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//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Tests for user/user_cache.cc
#include <cstring>
#include <memory>
#include <string>
#include <optional>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <mujoco/mujoco.h>
#include "test/fixture.h"
#include "src/user/user_cache.h"
#include "src/user/user_vfs.h"
#include "src/user/user_resource.h"
namespace mujoco {
using ::testing::IsNull;
using ::testing::NotNull;
using ::testing::StrEq;
using CacheTest = MujocoTest;
namespace {
constexpr int kMaxSize = 100; // in bytes
constexpr std::string kText = "Hello World";
constexpr std::string kModel = "myModel";
constexpr std::string kFile = "hello.txt";
void CacheText(mjCCache& cache, const std::string& model,
const std::string& name, const std::string& text) {
mjVFS vfs;
mj_defaultVFS(&vfs);
mj_addBufferVFS(&vfs, name.c_str(), text.data(), text.size());
mjResource* resource = mju_openResource("", name.c_str(), &vfs, nullptr, 0);
std::shared_ptr<const void> data(&text, +[](const void* data) {});
cache.Insert(model, resource, data, text.size());
mju_closeResource(resource);
mj_deleteVFS(&vfs);
}
std::optional<std::string>
GetCachedText(mjCCache& cache, const std::string& model,
const std::string& name, const std::string& text) {
std::string cached_text;
mjVFS vfs;
mj_defaultVFS(&vfs);
mj_addBufferVFS(&vfs, name.c_str(), text.data(), std::strlen(text.c_str()));
mjResource* resource = mju_openResource("", name.c_str(), &vfs, nullptr, 0);
bool inserted = cache.PopulateData(resource,
[&cached_text](const void* data) {
cached_text = *(static_cast<const std::string*>(data));
return true;
});
mju_closeResource(resource);
mj_deleteVFS(&vfs);
return inserted ? std::optional<std::string>(cached_text) : std::nullopt;
}
TEST(CacheTest, SizeTest) {
mjCCache cache(kMaxSize);
EXPECT_EQ(cache.Size(), 0);
}
TEST(CacheTest, InsertSuccess) {
mjCCache cache(kMaxSize);
CacheText(cache, kModel, kFile, kText);
auto cached_text = GetCachedText(cache, kModel, kFile, kText);
EXPECT_THAT(cached_text.value(), StrEq(kText));
}
TEST(CacheTest, InsertFailure) {
mjCCache cache(kMaxSize);
CacheText(cache, kModel, kFile, kText);
auto cached_text = GetCachedText(cache, kModel, "hello2.txt", kText);
EXPECT_EQ(cached_text, std::nullopt);
}
TEST(CacheTest, InsertReplace) {
mjCCache cache(kMaxSize);
const std::string kUpdatedText = "Goodbye World";
CacheText(cache, kModel, kFile, kText);
CacheText(cache, kModel, kFile, kUpdatedText);
auto cached_text = GetCachedText(cache, kModel, kFile, kUpdatedText);
EXPECT_THAT(cached_text.value(), StrEq(kUpdatedText));
}
// Trim cache based off of access count
TEST(CacheTest, Limit1) {
mjCCache cache(kMaxSize);
EXPECT_THAT(cache.MaxSize(), kMaxSize);
CacheText(cache, "fil.xml", "foo.obj", kText);
CacheText(cache, "fil.xml", "bar.obj", kText);
// access asset foo twice, bar one
GetCachedText(cache, "file.xml", "foo.obj", kText);
GetCachedText(cache, "file.xml", "foo.obj", kText);
GetCachedText(cache, "file.xml", "bar.obj", kText);
// make max size so cache can hold only one asset
cache.SetMaxSize(12);
// foo should still be in cache
EXPECT_THAT(cache.HasAsset("foo.obj"), NotNull());
// bar was accessed less, so is removed
EXPECT_THAT(cache.HasAsset("bar.obj"), IsNull());
}
// Trim cache based off of insert order
TEST(CacheTest, Limit2) {
mjCCache cache(kMaxSize);
CacheText(cache, "file.xml", "foo.obj", kText);
CacheText(cache, "file.xml", "bar.obj", kText);
// get each asset once
GetCachedText(cache, "file.xml", "foo.obj", kText);
GetCachedText(cache, "file.xml", "bar.obj", kText);
// make max size so cache can hold only one asset
cache.SetMaxSize(12);
// foo should be gone because it's older
EXPECT_THAT(cache.HasAsset("foo.obj"), IsNull());
// bar should still be in cache
EXPECT_THAT(cache.HasAsset("bar.obj"), NotNull());
}
// stress test with large asset
TEST(CacheTest, Limit3) {
mjCCache cache(12);
CacheText(cache, "file.xml", "foo.obj", kText);
CacheText(cache, "file.xml", "bar.obj", kText);
// foo should still be in cache
EXPECT_THAT(cache.HasAsset("foo.obj"), NotNull());
// bar could not be inserted because it's too large
EXPECT_THAT(cache.HasAsset("bar.obj"), IsNull());
}
TEST(CacheTest, Limit4) {
mjCCache cache(12);
CacheText(cache, "file.xml", "foo.obj", kText);
CacheText(cache, "file.xml", "bar.obj", kText);
EXPECT_THAT(cache.HasAsset("foo.obj"), NotNull());
// cache is full, so bar can't be inserted
EXPECT_THAT(cache.HasAsset("bar.obj"), IsNull());
}
TEST(CacheTest, ResetAll) {
mjCCache cache(kMaxSize);
CacheText(cache, "file1.xml", "foo.obj", kText);
CacheText(cache, "file2.xml", "bar.obj", kText);
EXPECT_THAT(cache.HasAsset("foo.obj"), NotNull());
EXPECT_THAT(cache.HasAsset("bar.obj"), NotNull());
cache.Reset();
EXPECT_THAT(cache.HasAsset("foo.obj"), IsNull());
EXPECT_THAT(cache.HasAsset("bar.obj"), IsNull());
}
TEST(CacheTest, ResetModel1) {
mjCCache cache(kMaxSize);
CacheText(cache, "file1.xml", "foo.obj", kText);
CacheText(cache, "file1.xml", "bar.obj", kText);
CacheText(cache, "file2.xml", "bar.obj", kText);
cache.Reset("file2.xml");
EXPECT_THAT(cache.HasAsset("foo.obj"), NotNull());
EXPECT_THAT(cache.HasAsset("bar.obj"), IsNull());
}
TEST(CacheTest, ResetModel2) {
mjCCache cache(kMaxSize);
CacheText(cache, "file1.xml", "foo.obj", kText);
CacheText(cache, "file2.xml", "foo.obj", kText);
CacheText(cache, "file2.xml", "bar.obj", kText);
cache.Reset("file2.xml");
EXPECT_THAT(cache.HasAsset("foo.obj"), IsNull());
EXPECT_THAT(cache.HasAsset("bar.obj"), IsNull());
}
TEST(CacheTest, RemoveModel1) {
mjCCache cache(kMaxSize);
CacheText(cache, "file1.xml", "foo.obj", kText);
CacheText(cache, "file1.xml", "bar.obj", kText);
CacheText(cache, "file2.xml", "bar.obj", kText);
cache.RemoveModel("file2.xml");
EXPECT_THAT(cache.HasAsset("foo.obj"), NotNull());
EXPECT_THAT(cache.HasAsset("bar.obj"), NotNull());
}
TEST(CacheTest, RemoveModel2) {
mjCCache cache(kMaxSize);
CacheText(cache, "file1.xml", "foo.obj", kText);
CacheText(cache, "file2.xml", "bar.obj", kText);
cache.Reset("file2.xml");
EXPECT_THAT(cache.HasAsset("foo.obj"), NotNull());
EXPECT_THAT(cache.HasAsset("bar.obj"), IsNull());
}
TEST(CacheTest, DeleteAssetSuccess) {
mjCCache cache(kMaxSize);
CacheText(cache, "file.xml", "foo.obj", kText);
cache.DeleteAsset("foo.obj");
EXPECT_THAT(cache.HasAsset("foo.obj"), IsNull());
}
TEST(CacheTest, DeleteAssetFailure) {
mjCCache cache(kMaxSize);
CacheText(cache, "file.xml", "foo.obj", kText);
cache.DeleteAsset("bar.obj");
EXPECT_THAT(cache.HasAsset("foo.obj"), NotNull());
}
} // namespace
} // namespace mujoco
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