vtnerd review comments

This commit is contained in:
koe 2022-12-24 19:15:27 -06:00
parent c60b11f3da
commit e5aa058a8d

View File

@ -36,10 +36,8 @@
//standard headers
#include <algorithm>
#include <functional>
#include <unordered_map>
#include <utility>
#include <vector>
//forward declarations
@ -49,23 +47,50 @@ namespace tools
/// convert a binary comparison function to a functor
template <typename T, typename ComparisonOpT = bool(const T &a, const T &b)>
inline auto compare_func(const ComparisonOpT &comparison_function)
inline auto compare_func(ComparisonOpT comparison_op_func)
{
return [&comparison_function](const T &a, const T &b) -> bool { return comparison_function(a, b); };
static_assert(
std::is_same<
bool,
decltype(
comparison_op_func(
std::declval<std::remove_cv_t<T>>(),
std::declval<std::remove_cv_t<T>>()
)
)
>::value,
"invalid callable - expected callable in form bool(T, T)"
);
return [func = std::move(comparison_op_func)] (const T &a, const T &b) -> bool { return func(a, b); };
}
/// test if a container is sorted and unique according to a comparison criteria (defaults to operator<)
/// NOTE: ComparisonOpT must establish 'strict weak ordering' https://en.cppreference.com/w/cpp/named_req/Compare
template <typename T, typename ComparisonOpT = std::less<typename T::value_type>>
bool is_sorted_and_unique(const T &container, const ComparisonOpT &ComparisonOp = ComparisonOpT{})
bool is_sorted_and_unique(const T &container, ComparisonOpT comparison_op = ComparisonOpT{})
{
if (!std::is_sorted(container.begin(), container.end(), ComparisonOp))
using ValueT = typename T::value_type;
static_assert(
std::is_same<
bool,
decltype(
comparison_op(
std::declval<std::remove_cv_t<ValueT>>(),
std::declval<std::remove_cv_t<ValueT>>()
)
)
>::value,
"invalid callable - expected callable in form bool(ValueT, ValueT)"
);
if (!std::is_sorted(container.begin(), container.end(), comparison_op))
return false;
if (std::adjacent_find(container.begin(),
container.end(),
[&ComparisonOp](const typename T::value_type &a, const typename T::value_type &b) -> bool
[comparison_op](const ValueT &a, const ValueT &b) -> bool
{
return !ComparisonOp(a, b) && !ComparisonOp(b, a);
return !comparison_op(a, b) && !comparison_op(b, a);
})
!= container.end())
return false;
@ -75,20 +100,28 @@ bool is_sorted_and_unique(const T &container, const ComparisonOpT &ComparisonOp
/// specialization for raw function pointers
template <typename T>
bool is_sorted_and_unique(const T &container,
bool (*const ComparisonOpFunc)(const typename T::value_type &a, const typename T::value_type &b))
bool (*const comparison_op_func)(const typename T::value_type &a, const typename T::value_type &b))
{
return is_sorted_and_unique(container, compare_func<typename T::value_type>(ComparisonOpFunc));
return is_sorted_and_unique(container, compare_func<typename T::value_type>(comparison_op_func));
}
/// convenience wrapper for checking if a mapped object is mapped to a key embedded in that object
/// example: std::unorderd_map<rct::key, std::pair<rct::key, rct::xmr_amount>> where the map key is supposed to
/// reproduce the pair's rct::key; use the predicate to get the pair's rct::key element
template <typename KeyT, typename ValueT>
bool keys_match_internal_values(const std::unordered_map<KeyT, ValueT> &map,
const std::function<
const typename std::unordered_map<KeyT, ValueT>::key_type&
(const typename std::unordered_map<KeyT, ValueT>::mapped_type&)
> &get_internal_key_func)
template <typename KeyT, typename ValueT, typename PredT>
bool keys_match_internal_values(const std::unordered_map<KeyT, ValueT> &map, PredT get_internal_key_func)
{
static_assert(
std::is_same<
std::remove_cv_t<std::remove_reference_t<
KeyT
>>,
std::remove_cv_t<std::remove_reference_t<
decltype(get_internal_key_func(std::declval<std::remove_cv_t<std::remove_reference_t<ValueT>>>()))
>>
>::value,
"invalid callable - expected callable in form Key(Value)"
);
for (const auto &map_element : map)
{
if (!(map_element.first == get_internal_key_func(map_element.second)))
@ -105,10 +138,18 @@ typename ContainerT::value_type& add_element(ContainerT &container)
return container.back();
}
/// convenience erasor for unordered maps: std::erase_if(std::unordered_map) is C++20
template <typename KeyT, typename ValueT>
void for_all_in_map_erase_if(std::unordered_map<KeyT, ValueT> &map_inout,
const std::function<bool(const typename std::unordered_map<KeyT, ValueT>::value_type&)> &predicate)
template <typename KeyT, typename ValueT, typename PredT>
void for_all_in_map_erase_if(std::unordered_map<KeyT, ValueT> &map_inout, PredT predicate)
{
using MapValueT = typename std::unordered_map<KeyT, ValueT>::value_type;
static_assert(
std::is_same<
bool,
decltype(predicate(std::declval<std::remove_cv_t<std::remove_reference_t<MapValueT>>>()))
>::value,
"invalid callable - expected callable in form bool(Value)"
);
for (auto map_it = map_inout.begin(); map_it != map_inout.end();)
{
if (predicate(*map_it))