamic &value, YGDirection &result) { assert(value.isString()); auto stringValue = value.asString(); if (stringValue == "inherit") { result = YGDirectionInherit; return; } if (stringValue == "ltr") { result = YGDirectionLTR; return; } if (stringValue == "rtl") { result = YGDirectionRTL; return; } abort(); } inline void fromDynamic(const folly::dynamic &value, YGFlexDirection &result) { assert(value.isString()); auto stringValue = value.asString(); if (stringValue == "column") { result = YGFlexDirectionColumn; return; } if (stringValue == "column-reverse") { result = YGFlexDirectionColumnReverse; return; } if (stringValue == "row") { result = YGFlexDirectionRow; return; } if (stringValue == "row-reverse") { result = YGFlexDirectionRowReverse; return; } abort(); } inline void fromDynamic(const folly::dynamic &value, YGJustify &result) { assert(value.isString()); auto stringValue = value.asString(); if (stringValue == "flex-start") { result = YGJustifyFlexStart; return; } if (stringValue == "center") { result = YGJustifyCenter; return; } if (stringValue == "flex-end") { result = YGJustifyFlexEnd; return; } if (stringValue == "space-between") { result = YGJustifySpaceBetween; return; } if (stringValue == "space-around") { result = YGJustifySpaceAround; return; } if (stringValue == "space-evenly") { result = YGJustifySpaceEvenly; return; } abort(); } inline void fromDynamic(const folly::dynamic &value, YGAlign &result) { assert(value.isString()); auto stringValue = value.asString(); if (stringValue == "auto") { result = YGAlignAuto; return; } if (stringValue == "flex-start") { result = YGAlignFlexStart; return; } if (stringValue == "center") { result = YGAlignCenter; return; } if (stringValue == "flex-end") { result = YGAlignFlexEnd; return; } if (stringValue == "stretch") { result = YGAlignStretch; return; } if (stringValue == "baseline") { result = YGAlignBaseline; return; } if (stringValue == "between") { result = YGAlignSpaceBetween; return; } if (stringValue == "space-around") { result = YGAlignSpaceAround; return; } abort(); } inline void fromDynamic(const folly::dynamic &value, YGPositionType &result) { assert(value.isString()); auto stringValue = value.asString(); if (stringValue == "relative") { result = YGPositionTypeRelative; return; } if (stringValue == "absolute") { result = YGPositionTypeAbsolute; return; } abort(); } inline void fromDynamic(const folly::dynamic &value, YGWrap &result) { assert(value.isString()); auto stringValue = value.asString(); if (stringValue == "no-wrap") { result = YGWrapNoWrap; return; } if (stringValue == "wrap") { result = YGWrapWrap; return; } if (stringValue == "wrap-reverse") { result = YGWrapWrapReverse; return; } abort(); } inline void fromDynamic(const folly::dynamic &value, YGOverflow &result) { assert(value.isString()); auto stringValue = value.asString(); if (stringValue == "visible") { result = YGOverflowVisible; return; } if (stringValue == "hidden") { result = YGOverflowHidden; return; } if (stringValue == "scroll") { result = YGOverflowScroll; return; } abort(); } inline void fromDynamic(const folly::dynamic &value, YGDisplay &result) { assert(value.isString()); auto stringValue = value.asString(); if (stringValue == "flex") { result = YGDisplayFlex; return; } if (stringValue == "none") { result = YGDisplayNone; return; } abort(); } inline void fromDynamic(const folly::dynamic &value, YGValue &result) { if (value.isNumber()) { result = yogaStyleValueFromFloat(value.asDouble()); return; } else if (value.isString()) { const auto stringValue = value.asString(); if (stringValue == "auto") { result = YGValueUndefined; return; } else { if (stringValue.back() == '%') { result = { folly::to(stringValue.substr(0, stringValue.length() - 1)), YGUnitPercent }; return; } else { result = { folly::to(stringValue), YGUnitPoint }; return; } } } result = YGValueUndefined; } inline void fromDynamic(const folly::dynamic &value, YGFloatOptional &result) { if (value.isNumber()) { result = YGFloatOptional(value.asDouble()); return; } else if (value.isString()) { const auto stringValue = value.asString(); if (stringValue == "auto") { result = YGFloatOptional(); return; } } abort(); } inline void fromDynamic(const folly::dynamic &value, Transform &result) { assert(value.isArray()); Transform transformMatrix; for (const auto &tranformConfiguration : value) { assert(tranformConfiguration.isObject()); auto pair = *tranformConfiguration.items().begin(); const auto &operation = pair.first.asString(); const auto ¶meters = pair.second; if (operation == "matrix") { assert(parameters.isArray()); assert(parameters.size() == transformMatrix.matrix.size()); int i = 0; for (auto item : parameters) { transformMatrix.matrix[i++] = (Float)item.asDouble(); } } else if (operation == "perspective") { transformMatrix = transformMatrix * Transform::Perspective((Float)parameters.asDouble()); } else if (operation == "rotateX") { transformMatrix = transformMatrix * Transform::Rotate((Float)parameters.asDouble(), 0, 0); } else if (operation == "rotateY") { transformMatrix = transformMatrix * Transform::Rotate(0, (Float)parameters.asDouble(), 0); } else if (operation == "rotateZ") { transformMatrix = transformMatrix * Transform::Rotate(0, 0, (Float)parameters.asDouble()); } else if (operation == "scale") { transformMatrix = transformMatrix * Transform::Scale((Float)parameters.asDouble(), (Float)parameters.asDouble(), (Float)parameters.asDouble()); } else if (operation == "scaleX") { transformMatrix = transformMatrix * Transform::Scale((Float)parameters.asDouble(), 0, 0); } else if (operation == "scaleY") { transformMatrix = transformMatrix * Transform::Scale(0, (Float)parameters.asDouble(), 0); } else if (operation == "scaleZ") { transformMatrix = transformMatrix * Transform::Scale(0, 0, (Float)parameters.asDouble()); } else if (operation == "translate") { transformMatrix = transformMatrix * Transform::Translate(parameters[0].asDouble(), parameters[1].asDouble(), 0); } else if (operation == "translateX") { transformMatrix = transformMatrix * Transform::Translate(parameters.asDouble(), 0, 0); } else if (operation == "translateY") { transformMatrix = transformMatrix * Transform::Translate(0, parameters.asDouble(), 0); } else if (operation == "skewX") { transformMatrix = transformMatrix * Transform::Skew(parameters.asDouble(), 0); } else if (operation == "skewY") { transformMatrix = transformMatrix * Transform::Skew(0, parameters.asDouble()); } } result = transformMatrix; } inline void fromDynamic(const folly::dynamic &value, PointerEventsMode &result) { assert(value.isString()); auto stringValue = value.asString(); if (stringValue == "auto") { result = PointerEventsMode::Auto; return; } if (stringValue == "none") { result = PointerEventsMode::None; return; } if (stringValue == "box-none") { result = PointerEventsMode::BoxNone; return; } if (stringValue == "box-only") { result = PointerEventsMode::BoxOnly; return; } abort(); } inline void fromDynamic(const folly::dynamic &value, BorderStyle &result) { assert(value.isString()); auto stringValue = value.asString(); if (stringValue == "solid") { result = BorderStyle::Solid; return; } if (stringValue == "dotted") { result = BorderStyle::Dotted; return; } if (stringValue == "dashed") { result = BorderStyle::Dashed; return; } abort(); } inline std::string toString(const std::array &dimensions) { return "{" + folly::to(dimensions[0]) + ", " + folly::to(dimensions[1]) + "}"; } inline std::string toString(const std::array &position) { return "{" + folly::to(position[0]) + ", " + folly::to(position[1]) + "}"; } inline std::string toString(const std::array &edges) { return "{" + folly::to(edges[0]) + ", " + folly::to(edges[1]) + ", " + folly::to(edges[2]) + ", " + folly::to(edges[3]) + "}"; } inline std::string toString(const YGDirection &value) { switch (value) { case YGDirectionInherit: return "inherit"; case YGDirectionLTR: return "ltr"; case YGDirectionRTL: return "rtl"; } } inline std::string toString(const YGFlexDirection &value) { switch (value) { case YGFlexDirectionColumn: return "column"; case YGFlexDirectionColumnReverse: return "column-reverse"; case YGFlexDirectionRow: return "row"; case YGFlexDirectionRowReverse: return "row-reverse"; } } inline std::string toString(const YGJustify &value) { switch (value) { case YGJustifyFlexStart: return "flex-start"; case YGJustifyCenter: return "center"; case YGJustifyFlexEnd: return "flex-end"; case YGJustifySpaceBetween: return "space-between"; case YGJustifySpaceAround: return "space-around"; case YGJustifySpaceEvenly: return "space-evenly"; } } inline std::string toString(const YGAlign &value) { switch (value) { case YGAlignAuto: return "auto"; case YGAlignFlexStart: return "flex-start"; case YGAlignCenter: return "center"; case YGAlignFlexEnd: return "flex-end"; case YGAlignStretch: return "stretch"; case YGAlignBaseline: return "baseline"; case YGAlignSpaceBetween: return "space-between"; case YGAlignSpaceAround: return "space-around"; } } inline std::string toString(const YGPositionType &value) { switch (value) { case YGPositionTypeRelative: return "relative"; case YGPositionTypeAbsolute: return "absolute"; } } inline std::string toString(const YGWrap &value) { switch (value) { case YGWrapNoWrap: return "no-wrap"; case YGWrapWrap: return "wrap"; case YGWrapWrapReverse: return "wrap-reverse"; } } inline std::string toString(const YGOverflow &value) { switch (value) { case YGOverflowVisible: return "visible"; case YGOverflowScroll: return "scroll"; case YGOverflowHidden: return "hidden"; } } inline std::string toString(const YGDisplay &value) { switch (value) { case YGDisplayFlex: return "flex"; case YGDisplayNone: return "none"; } } inline std::string toString(const YGValue &value) { switch (value.unit) { case YGUnitUndefined: return "undefined"; case YGUnitPoint: return folly::to(value.value); case YGUnitPercent: return folly::to(value.value) + "%"; case YGUnitAuto: return "auto"; } } inline std::string toString(const YGFloatOptional &value) { if (value.isUndefined()) { return "undefined"; } return folly::to(fabricFloatFromYogaFloat(value.getValue())); } inline std::string toString(const std::array &value) { return "{" + toString(value[0]) + ", " + toString(value[1]) + "}"; } inline std::string toString(const std::array &value) { static std::array names = { {"left", "top", "right", "bottom", "start", "end", "horizontal", "vertical", "all"} }; std::string result; std::string separator = ", "; for (int i = 0; i < YGEdgeCount; i++) { if (value[i].unit == YGUnitUndefined) { continue; } result += names[i] + ": " + toString(value[i]) + separator; } if (!result.empty()) { result.erase(result.length() - separator.length()); } return "{" + result + "}"; } } // namespace react } // namespace facebook