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// Copyright Yahoo. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#include <vespa/searchlib/tensor/direct_tensor_store.h>
#include <vespa/vespalib/gtest/gtest.h>
#include <vespa/eval/eval/simple_value.h>
#include <vespa/eval/eval/tensor_spec.h>
#include <vespa/eval/eval/value.h>
#include <vespa/vespalib/datastore/datastore.hpp>
using namespace search::tensor;
using vespalib::datastore::EntryRef;
using vespalib::eval::SimpleValue;
using vespalib::eval::TensorSpec;
using vespalib::eval::Value;
using vespalib::eval::ValueType;
using vespalib::eval::TypedCells;
using vespalib::MemoryUsage;
vespalib::string tensor_spec("tensor(x{})");
class MockBigTensor : public Value
{
private:
Value::UP _real_tensor;
public:
MockBigTensor(std::unique_ptr<Value> real_tensor)
: _real_tensor(std::move(real_tensor))
{}
MemoryUsage get_memory_usage() const override {
auto memuse = _real_tensor->get_memory_usage();
memuse.incUsedBytes(1000);
memuse.incAllocatedBytes(1000000);
return memuse;
}
const ValueType &type() const override { return _real_tensor->type(); }
TypedCells cells() const override { return _real_tensor->cells(); }
const Index &index() const override { return _real_tensor->index(); }
};
Value::UP
make_tensor(const TensorSpec& spec)
{
auto value = SimpleValue::from_spec(spec);
return std::make_unique<MockBigTensor>(std::move(value));
}
Value::UP
make_tensor(double value)
{
return make_tensor(TensorSpec(tensor_spec).add({{"x", "a"}}, value));
}
class DirectTensorStoreTest : public ::testing::Test {
public:
DirectTensorStore store;
DirectTensorStoreTest() : store() {}
virtual ~DirectTensorStoreTest() {
store.clearHoldLists();
}
void expect_tensor(const Value* exp, EntryRef ref) {
const auto* act = store.get_tensor_ptr(ref);
ASSERT_TRUE(act);
EXPECT_EQ(exp, act);
}
};
TEST_F(DirectTensorStoreTest, can_set_and_get_tensor)
{
auto t = make_tensor(5);
auto* exp = t.get();
auto ref = store.store_tensor(std::move(t));
expect_tensor(exp, ref);
}
TEST_F(DirectTensorStoreTest, heap_allocated_memory_is_tracked)
{
store.store_tensor(make_tensor(5));
auto mem_1 = store.getMemoryUsage();
auto ref = store.store_tensor(make_tensor(10));
auto tensor_mem_usage = store.get_tensor_ptr(ref)->get_memory_usage();
auto mem_2 = store.getMemoryUsage();
EXPECT_GT(tensor_mem_usage.usedBytes(), 500);
EXPECT_LT(tensor_mem_usage.usedBytes(), 50000);
EXPECT_GT(tensor_mem_usage.allocatedBytes(), 500000);
EXPECT_LT(tensor_mem_usage.allocatedBytes(), 50000000);
EXPECT_GE(mem_2.allocatedBytes(), mem_1.allocatedBytes() + tensor_mem_usage.allocatedBytes());
EXPECT_GT(mem_2.usedBytes(), mem_1.usedBytes() + tensor_mem_usage.allocatedBytes());
}
TEST_F(DirectTensorStoreTest, invalid_ref_returns_nullptr)
{
const auto* t = store.get_tensor_ptr(EntryRef());
EXPECT_FALSE(t);
}
TEST_F(DirectTensorStoreTest, hold_adds_entry_to_hold_list)
{
auto ref = store.store_tensor(make_tensor(5));
auto tensor_mem_usage = store.get_tensor_ptr(ref)->get_memory_usage();
auto mem_1 = store.getMemoryUsage();
store.holdTensor(ref);
auto mem_2 = store.getMemoryUsage();
EXPECT_GT(mem_2.allocatedBytesOnHold(), mem_1.allocatedBytesOnHold() + tensor_mem_usage.allocatedBytes());
}
TEST_F(DirectTensorStoreTest, move_allocates_new_entry_and_puts_old_entry_on_hold)
{
auto t = make_tensor(5);
auto* exp = t.get();
auto tensor_mem_usage = exp->get_memory_usage();
auto ref_1 = store.store_tensor(std::move(t));
auto mem_1 = store.getMemoryUsage();
auto ref_2 = store.move(ref_1);
auto mem_2 = store.getMemoryUsage();
EXPECT_NE(ref_1, ref_2);
expect_tensor(exp, ref_1);
expect_tensor(exp, ref_2);
EXPECT_GT(mem_2.allocatedBytesOnHold(), mem_1.allocatedBytesOnHold() + tensor_mem_usage.allocatedBytes());
}
GTEST_MAIN_RUN_ALL_TESTS()
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