diff options
author | Derek Mauro <761129+derekmauro@users.noreply.github.com> | 2020-10-09 14:49:09 -0400 |
---|---|---|
committer | GitHub <noreply@github.com> | 2020-10-09 14:49:09 -0400 |
commit | bd0de71e754eb3280094e89c7ac35a14dac6d61c (patch) | |
tree | 4ad17d09d8c6e44878ad6bb3586f0d25258f4cff /absl | |
parent | b56cbdd23834a65682c0b46f367f8679e83bc894 (diff) |
Adds bounds-checking to the second range of absl container algorithms (#810)20200923.1
The APIs for the two-range `absl::c_mismatch`, `absl::c_swap_ranges`,
and `absl::c_transform` are misleading as they do not check the bounds
of the second range against the first one.
This commit cleans up ensures that buggy calls are not exploitable;
non-buggy calls are unaffected.
This is consistent with both C++14's two-range `std::` equivalents and
C++20's `std::ranges::` equivalents.
http://wg21.link/mismatch
http://wg21.link/alg.swap
http://wg21.link/alg.transform
Diffstat (limited to 'absl')
-rw-r--r-- | absl/algorithm/container.h | 74 | ||||
-rw-r--r-- | absl/algorithm/container_test.cc | 133 |
2 files changed, 168 insertions, 39 deletions
diff --git a/absl/algorithm/container.h b/absl/algorithm/container.h index 2457d78b..f0cee94f 100644 --- a/absl/algorithm/container.h +++ b/absl/algorithm/container.h @@ -340,24 +340,45 @@ container_algorithm_internal::ContainerDifferenceType<const C> c_count_if( // c_mismatch() // // Container-based version of the <algorithm> `std::mismatch()` function to -// return the first element where two ordered containers differ. +// return the first element where two ordered containers differ. Applies `==` to +// the first N elements of `c1` and `c2`, where N = min(size(c1), size(c2)). template <typename C1, typename C2> container_algorithm_internal::ContainerIterPairType<C1, C2> c_mismatch(C1& c1, C2& c2) { - return std::mismatch(container_algorithm_internal::c_begin(c1), - container_algorithm_internal::c_end(c1), - container_algorithm_internal::c_begin(c2)); + auto first1 = container_algorithm_internal::c_begin(c1); + auto last1 = container_algorithm_internal::c_end(c1); + auto first2 = container_algorithm_internal::c_begin(c2); + auto last2 = container_algorithm_internal::c_end(c2); + + for (; first1 != last1 && first2 != last2; ++first1, (void)++first2) { + // Negates equality because Cpp17EqualityComparable doesn't require clients + // to overload both `operator==` and `operator!=`. + if (!(*first1 == *first2)) { + break; + } + } + + return std::make_pair(first1, first2); } // Overload of c_mismatch() for using a predicate evaluation other than `==` as -// the function's test condition. +// the function's test condition. Applies `pred`to the first N elements of `c1` +// and `c2`, where N = min(size(c1), size(c2)). template <typename C1, typename C2, typename BinaryPredicate> container_algorithm_internal::ContainerIterPairType<C1, C2> -c_mismatch(C1& c1, C2& c2, BinaryPredicate&& pred) { - return std::mismatch(container_algorithm_internal::c_begin(c1), - container_algorithm_internal::c_end(c1), - container_algorithm_internal::c_begin(c2), - std::forward<BinaryPredicate>(pred)); +c_mismatch(C1& c1, C2& c2, BinaryPredicate pred) { + auto first1 = container_algorithm_internal::c_begin(c1); + auto last1 = container_algorithm_internal::c_end(c1); + auto first2 = container_algorithm_internal::c_begin(c2); + auto last2 = container_algorithm_internal::c_end(c2); + + for (; first1 != last1 && first2 != last2; ++first1, (void)++first2) { + if (!pred(*first1, *first2)) { + break; + } + } + + return std::make_pair(first1, first2); } // c_equal() @@ -539,12 +560,20 @@ BidirectionalIterator c_move_backward(C&& src, BidirectionalIterator dest) { // c_swap_ranges() // // Container-based version of the <algorithm> `std::swap_ranges()` function to -// swap a container's elements with another container's elements. +// swap a container's elements with another container's elements. Swaps the +// first N elements of `c1` and `c2`, where N = min(size(c1), size(c2)). template <typename C1, typename C2> container_algorithm_internal::ContainerIter<C2> c_swap_ranges(C1& c1, C2& c2) { - return std::swap_ranges(container_algorithm_internal::c_begin(c1), - container_algorithm_internal::c_end(c1), - container_algorithm_internal::c_begin(c2)); + auto first1 = container_algorithm_internal::c_begin(c1); + auto last1 = container_algorithm_internal::c_end(c1); + auto first2 = container_algorithm_internal::c_begin(c2); + auto last2 = container_algorithm_internal::c_end(c2); + + using std::swap; + for (; first1 != last1 && first2 != last2; ++first1, (void)++first2) { + swap(*first1, *first2); + } + return first2; } // c_transform() @@ -562,16 +591,23 @@ OutputIterator c_transform(const InputSequence& input, OutputIterator output, } // Overload of c_transform() for performing a transformation using a binary -// predicate. +// predicate. Applies `binary_op` to the first N elements of `c1` and `c2`, +// where N = min(size(c1), size(c2)). template <typename InputSequence1, typename InputSequence2, typename OutputIterator, typename BinaryOp> OutputIterator c_transform(const InputSequence1& input1, const InputSequence2& input2, OutputIterator output, BinaryOp&& binary_op) { - return std::transform(container_algorithm_internal::c_begin(input1), - container_algorithm_internal::c_end(input1), - container_algorithm_internal::c_begin(input2), output, - std::forward<BinaryOp>(binary_op)); + auto first1 = container_algorithm_internal::c_begin(input1); + auto last1 = container_algorithm_internal::c_end(input1); + auto first2 = container_algorithm_internal::c_begin(input2); + auto last2 = container_algorithm_internal::c_end(input2); + for (; first1 != last1 && first2 != last2; + ++first1, (void)++first2, ++output) { + *output = binary_op(*first1, *first2); + } + + return output; } // c_replace() diff --git a/absl/algorithm/container_test.cc b/absl/algorithm/container_test.cc index 0a4abe94..605afc80 100644 --- a/absl/algorithm/container_test.cc +++ b/absl/algorithm/container_test.cc @@ -57,9 +57,7 @@ class NonMutatingTest : public testing::Test { }; struct AccumulateCalls { - void operator()(int value) { - calls.push_back(value); - } + void operator()(int value) { calls.push_back(value); } std::vector<int> calls; }; @@ -68,7 +66,6 @@ bool BinPredicate(int v1, int v2) { return v1 < v2; } bool Equals(int v1, int v2) { return v1 == v2; } bool IsOdd(int x) { return x % 2 != 0; } - TEST_F(NonMutatingTest, Distance) { EXPECT_EQ(container_.size(), absl::c_distance(container_)); EXPECT_EQ(sequence_.size(), absl::c_distance(sequence_)); @@ -151,13 +148,90 @@ TEST_F(NonMutatingTest, CountIf) { } TEST_F(NonMutatingTest, Mismatch) { - absl::c_mismatch(container_, sequence_); - absl::c_mismatch(sequence_, container_); + // Testing necessary as absl::c_mismatch executes logic. + { + auto result = absl::c_mismatch(vector_, sequence_); + EXPECT_EQ(result.first, vector_.end()); + EXPECT_EQ(result.second, sequence_.end()); + } + { + auto result = absl::c_mismatch(sequence_, vector_); + EXPECT_EQ(result.first, sequence_.end()); + EXPECT_EQ(result.second, vector_.end()); + } + + sequence_.back() = 5; + { + auto result = absl::c_mismatch(vector_, sequence_); + EXPECT_EQ(result.first, std::prev(vector_.end())); + EXPECT_EQ(result.second, std::prev(sequence_.end())); + } + { + auto result = absl::c_mismatch(sequence_, vector_); + EXPECT_EQ(result.first, std::prev(sequence_.end())); + EXPECT_EQ(result.second, std::prev(vector_.end())); + } + + sequence_.pop_back(); + { + auto result = absl::c_mismatch(vector_, sequence_); + EXPECT_EQ(result.first, std::prev(vector_.end())); + EXPECT_EQ(result.second, sequence_.end()); + } + { + auto result = absl::c_mismatch(sequence_, vector_); + EXPECT_EQ(result.first, sequence_.end()); + EXPECT_EQ(result.second, std::prev(vector_.end())); + } + { + struct NoNotEquals { + constexpr bool operator==(NoNotEquals) const { return true; } + constexpr bool operator!=(NoNotEquals) const = delete; + }; + std::vector<NoNotEquals> first; + std::list<NoNotEquals> second; + + // Check this still compiles. + absl::c_mismatch(first, second); + } } TEST_F(NonMutatingTest, MismatchWithPredicate) { - absl::c_mismatch(container_, sequence_, BinPredicate); - absl::c_mismatch(sequence_, container_, BinPredicate); + // Testing necessary as absl::c_mismatch executes logic. + { + auto result = absl::c_mismatch(vector_, sequence_, BinPredicate); + EXPECT_EQ(result.first, vector_.begin()); + EXPECT_EQ(result.second, sequence_.begin()); + } + { + auto result = absl::c_mismatch(sequence_, vector_, BinPredicate); + EXPECT_EQ(result.first, sequence_.begin()); + EXPECT_EQ(result.second, vector_.begin()); + } + + sequence_.front() = 0; + { + auto result = absl::c_mismatch(vector_, sequence_, BinPredicate); + EXPECT_EQ(result.first, vector_.begin()); + EXPECT_EQ(result.second, sequence_.begin()); + } + { + auto result = absl::c_mismatch(sequence_, vector_, BinPredicate); + EXPECT_EQ(result.first, std::next(sequence_.begin())); + EXPECT_EQ(result.second, std::next(vector_.begin())); + } + + sequence_.clear(); + { + auto result = absl::c_mismatch(vector_, sequence_, BinPredicate); + EXPECT_EQ(result.first, vector_.begin()); + EXPECT_EQ(result.second, sequence_.end()); + } + { + auto result = absl::c_mismatch(sequence_, vector_, BinPredicate); + EXPECT_EQ(result.first, sequence_.end()); + EXPECT_EQ(result.second, vector_.begin()); + } } TEST_F(NonMutatingTest, Equal) { @@ -519,11 +593,9 @@ TEST_F(SortingTest, IsSortedUntil) { TEST_F(SortingTest, NthElement) { std::vector<int> unsorted = {2, 4, 1, 3}; absl::c_nth_element(unsorted, unsorted.begin() + 2); - EXPECT_THAT(unsorted, - ElementsAre(Lt(3), Lt(3), 3, Gt(3))); + EXPECT_THAT(unsorted, ElementsAre(Lt(3), Lt(3), 3, Gt(3))); absl::c_nth_element(unsorted, unsorted.begin() + 2, std::greater<int>()); - EXPECT_THAT(unsorted, - ElementsAre(Gt(2), Gt(2), 2, Lt(2))); + EXPECT_THAT(unsorted, ElementsAre(Gt(2), Gt(2), 2, Lt(2))); } TEST(MutatingTest, IsPartitioned) { @@ -676,6 +748,15 @@ TEST(MutatingTest, SwapRanges) { absl::c_swap_ranges(odds, evens); EXPECT_THAT(odds, ElementsAre(1, 3, 5)); EXPECT_THAT(evens, ElementsAre(2, 4, 6)); + + odds.pop_back(); + absl::c_swap_ranges(odds, evens); + EXPECT_THAT(odds, ElementsAre(2, 4)); + EXPECT_THAT(evens, ElementsAre(1, 3, 6)); + + absl::c_swap_ranges(evens, odds); + EXPECT_THAT(odds, ElementsAre(1, 3)); + EXPECT_THAT(evens, ElementsAre(2, 4, 6)); } TEST_F(NonMutatingTest, Transform) { @@ -690,6 +771,20 @@ TEST_F(NonMutatingTest, Transform) { EXPECT_EQ(std::vector<int>({1, 5, 4}), z); *end = 7; EXPECT_EQ(std::vector<int>({1, 5, 4, 7}), z); + + z.clear(); + y.pop_back(); + end = absl::c_transform(x, y, std::back_inserter(z), std::plus<int>()); + EXPECT_EQ(std::vector<int>({1, 5}), z); + *end = 7; + EXPECT_EQ(std::vector<int>({1, 5, 7}), z); + + z.clear(); + std::swap(x, y); + end = absl::c_transform(x, y, std::back_inserter(z), std::plus<int>()); + EXPECT_EQ(std::vector<int>({1, 5}), z); + *end = 7; + EXPECT_EQ(std::vector<int>({1, 5, 7}), z); } TEST(MutatingTest, Replace) { @@ -755,10 +850,9 @@ MATCHER_P2(IsElement, key, value, "") { TEST(MutatingTest, StableSort) { std::vector<Element> test_vector = {{1, 1}, {2, 1}, {2, 0}, {1, 0}, {2, 2}}; absl::c_stable_sort(test_vector); - EXPECT_THAT( - test_vector, - ElementsAre(IsElement(1, 1), IsElement(1, 0), IsElement(2, 1), - IsElement(2, 0), IsElement(2, 2))); + EXPECT_THAT(test_vector, + ElementsAre(IsElement(1, 1), IsElement(1, 0), IsElement(2, 1), + IsElement(2, 0), IsElement(2, 2))); } TEST(MutatingTest, StableSortWithPredicate) { @@ -766,10 +860,9 @@ TEST(MutatingTest, StableSortWithPredicate) { absl::c_stable_sort(test_vector, [](const Element& e1, const Element& e2) { return e2 < e1; }); - EXPECT_THAT( - test_vector, - ElementsAre(IsElement(2, 1), IsElement(2, 0), IsElement(2, 2), - IsElement(1, 1), IsElement(1, 0))); + EXPECT_THAT(test_vector, + ElementsAre(IsElement(2, 1), IsElement(2, 0), IsElement(2, 2), + IsElement(1, 1), IsElement(1, 0))); } TEST(MutatingTest, ReplaceCopyIf) { |