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react-native/ReactCommon/react/renderer/mounting/tests/ShadowTreeLifeCycleTest.cpp
T
Joshua Gross 248704e8de Rename unit tests to match filenames 
Summary:
Rename tests to match filenames so results appear correctly in console.

Changelog: [internal]

Reviewed By: PeteTheHeat

Differential Revision: D26306214

fbshipit-source-id: 58ce5ee0f5df5d7da38da8a2653a042ab7c26bb2
2021-02-09 22:43:44 -08:00

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/*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
#include <vector>
#include <glog/logging.h>
#include <gtest/gtest.h>
#include <react/renderer/components/root/RootComponentDescriptor.h>
#include <react/renderer/components/view/ViewComponentDescriptor.h>
#include <react/renderer/mounting/Differentiator.h>
#include <react/renderer/mounting/ShadowViewMutation.h>
#include <react/renderer/mounting/stubs.h>
#include "Entropy.h"
#include "shadowTreeGeneration.h"
namespace facebook {
namespace react {
static void testShadowNodeTreeLifeCycle(
uint_fast32_t seed,
int treeSize,
int repeats,
int stages) {
auto entropy = seed == 0 ? Entropy() : Entropy(seed);
auto eventDispatcher = EventDispatcher::Shared{};
auto contextContainer = std::make_shared<ContextContainer>();
auto componentDescriptorParameters =
ComponentDescriptorParameters{eventDispatcher, contextContainer, nullptr};
auto viewComponentDescriptor =
ViewComponentDescriptor(componentDescriptorParameters);
auto rootComponentDescriptor =
RootComponentDescriptor(componentDescriptorParameters);
auto noopEventEmitter =
std::make_shared<ViewEventEmitter const>(nullptr, -1, eventDispatcher);
auto allNodes = std::vector<ShadowNode::Shared>{};
for (int i = 0; i < repeats; i++) {
allNodes.clear();
auto family = rootComponentDescriptor.createFamily(
{Tag(1), SurfaceId(1), nullptr}, nullptr);
// Creating an initial root shadow node.
auto emptyRootNode = std::const_pointer_cast<RootShadowNode>(
std::static_pointer_cast<RootShadowNode const>(
rootComponentDescriptor.createShadowNode(
ShadowNodeFragment{RootShadowNode::defaultSharedProps()},
family)));
// Applying size constraints.
emptyRootNode = emptyRootNode->clone(
LayoutConstraints{
Size{512, 0}, Size{512, std::numeric_limits<Float>::infinity()}},
LayoutContext{});
// Generation of a random tree.
auto singleRootChildNode =
generateShadowNodeTree(entropy, viewComponentDescriptor, treeSize);
// Injecting a tree into the root node.
auto currentRootNode = std::static_pointer_cast<RootShadowNode const>(
emptyRootNode->ShadowNode::clone(ShadowNodeFragment{
ShadowNodeFragment::propsPlaceholder(),
std::make_shared<SharedShadowNodeList>(
SharedShadowNodeList{singleRootChildNode})}));
// Building an initial view hierarchy.
auto viewTree = buildStubViewTreeWithoutUsingDifferentiator(*emptyRootNode);
viewTree.mutate(
calculateShadowViewMutations(*emptyRootNode, *currentRootNode));
for (int j = 0; j < stages; j++) {
auto nextRootNode = currentRootNode;
// Mutating the tree.
alterShadowTree(
entropy,
nextRootNode,
{
&messWithChildren,
&messWithYogaStyles,
&messWithLayotableOnlyFlag,
});
std::vector<LayoutableShadowNode const *> affectedLayoutableNodes{};
affectedLayoutableNodes.reserve(1024);
// Laying out the tree.
std::const_pointer_cast<RootShadowNode>(nextRootNode)
->layoutIfNeeded(&affectedLayoutableNodes);
nextRootNode->sealRecursive();
allNodes.push_back(nextRootNode);
// Calculating mutations.
auto mutations =
calculateShadowViewMutations(*currentRootNode, *nextRootNode);
// Make sure that in a single frame, a DELETE for a
// view is not followed by a CREATE for the same view.
{
std::vector<int> deletedTags{};
for (auto const &mutation : mutations) {
if (mutation.type == ShadowViewMutation::Type::Delete) {
deletedTags.push_back(mutation.oldChildShadowView.tag);
}
}
for (auto const &mutation : mutations) {
if (mutation.type == ShadowViewMutation::Type::Create) {
if (std::find(
deletedTags.begin(),
deletedTags.end(),
mutation.newChildShadowView.tag) != deletedTags.end()) {
LOG(ERROR) << "Deleted tag was recreated in mutations list: ["
<< mutation.newChildShadowView.tag << "]";
FAIL();
}
}
}
}
// Mutating the view tree.
viewTree.mutate(mutations);
// Building a view tree to compare with.
auto rebuiltViewTree =
buildStubViewTreeWithoutUsingDifferentiator(*nextRootNode);
// Comparing the newly built tree with the updated one.
if (rebuiltViewTree != viewTree) {
// Something went wrong.
LOG(ERROR) << "Entropy seed: " << entropy.getSeed() << "\n";
// There are some issues getting `getDebugDescription` to compile
// under test on Android for now.
#ifndef ANDROID
LOG(ERROR) << "Shadow Tree before: \n"
<< currentRootNode->getDebugDescription();
LOG(ERROR) << "Shadow Tree after: \n"
<< nextRootNode->getDebugDescription();
LOG(ERROR) << "View Tree before: \n"
<< getDebugDescription(viewTree.getRootStubView(), {});
LOG(ERROR) << "View Tree after: \n"
<< getDebugDescription(
rebuiltViewTree.getRootStubView(), {});
LOG(ERROR) << "Mutations:"
<< "\n"
<< getDebugDescription(mutations, {});
#endif
FAIL();
}
currentRootNode = nextRootNode;
}
}
SUCCEED();
}
} // namespace react
} // namespace facebook
using namespace facebook::react;
TEST(
ShadowTreeLifecyleTest,
stableBiggerTreeFewerIterationsOptimizedMovesFlattener) {
testShadowNodeTreeLifeCycle(
/* seed */ 0,
/* size */ 512,
/* repeats */ 32,
/* stages */ 32);
}
TEST(
ShadowTreeLifecyleTest,
stableBiggerTreeFewerIterationsOptimizedMovesFlattener2) {
testShadowNodeTreeLifeCycle(
/* seed */ 1,
/* size */ 512,
/* repeats */ 32,
/* stages */ 32);
}
TEST(
ShadowTreeLifecyleTest,
stableSmallerTreeMoreIterationsOptimizedMovesFlattener) {
testShadowNodeTreeLifeCycle(
/* seed */ 0,
/* size */ 16,
/* repeats */ 512,
/* stages */ 32);
}
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