Update GHA actions/upload-artifact to v4, unbreak CI

Summary: `actions/upload-artifact@v3` is deprecated and will no longer execute, causing CI to fail - eg: https://github.com/facebook/yoga/actions/runs/13789185831/job/38564343959 See https://github.blog/changelog/2024-04-16-deprecation-notice-v3-of-the-artifact-actions/ for context Reviewed By: NickGerleman Differential Revision: D70986391
2025-03-11 13:02:27 -07:00
19 changed files with 49 additions and 527 deletions
--- a/build.gradle
+++ b/build.gradle
@@ -34,8 +34,6 @@ nexusPublishing {
        sonatype {
            username.set(sonatypeUsername)
            password.set(sonatypePassword)
            nexusUrl.set(uri("https://ossrh-staging-api.central.sonatype.com/service/local/"))
            snapshotRepositoryUrl.set(uri("https://central.sonatype.com/repository/maven-snapshots/"))
        }
    }
 }
--- a/gentest/fixtures/YGAlignItemsTest.html
+++ b/gentest/fixtures/YGAlignItemsTest.html
@@ -240,14 +240,3 @@
  <div style="position:relative; width:50px; height:50px;">
  </div>
 </div>
 <div id="align_items_non_stretch_s526008"
  style="flex-direction: column; width: 400px; height: 400px;">
  <div style="flex-direction: row;">
    <div style="flex-direction: column; align-items: flex-start;">
      <div>
        <div style="width: 0; height: 10px;"></div>
      </div>
    </div>
  </div>
 </div>
--- a/gradle/gradle-enterprise.gradle.kts.sample
+++ b/gradle/gradle-enterprise.gradle.kts.sample
@@ -0,0 +1,17 @@
 /*
 * Copyright (c) Meta Platforms, Inc. and affiliates.
 *
 * This source code is licensed under the MIT license found in the
 * LICENSE file in the root directory of this source tree.
 */
 // You can use this script to configure the gradleEnterprise{} block in your build.
 // You need to rename this file to ./gradle/gradle-enterprise.gradle.kts in order for
 // this to be processed.
 extensions.getByName("gradleEnterprise").withGroovyBuilder {
    setProperty("server", "https://your-gradle-enterprise-instance.example.com")
    getProperty("buildScan").withGroovyBuilder {
        "publishAlways"()
        "tag"(if(System.getenv("CI") != null) "CI" else "Local")
    }
 }
--- a/java/tests/generated/com/facebook/yoga/YGAlignItemsTest.java
+++ b/java/tests/generated/com/facebook/yoga/YGAlignItemsTest.java
@@ -4,7 +4,7 @@
 * This source code is licensed under the MIT license found in the
 * LICENSE file in the root directory of this source tree.
 *
- * @generated SignedSource<<84597dd8b2c4f3aac1f21abe68f25308>>
+ * @generated SignedSource<<e8d11c0e97041bb2f1487f0d87363fdc>>
 * generated by gentest/gentest-driver.ts from gentest/fixtures/YGAlignItemsTest.html
 */
@@ -2293,86 +2293,6 @@ public class YGAlignItemsTest {
    assertEquals(50f, root_child1.getLayoutHeight(), 0.0f);
  }
  @Test
  public void test_align_items_non_stretch_s526008() {
    YogaConfig config = YogaConfigFactory.create();
    final YogaNode root = createNode(config);
    root.setPositionType(YogaPositionType.ABSOLUTE);
    root.setWidth(400f);
    root.setHeight(400f);
    final YogaNode root_child0 = createNode(config);
    root_child0.setFlexDirection(YogaFlexDirection.ROW);
    root.addChildAt(root_child0, 0);
    final YogaNode root_child0_child0 = createNode(config);
    root_child0_child0.setAlignItems(YogaAlign.FLEX_START);
    root_child0.addChildAt(root_child0_child0, 0);
    final YogaNode root_child0_child0_child0 = createNode(config);
    root_child0_child0.addChildAt(root_child0_child0_child0, 0);
    final YogaNode root_child0_child0_child0_child0 = createNode(config);
    root_child0_child0_child0_child0.setHeight(10f);
    root_child0_child0_child0.addChildAt(root_child0_child0_child0_child0, 0);
    root.setDirection(YogaDirection.LTR);
    root.calculateLayout(YogaConstants.UNDEFINED, YogaConstants.UNDEFINED);
    assertEquals(0f, root.getLayoutX(), 0.0f);
    assertEquals(0f, root.getLayoutY(), 0.0f);
    assertEquals(400f, root.getLayoutWidth(), 0.0f);
    assertEquals(400f, root.getLayoutHeight(), 0.0f);
    assertEquals(0f, root_child0.getLayoutX(), 0.0f);
    assertEquals(0f, root_child0.getLayoutY(), 0.0f);
    assertEquals(400f, root_child0.getLayoutWidth(), 0.0f);
    assertEquals(10f, root_child0.getLayoutHeight(), 0.0f);
    assertEquals(0f, root_child0_child0.getLayoutX(), 0.0f);
    assertEquals(0f, root_child0_child0.getLayoutY(), 0.0f);
    assertEquals(0f, root_child0_child0.getLayoutWidth(), 0.0f);
    assertEquals(10f, root_child0_child0.getLayoutHeight(), 0.0f);
    assertEquals(0f, root_child0_child0_child0.getLayoutX(), 0.0f);
    assertEquals(0f, root_child0_child0_child0.getLayoutY(), 0.0f);
    assertEquals(0f, root_child0_child0_child0.getLayoutWidth(), 0.0f);
    assertEquals(10f, root_child0_child0_child0.getLayoutHeight(), 0.0f);
    assertEquals(0f, root_child0_child0_child0_child0.getLayoutX(), 0.0f);
    assertEquals(0f, root_child0_child0_child0_child0.getLayoutY(), 0.0f);
    assertEquals(0f, root_child0_child0_child0_child0.getLayoutWidth(), 0.0f);
    assertEquals(10f, root_child0_child0_child0_child0.getLayoutHeight(), 0.0f);
    root.setDirection(YogaDirection.RTL);
    root.calculateLayout(YogaConstants.UNDEFINED, YogaConstants.UNDEFINED);
    assertEquals(0f, root.getLayoutX(), 0.0f);
    assertEquals(0f, root.getLayoutY(), 0.0f);
    assertEquals(400f, root.getLayoutWidth(), 0.0f);
    assertEquals(400f, root.getLayoutHeight(), 0.0f);
    assertEquals(0f, root_child0.getLayoutX(), 0.0f);
    assertEquals(0f, root_child0.getLayoutY(), 0.0f);
    assertEquals(400f, root_child0.getLayoutWidth(), 0.0f);
    assertEquals(10f, root_child0.getLayoutHeight(), 0.0f);
    assertEquals(400f, root_child0_child0.getLayoutX(), 0.0f);
    assertEquals(0f, root_child0_child0.getLayoutY(), 0.0f);
    assertEquals(0f, root_child0_child0.getLayoutWidth(), 0.0f);
    assertEquals(10f, root_child0_child0.getLayoutHeight(), 0.0f);
    assertEquals(0f, root_child0_child0_child0.getLayoutX(), 0.0f);
    assertEquals(0f, root_child0_child0_child0.getLayoutY(), 0.0f);
    assertEquals(0f, root_child0_child0_child0.getLayoutWidth(), 0.0f);
    assertEquals(10f, root_child0_child0_child0.getLayoutHeight(), 0.0f);
    assertEquals(0f, root_child0_child0_child0_child0.getLayoutX(), 0.0f);
    assertEquals(0f, root_child0_child0_child0_child0.getLayoutY(), 0.0f);
    assertEquals(0f, root_child0_child0_child0_child0.getLayoutWidth(), 0.0f);
    assertEquals(10f, root_child0_child0_child0_child0.getLayoutHeight(), 0.0f);
  }
  private YogaNode createNode(YogaConfig config) {
    return mNodeFactory.create(config);
  }
--- a/javascript/tests/generated/YGAlignItemsTest.test.ts
+++ b/javascript/tests/generated/YGAlignItemsTest.test.ts
@@ -4,7 +4,7 @@
 * This source code is licensed under the MIT license found in the
 * LICENSE file in the root directory of this source tree.
 *
- * @generated SignedSource<<fd80af208d8635435f86ffa8f3810b39>>
+ * @generated SignedSource<<075a0b67003e5c4a1f51bd99da71c700>>
 * generated by gentest/gentest-driver.ts from gentest/fixtures/YGAlignItemsTest.html
 */
@@ -2442,88 +2442,3 @@ test('align_stretch_with_row_reverse', () => {
    config.free();
  }
 });
 test('align_items_non_stretch_s526008', () => {
  const config = Yoga.Config.create();
  let root;
  try {
    root = Yoga.Node.create(config);
    root.setPositionType(PositionType.Absolute);
    root.setWidth(400);
    root.setHeight(400);
    const root_child0 = Yoga.Node.create(config);
    root_child0.setFlexDirection(FlexDirection.Row);
    root.insertChild(root_child0, 0);
    const root_child0_child0 = Yoga.Node.create(config);
    root_child0_child0.setAlignItems(Align.FlexStart);
    root_child0.insertChild(root_child0_child0, 0);
    const root_child0_child0_child0 = Yoga.Node.create(config);
    root_child0_child0.insertChild(root_child0_child0_child0, 0);
    const root_child0_child0_child0_child0 = Yoga.Node.create(config);
    root_child0_child0_child0_child0.setHeight(10);
    root_child0_child0_child0.insertChild(root_child0_child0_child0_child0, 0);
    root.calculateLayout(undefined, undefined, Direction.LTR);
    expect(root.getComputedLeft()).toBe(0);
    expect(root.getComputedTop()).toBe(0);
    expect(root.getComputedWidth()).toBe(400);
    expect(root.getComputedHeight()).toBe(400);
    expect(root_child0.getComputedLeft()).toBe(0);
    expect(root_child0.getComputedTop()).toBe(0);
    expect(root_child0.getComputedWidth()).toBe(400);
    expect(root_child0.getComputedHeight()).toBe(10);
    expect(root_child0_child0.getComputedLeft()).toBe(0);
    expect(root_child0_child0.getComputedTop()).toBe(0);
    expect(root_child0_child0.getComputedWidth()).toBe(0);
    expect(root_child0_child0.getComputedHeight()).toBe(10);
    expect(root_child0_child0_child0.getComputedLeft()).toBe(0);
    expect(root_child0_child0_child0.getComputedTop()).toBe(0);
    expect(root_child0_child0_child0.getComputedWidth()).toBe(0);
    expect(root_child0_child0_child0.getComputedHeight()).toBe(10);
    expect(root_child0_child0_child0_child0.getComputedLeft()).toBe(0);
    expect(root_child0_child0_child0_child0.getComputedTop()).toBe(0);
    expect(root_child0_child0_child0_child0.getComputedWidth()).toBe(0);
    expect(root_child0_child0_child0_child0.getComputedHeight()).toBe(10);
    root.calculateLayout(undefined, undefined, Direction.RTL);
    expect(root.getComputedLeft()).toBe(0);
    expect(root.getComputedTop()).toBe(0);
    expect(root.getComputedWidth()).toBe(400);
    expect(root.getComputedHeight()).toBe(400);
    expect(root_child0.getComputedLeft()).toBe(0);
    expect(root_child0.getComputedTop()).toBe(0);
    expect(root_child0.getComputedWidth()).toBe(400);
    expect(root_child0.getComputedHeight()).toBe(10);
    expect(root_child0_child0.getComputedLeft()).toBe(400);
    expect(root_child0_child0.getComputedTop()).toBe(0);
    expect(root_child0_child0.getComputedWidth()).toBe(0);
    expect(root_child0_child0.getComputedHeight()).toBe(10);
    expect(root_child0_child0_child0.getComputedLeft()).toBe(0);
    expect(root_child0_child0_child0.getComputedTop()).toBe(0);
    expect(root_child0_child0_child0.getComputedWidth()).toBe(0);
    expect(root_child0_child0_child0.getComputedHeight()).toBe(10);
    expect(root_child0_child0_child0_child0.getComputedLeft()).toBe(0);
    expect(root_child0_child0_child0_child0.getComputedTop()).toBe(0);
    expect(root_child0_child0_child0_child0.getComputedWidth()).toBe(0);
    expect(root_child0_child0_child0_child0.getComputedHeight()).toBe(10);
  } finally {
    if (typeof root !== 'undefined') {
      root.freeRecursive();
    }
    config.free();
  }
 });
--- a/settings.gradle.kts
+++ b/settings.gradle.kts
@@ -19,11 +19,10 @@ include(":yoga")
 project(":yoga").projectDir = file("java")
 gradleEnterprise {
  buildScan {
    termsOfServiceUrl = "https://gradle.com/terms-of-service"
    termsOfServiceAgree = "yes"
  }
 }
 rootProject.name = "yoga-github"
 // If you specify a file inside gradle/gradle-enterprise.gradle.kts
 // you can configure your custom Gradle Enterprise instance
 if (file("./gradle/gradle-enterprise.gradle.kts").exists()) {
  apply(from = "./gradle/gradle-enterprise.gradle.kts")
 }
--- a/tests/YGPersistentNodeCloningTest.cpp
+++ b/tests/YGPersistentNodeCloningTest.cpp
@@ -1,184 +0,0 @@
 /*
 * Copyright (c) Meta Platforms, Inc. and affiliates.
 *
 * This source code is licensed under the MIT license found in the
 * LICENSE file in the root directory of this source tree.
 */
 #include <gtest/gtest.h>
 #include <yoga/Yoga.h>
 #include <yoga/config/Config.h>
 #include <yoga/node/Node.h>
 #include <functional>
 #include <memory>
 #include <vector>
 namespace facebook::yoga {
 struct YGPersistentNodeCloningTest : public ::testing::Test {
  struct NodeWrapper {
    explicit NodeWrapper(
        YGConfigRef config,
        std::vector<std::shared_ptr<NodeWrapper>> children = {})
        : node{YGNodeNewWithConfig(config)}, children{std::move(children)} {
      YGNodeSetContext(node, this);
      auto privateNode = resolveRef(node);
      for (const auto& child : this->children) {
        auto privateChild = resolveRef(child->node);
        // Claim first ownership of not yet owned nodes, to avoid immediately
        // cloning them
        if (YGNodeGetOwner(child->node) == nullptr) {
          privateChild->setOwner(privateNode);
        }
        privateNode->insertChild(privateChild, privateNode->getChildCount());
      }
    }
    // Clone, with current children, for mutation
    NodeWrapper(const NodeWrapper& other)
        : node{YGNodeClone(other.node)}, children{other.children} {
      YGNodeSetContext(node, this);
      auto privateNode = resolveRef(node);
      privateNode->setOwner(nullptr);
    }
    // Clone, with new children
    NodeWrapper(
        const NodeWrapper& other,
        std::vector<std::shared_ptr<NodeWrapper>> children)
        : node{YGNodeClone(other.node)}, children{std::move(children)} {
      YGNodeSetContext(node, this);
      auto privateNode = resolveRef(node);
      privateNode->setOwner(nullptr);
      privateNode->setChildren({});
      privateNode->setDirty(true);
      for (const auto& child : this->children) {
        auto privateChild = resolveRef(child->node);
        // Claim first ownership of not yet owned nodes, to avoid immediately
        // cloning them
        if (YGNodeGetOwner(child->node) == nullptr) {
          privateChild->setOwner(privateNode);
        }
        privateNode->insertChild(privateChild, privateNode->getChildCount());
      }
    }
    NodeWrapper(NodeWrapper&&) = delete;
    ~NodeWrapper() {
      YGNodeFree(node);
    }
    NodeWrapper& operator=(const NodeWrapper& other) = delete;
    NodeWrapper& operator=(NodeWrapper&& other) = delete;
    YGNodeRef node;
    std::vector<std::shared_ptr<NodeWrapper>> children;
  };
  struct ConfigWrapper {
    ConfigWrapper() {
      YGConfigSetCloneNodeFunc(
          config,
          [](YGNodeConstRef oldNode, YGNodeConstRef owner, size_t childIndex) {
            onClone(oldNode, owner, childIndex);
            auto wrapper = static_cast<NodeWrapper*>(YGNodeGetContext(owner));
            auto old = static_cast<NodeWrapper*>(YGNodeGetContext(oldNode));
            wrapper->children[childIndex] = std::make_shared<NodeWrapper>(*old);
            return wrapper->children[childIndex]->node;
          });
    }
    ConfigWrapper(const ConfigWrapper&) = delete;
    ConfigWrapper(ConfigWrapper&&) = delete;
    ~ConfigWrapper() {
      YGConfigFree(config);
    }
    ConfigWrapper& operator=(const ConfigWrapper&) = delete;
    ConfigWrapper& operator=(ConfigWrapper&&) = delete;
    YGConfigRef config{YGConfigNew()};
  };
  ConfigWrapper configWrapper;
  YGConfigRef config{configWrapper.config};
  void SetUp() override {
    onClone = [](...) {};
  }
  // NOLINTNEXTLINE(cppcoreguidelines-avoid-non-const-global-variables)
  static inline std::function<void(YGNodeConstRef, YGNodeConstRef, size_t)>
      onClone;
 };
 TEST_F(
    YGPersistentNodeCloningTest,
    changing_sibling_height_does_not_clone_neighbors) {
  // <ScrollView>
  //   <View id="Sibling" style={{ height: 1 }} />
  //   <View id="A" style={{ height: 1 }}>
  //     <View id="B">
  //       <View id="C">
  //         <View id="D"/>
  //       </View>
  //     </View>
  //   </View>
  // </ScrollView>
  auto sibling = std::make_shared<NodeWrapper>(config);
  YGNodeStyleSetHeight(sibling->node, 1);
  auto d = std::make_shared<NodeWrapper>(config);
  auto c = std::make_shared<NodeWrapper>(config, std::vector{d});
  auto b = std::make_shared<NodeWrapper>(config, std::vector{c});
  auto a = std::make_shared<NodeWrapper>(config, std::vector{b});
  YGNodeStyleSetHeight(a->node, 1);
  auto scrollContentView =
      std::make_shared<NodeWrapper>(config, std::vector{sibling, a});
  YGNodeStyleSetPositionType(scrollContentView->node, YGPositionTypeAbsolute);
  auto scrollView =
      std::make_shared<NodeWrapper>(config, std::vector{scrollContentView});
  YGNodeStyleSetWidth(scrollView->node, 100);
  YGNodeStyleSetHeight(scrollView->node, 100);
  // We don't expect any cloning during the first layout
  onClone = [](...) { FAIL(); };
  YGNodeCalculateLayout(
      scrollView->node, YGUndefined, YGUndefined, YGDirectionLTR);
  auto siblingPrime = std::make_shared<NodeWrapper>(config);
  YGNodeStyleSetHeight(siblingPrime->node, 2);
  auto scrollContentViewPrime = std::make_shared<NodeWrapper>(
      *scrollContentView, std::vector{siblingPrime, a});
  auto scrollViewPrime = std::make_shared<NodeWrapper>(
      *scrollView, std::vector{scrollContentViewPrime});
  std::vector<NodeWrapper*> nodesCloned;
  // We should only need to clone "A"
  onClone = [&](YGNodeConstRef oldNode,
                YGNodeConstRef /*owner*/,
                size_t /*childIndex*/) {
    nodesCloned.push_back(static_cast<NodeWrapper*>(YGNodeGetContext(oldNode)));
  };
  YGNodeCalculateLayout(
      scrollViewPrime->node, YGUndefined, YGUndefined, YGDirectionLTR);
  EXPECT_EQ(nodesCloned.size(), 1);
  EXPECT_EQ(nodesCloned[0], a.get());
 }
 } // namespace facebook::yoga
--- a/tests/YGRoundingFunctionTest.cpp
+++ b/tests/YGRoundingFunctionTest.cpp
@@ -161,23 +161,3 @@ TEST(YogaTest, per_node_point_scale_factor) {
  YGConfigFree(config2);
  YGConfigFree(config3);
 }
 TEST(YogaTest, raw_layout_dimensions) {
  YGConfigRef config = YGConfigNew();
  YGConfigSetPointScaleFactor(config, 0.5f);
  YGNodeRef root = YGNodeNewWithConfig(config);
  YGNodeStyleSetWidth(root, 11.5f);
  YGNodeStyleSetHeight(root, 9.5f);
  YGNodeCalculateLayout(root, YGUndefined, YGUndefined, YGDirectionLTR);
  ASSERT_EQ(YGNodeLayoutGetWidth(root), 12.0f);
  ASSERT_EQ(YGNodeLayoutGetHeight(root), 10.0f);
  ASSERT_EQ(YGNodeLayoutGetRawWidth(root), 11.5f);
  ASSERT_EQ(YGNodeLayoutGetRawHeight(root), 9.5f);
  YGNodeFreeRecursive(root);
  YGConfigFree(config);
 }
--- a/tests/generated/YGAlignItemsTest.cpp
+++ b/tests/generated/YGAlignItemsTest.cpp
@@ -5,7 +5,7 @@
 * LICENSE file in the root directory of this source tree.
 *
 * clang-format off
- * @generated SignedSource<<1db57b05babb408c08efcec7dbdf16fb>>
+ * @generated SignedSource<<71295a398c89ea424490884a05e2c77c>>
 * generated by gentest/gentest-driver.ts from gentest/fixtures/YGAlignItemsTest.html
 */
@@ -2310,84 +2310,3 @@ TEST(YogaTest, align_stretch_with_row_reverse) {
  YGConfigFree(config);
 }
 TEST(YogaTest, align_items_non_stretch_s526008) {
  YGConfigRef config = YGConfigNew();
  YGNodeRef root = YGNodeNewWithConfig(config);
  YGNodeStyleSetPositionType(root, YGPositionTypeAbsolute);
  YGNodeStyleSetWidth(root, 400);
  YGNodeStyleSetHeight(root, 400);
  YGNodeRef root_child0 = YGNodeNewWithConfig(config);
  YGNodeStyleSetFlexDirection(root_child0, YGFlexDirectionRow);
  YGNodeInsertChild(root, root_child0, 0);
  YGNodeRef root_child0_child0 = YGNodeNewWithConfig(config);
  YGNodeStyleSetAlignItems(root_child0_child0, YGAlignFlexStart);
  YGNodeInsertChild(root_child0, root_child0_child0, 0);
  YGNodeRef root_child0_child0_child0 = YGNodeNewWithConfig(config);
  YGNodeInsertChild(root_child0_child0, root_child0_child0_child0, 0);
  YGNodeRef root_child0_child0_child0_child0 = YGNodeNewWithConfig(config);
  YGNodeStyleSetHeight(root_child0_child0_child0_child0, 10);
  YGNodeInsertChild(root_child0_child0_child0, root_child0_child0_child0_child0, 0);
  YGNodeCalculateLayout(root, YGUndefined, YGUndefined, YGDirectionLTR);
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetLeft(root));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetTop(root));
  ASSERT_FLOAT_EQ(400, YGNodeLayoutGetWidth(root));
  ASSERT_FLOAT_EQ(400, YGNodeLayoutGetHeight(root));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetLeft(root_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetTop(root_child0));
  ASSERT_FLOAT_EQ(400, YGNodeLayoutGetWidth(root_child0));
  ASSERT_FLOAT_EQ(10, YGNodeLayoutGetHeight(root_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetLeft(root_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetTop(root_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetWidth(root_child0_child0));
  ASSERT_FLOAT_EQ(10, YGNodeLayoutGetHeight(root_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetLeft(root_child0_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetTop(root_child0_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetWidth(root_child0_child0_child0));
  ASSERT_FLOAT_EQ(10, YGNodeLayoutGetHeight(root_child0_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetLeft(root_child0_child0_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetTop(root_child0_child0_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetWidth(root_child0_child0_child0_child0));
  ASSERT_FLOAT_EQ(10, YGNodeLayoutGetHeight(root_child0_child0_child0_child0));
  YGNodeCalculateLayout(root, YGUndefined, YGUndefined, YGDirectionRTL);
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetLeft(root));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetTop(root));
  ASSERT_FLOAT_EQ(400, YGNodeLayoutGetWidth(root));
  ASSERT_FLOAT_EQ(400, YGNodeLayoutGetHeight(root));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetLeft(root_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetTop(root_child0));
  ASSERT_FLOAT_EQ(400, YGNodeLayoutGetWidth(root_child0));
  ASSERT_FLOAT_EQ(10, YGNodeLayoutGetHeight(root_child0));
  ASSERT_FLOAT_EQ(400, YGNodeLayoutGetLeft(root_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetTop(root_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetWidth(root_child0_child0));
  ASSERT_FLOAT_EQ(10, YGNodeLayoutGetHeight(root_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetLeft(root_child0_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetTop(root_child0_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetWidth(root_child0_child0_child0));
  ASSERT_FLOAT_EQ(10, YGNodeLayoutGetHeight(root_child0_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetLeft(root_child0_child0_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetTop(root_child0_child0_child0_child0));
  ASSERT_FLOAT_EQ(0, YGNodeLayoutGetWidth(root_child0_child0_child0_child0));
  ASSERT_FLOAT_EQ(10, YGNodeLayoutGetHeight(root_child0_child0_child0_child0));
  YGNodeFreeRecursive(root);
  YGConfigFree(config);
 }
--- a/website/docs/styling/align-content.mdx
+++ b/website/docs/styling/align-content.mdx
@@ -17,15 +17,15 @@ has effect when items are wrapped to multiple lines using [flex wrap](/docs/styl
 **Center**: Align wrapped lines in the center of the container's cross axis.
-**Space between**: Evenly space wrapped lines across the container's cross axis, distributing
+**Space between**: Evenly space wrapped lines across the container's main axis, distributing
 remaining space between the lines.
-**Space around**: Evenly space wrapped lines across the container's cross axis, distributing
+**Space around**: Evenly space wrapped lines across the container's main axis, distributing
 remaining space around the lines. Compared to space between using
 space around will result in space being distributed to the beginning of
 the first lines and end of the last line.
-**Space evenly**: Evenly space wrapped lines across the container's cross axis, distributing
+**Space evenly**: Evenly space wrapped lines across the container's main axis, distributing
 remaining space around the lines. Compared to space around, space evenly will not
 double the gaps between children. The size of gaps between children and between
 the parent's edges and the first/last child will all be equal.
--- a/yoga/YGNodeLayout.cpp
+++ b/yoga/YGNodeLayout.cpp
@@ -90,11 +90,3 @@ float YGNodeLayoutGetPadding(YGNodeConstRef node, YGEdge edge) {
  return getResolvedLayoutProperty<&LayoutResults::padding>(
      node, scopedEnum(edge));
 }
 float YGNodeLayoutGetRawHeight(YGNodeConstRef node) {
  return resolveRef(node)->getLayout().rawDimension(Dimension::Height);
 }
 float YGNodeLayoutGetRawWidth(YGNodeConstRef node) {
  return resolveRef(node)->getLayout().rawDimension(Dimension::Width);
 }
--- a/yoga/YGNodeLayout.h
+++ b/yoga/YGNodeLayout.h
@@ -32,14 +32,4 @@ YG_EXPORT float YGNodeLayoutGetMargin(YGNodeConstRef node, YGEdge edge);
 YG_EXPORT float YGNodeLayoutGetBorder(YGNodeConstRef node, YGEdge edge);
 YG_EXPORT float YGNodeLayoutGetPadding(YGNodeConstRef node, YGEdge edge);
 /**
 * Return the measured height of the node, before layout rounding
 */
 YG_EXPORT float YGNodeLayoutGetRawHeight(YGNodeConstRef node);
 /**
 * Return the measured width of the node, before layout rounding
 */
 YG_EXPORT float YGNodeLayoutGetRawWidth(YGNodeConstRef node);
 YG_EXTERN_C_END
--- a/yoga/YGValue.h
+++ b/yoga/YGValue.h
@@ -72,9 +72,9 @@ inline bool operator==(const YGValue& lhs, const YGValue& rhs) {
    case YGUnitPoint:
    case YGUnitPercent:
      return lhs.value == rhs.value;
    default:
      return false;
  }
  return false;
 }
 inline bool operator!=(const YGValue& lhs, const YGValue& rhs) {
--- a/yoga/algorithm/CalculateLayout.cpp
+++ b/yoga/algorithm/CalculateLayout.cpp
@@ -415,12 +415,6 @@ static void measureNodeWithoutChildren(
      Dimension::Height);
 }
 inline bool isFixedSize(float dim, SizingMode sizingMode) {
  return sizingMode == SizingMode::StretchFit ||
      (yoga::isDefined(dim) && sizingMode == SizingMode::FitContent &&
       dim <= 0.0);
 }
 static bool measureNodeWithFixedSize(
    yoga::Node* const node,
    const Direction direction,
@@ -430,8 +424,12 @@ static bool measureNodeWithFixedSize(
    const SizingMode heightSizingMode,
    const float ownerWidth,
    const float ownerHeight) {
-  if (isFixedSize(availableWidth, widthSizingMode) &&
+  if ((yoga::isDefined(availableWidth) &&
-      isFixedSize(availableHeight, heightSizingMode)) {
+       widthSizingMode == SizingMode::FitContent && availableWidth <= 0.0f) ||
      (yoga::isDefined(availableHeight) &&
       heightSizingMode == SizingMode::FitContent && availableHeight <= 0.0f) ||
      (widthSizingMode == SizingMode::StretchFit &&
       heightSizingMode == SizingMode::StretchFit)) {
    node->setLayoutMeasuredDimension(
        boundAxis(
            node,
--- a/yoga/algorithm/PixelGrid.cpp
+++ b/yoga/algorithm/PixelGrid.cpp
@@ -106,25 +106,25 @@ void roundLayoutResultsToPixelGrid(
    const bool hasFractionalHeight =
        !yoga::inexactEquals(round(scaledNodeHeight), scaledNodeHeight);
-    node->getLayout().setDimension(
+    node->setLayoutDimension(
        Dimension::Width,
        roundValueToPixelGrid(
            absoluteNodeRight,
            pointScaleFactor,
            (textRounding && hasFractionalWidth),
            (textRounding && !hasFractionalWidth)) -
            roundValueToPixelGrid(
-                absoluteNodeLeft, pointScaleFactor, false, textRounding));
+                absoluteNodeLeft, pointScaleFactor, false, textRounding),
        Dimension::Width);
-    node->getLayout().setDimension(
+    node->setLayoutDimension(
        Dimension::Height,
        roundValueToPixelGrid(
            absoluteNodeBottom,
            pointScaleFactor,
            (textRounding && hasFractionalHeight),
            (textRounding && !hasFractionalHeight)) -
            roundValueToPixelGrid(
-                absoluteNodeTop, pointScaleFactor, false, textRounding));
+                absoluteNodeTop, pointScaleFactor, false, textRounding),
        Dimension::Height);
  }
  for (yoga::Node* child : node->getChildren()) {
--- a/yoga/debug/AssertFatal.cpp
+++ b/yoga/debug/AssertFatal.cpp
@@ -19,7 +19,6 @@ namespace facebook::yoga {
 #if defined(__cpp_exceptions)
  throw std::logic_error(message);
 #else
  static_cast<void>(message); // Unused
  std::terminate();
 #endif
 }
--- a/yoga/event/event.h
+++ b/yoga/event/event.h
@@ -36,12 +36,12 @@ enum struct LayoutPassReason : int {
 };
 struct LayoutData {
-  int layouts = 0;
+  int layouts;
-  int measures = 0;
+  int measures;
-  uint32_t maxMeasureCache = 0;
+  uint32_t maxMeasureCache;
-  int cachedLayouts = 0;
+  int cachedLayouts;
-  int cachedMeasures = 0;
+  int cachedMeasures;
-  int measureCallbacks = 0;
+  int measureCallbacks;
  std::array<int, static_cast<uint8_t>(LayoutPassReason::COUNT)>
      measureCallbackReasonsCount;
 };
--- a/yoga/node/LayoutResults.h
+++ b/yoga/node/LayoutResults.h
@@ -66,18 +66,10 @@ struct LayoutResults {
    return measuredDimensions_[yoga::to_underlying(axis)];
  }
  float rawDimension(Dimension axis) const {
    return rawDimensions_[yoga::to_underlying(axis)];
  }
  void setMeasuredDimension(Dimension axis, float dimension) {
    measuredDimensions_[yoga::to_underlying(axis)] = dimension;
  }
  void setRawDimension(Dimension axis, float dimension) {
    rawDimensions_[yoga::to_underlying(axis)] = dimension;
  }
  float position(PhysicalEdge physicalEdge) const {
    return position_[yoga::to_underlying(physicalEdge)];
  }
@@ -121,7 +113,6 @@ struct LayoutResults {
  std::array<float, 2> dimensions_ = {{YGUndefined, YGUndefined}};
  std::array<float, 2> measuredDimensions_ = {{YGUndefined, YGUndefined}};
  std::array<float, 2> rawDimensions_ = {{YGUndefined, YGUndefined}};
  std::array<float, 4> position_ = {};
  std::array<float, 4> margin_ = {};
  std::array<float, 4> border_ = {};
--- a/yoga/node/Node.cpp
+++ b/yoga/node/Node.cpp
@@ -247,7 +247,6 @@ void Node::setLayoutHadOverflow(bool hadOverflow) {
 void Node::setLayoutDimension(float lengthValue, Dimension dimension) {
  layout_.setDimension(dimension, lengthValue);
  layout_.setRawDimension(dimension, lengthValue);
 }
 // If both left and right are defined, then use left. Otherwise return +left or