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test_bitfield.cc
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test_bitfield.cc
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/*!
* Copyright 2019 XGBoost contributors
*/
#include <gtest/gtest.h>
#include "../../../src/common/bitfield.h"
namespace xgboost {
TEST(BitField, Check) {
{
std::vector<LBitField64::value_type> storage(4, 0);
storage[2] = 2;
auto bits = LBitField64({storage.data(),
static_cast<typename common::Span<LBitField64::value_type>::index_type>(
storage.size())});
size_t true_bit = 190;
for (size_t i = true_bit + 1; i < bits.Size(); ++i) {
ASSERT_FALSE(bits.Check(i));
}
ASSERT_TRUE(bits.Check(true_bit));
for (size_t i = 0; i < true_bit; ++i) {
ASSERT_FALSE(bits.Check(i));
}
}
{
std::vector<RBitField8::value_type> storage(4, 0);
storage[2] = 1 << 3;
auto bits = RBitField8({storage.data(),
static_cast<typename common::Span<RBitField8::value_type>::index_type>(
storage.size())});
size_t true_bit = 19;
for (size_t i = 0; i < true_bit; ++i) {
ASSERT_FALSE(bits.Check(i));
}
ASSERT_TRUE(bits.Check(true_bit));
for (size_t i = true_bit + 1; i < bits.Size(); ++i) {
ASSERT_FALSE(bits.Check(i));
}
}
{
// regression test for correct index type.
std::vector<RBitField8::value_type> storage(33, 0);
storage[32] = static_cast<uint8_t>(1);
auto bits = RBitField8({storage.data(), storage.size()});
ASSERT_TRUE(bits.Check(256));
}
}
template <typename BitFieldT, typename VT = typename BitFieldT::value_type>
void TestBitFieldSet(typename BitFieldT::value_type res, size_t index, size_t true_bit) {
using IndexT = typename common::Span<VT>::index_type;
std::vector<VT> storage(4, 0);
auto bits = BitFieldT({storage.data(), static_cast<IndexT>(storage.size())});
bits.Set(true_bit);
for (size_t i = 0; i < true_bit; ++i) {
ASSERT_FALSE(bits.Check(i));
}
ASSERT_TRUE(bits.Check(true_bit));
for (size_t i = true_bit + 1; i < storage.size() * BitFieldT::kValueSize; ++i) {
ASSERT_FALSE(bits.Check(i));
}
ASSERT_EQ(storage[index], res);
}
TEST(BitField, Set) {
{
TestBitFieldSet<LBitField64>(2, 2, 190);
}
{
TestBitFieldSet<RBitField8>(1 << 3, 2, 19);
}
}
template <typename BitFieldT, typename VT = typename BitFieldT::value_type>
void TestBitFieldClear(size_t clear_bit) {
using IndexT = typename common::Span<VT>::index_type;
std::vector<VT> storage(4, 0);
auto bits = BitFieldT({storage.data(), static_cast<IndexT>(storage.size())});
bits.Set(clear_bit);
bits.Clear(clear_bit);
ASSERT_FALSE(bits.Check(clear_bit));
}
TEST(BitField, Clear) {
{
TestBitFieldClear<LBitField64>(190);
}
{
TestBitFieldClear<RBitField8>(19);
}
}
} // namespace xgboost