utils.hpp - openbmc/phosphor-inventory-manager - Gitiles

 #pragma once

 #include <sdbusplus/message/native_types.hpp>

 #include <cstring>
 #include <stdexcept>
 #include <string>
 #include <type_traits>
 #include <utility>

 namespace phosphor
 {
 namespace inventory
 {
 namespace manager
 {
 /** @struct MakeVariantVisitor
  *  @brief Return a variant if the visited type is a possible variant type.
  *
  *  @tparam V - The desired variant type.
  */
 template <typename V>
 struct MakeVariantVisitor
 {
     /** @struct Make
      *  @brief Return variant visitor.
      *
      *  @tparam T - The variant type to return.
      *  @tparam Arg - The type being visited in the source variant.
      *  @tparam Enable - Overload resolution removal.
      */
     template <typename T, typename Arg, typename Enable = void>
     struct Make
     {
         static auto make(Arg&& /* arg */)
         {
             throw std::runtime_error(
                 std::string("Invalid conversion in MakeVariantVisitor::") +
                 __PRETTY_FUNCTION__);
             return T();
         }
     };

     /** @struct Make
      *  @brief Return variant visitor.
      *
      *  struct Make specialization if Arg is in T (int -> variant<int, char>).
      */
     template <typename T, typename Arg>
     struct Make<T, Arg,
                 typename std::enable_if_t<std::is_convertible_v<Arg, T>>>
     {
         static auto make(Arg&& arg)
         {
             return T(std::forward<Arg>(arg));
         }
     };

     /** @struct Make
      *  @brief Return variant visitor.
      *
      *  struct Make specialization if Arg is a string, but not otherwise
      *  directly convertable by C++ conversion constructors.  Strings might
      *  be convertable using underlying sdbusplus routines, so give them an
      *  attempt.
      */
     template <typename T, typename Arg>
     struct Make<
         T, Arg,
         typename std::enable_if_t<
             !std::is_convertible_v<Arg, T> &&
             std::is_same_v<std::string,
                            std::remove_cv_t<std::remove_reference_t<Arg>>> &&
             sdbusplus::message::has_convert_from_string_v<T>>>
     {
         static auto make(Arg&& arg) -> T
         {
             auto r = sdbusplus::message::convert_from_string<T>(
                 std::forward<Arg>(arg));
             if (r)
             {
                 return *r;
             }

             throw std::runtime_error(
                 std::string("Invalid conversion in MakeVariantVisitor::") +
                 __PRETTY_FUNCTION__);

             return {};
         }
     };

     /** @brief Make variant visitor.  */
     template <typename Arg>
     auto operator()(Arg&& arg) const
     {
         return Make<V, Arg>::make(arg);
     }
 };

 /** @brief Convert variants with different contained types.
  *
  *  @tparam V - The desired variant type.
  *  @tparam Arg - The source variant type.
  *
  *  @param[in] v - The source variant.
  *  @returns - The converted variant.
  */
 template <typename V, typename Arg>
 auto convertVariant(Arg&& v)
 {
     return std::visit(MakeVariantVisitor<V>(), v);
 }

 /** @struct CompareFirst
  *  @brief std::pair binary comparison adapter.
  *
  *  Adapt a binary comparison function to a comparison of
  *  the first pair element.
  *
  *  @tparam Compare - The function object type being adapted.
  */
 template <typename Compare>
 struct CompareFirst
 {
     /** @brief Construct a CompareFirst adapter.
      *
      *  @param[in] c - The function object being adapted.
      */
     explicit CompareFirst(Compare&& c) : compare(std::forward<Compare>(c))
     {}

     /** @brief Compare two pairs adapter.
      *
      *  @tparam L1 - First pair first_type.
      *  @tparam L2 - First pair second_type.
      *  @tparam R1 - Second pair first_type, convertible to L1.
      *  @tparam R2 - Second pair second_type.
      *
      *  @param[in] l - The first pair.
      *  @param[in] r - The second pair.
      *
      *  @returns - The result of the comparison.
      */
     template <typename L1, typename L2, typename R1, typename R2>
     bool operator()(const std::pair<L1, L2>& l,
                     const std::pair<R1, R2>& r) const
     {
         return compare(l.first, r.first);
     }

     /** @brief Compare one pair adapter.
      *
      *  @tparam L1 - Pair first_type.
      *  @tparam L2 - Pair second_type.
      *  @tparam R - Convertible to L1 for comparison.
      *
      *  @param[in] l - The pair.
      *  @param[in] r - To be compared to l.first.
      *
      *  @returns - The result of the comparison.
      */
     template <typename L1, typename L2, typename R>
     bool operator()(const std::pair<L1, L2>& l, const R& r) const
     {
         return compare(l.first, r);
     }

     /** @brief Compare one pair adapter.
      *
      *  @tparam L - Convertible to R1 for comparison.
      *  @tparam R1 - Pair first_type.
      *  @tparam R2 - Pair second_type.
      *
      *  @param[in] l - To be compared to r.first.
      *  @param[in] r - The pair.
      *
      *  @returns - The result of the comparison.
      */
     template <typename L, typename R1, typename R2>
     bool operator()(const L& l, const std::pair<R1, R2>& r) const
     {
         return compare(l, r.first);
     }

     /* @brief The function being adapted. */
     Compare compare;
 };

 /* @brief Implicit template instantation wrapper for CompareFirst. */
 template <typename Compare>
 CompareFirst<Compare> compareFirst(Compare&& c)
 {
     return CompareFirst<Compare>(std::forward<Compare>(c));
 }

 /** @struct RelPathCompare
  *  @brief Compare two strings after removing an optional prefix.
  */
 struct RelPathCompare
 {
     /** @brief Construct a RelPathCompare comparison functor.
      *
      *  @param[in] p - The prefix to check for and remove.
      */
     explicit RelPathCompare(const char* p) : prefix(p)
     {}

     /** @brief Check for the prefix and remove if found.
      *
      *  @param[in] s - The string to check for and remove prefix from.
      */
     auto relPath(const std::string& s) const
     {
         if (s.find(prefix) == 0)
         {
             return s.substr(strlen(prefix));
         }

         return s;
     }

     /** @brief Comparison method.
      *
      *  @param[in] l - The first string.
      *  @param[in] r - The second string.
      *
      *  @returns - The result of the comparison.
      */
     bool operator()(const std::string& l, const std::string& r) const
     {
         return relPath(l) < relPath(r);
     }

     /* The path prefix to remove when comparing two paths. */
     const char* prefix;
 };
 } // namespace manager
 } // namespace inventory
 } // namespace phosphor

 // vim: tabstop=8 expandtab shiftwidth=4 softtabstop=4
	#pragma once

	#include <sdbusplus/message/native_types.hpp>

	#include <cstring>
	#include <stdexcept>
	#include <string>
	#include <type_traits>
	#include <utility>

	namespace phosphor
	{
	namespace inventory
	{
	namespace manager
	{
	/** @struct MakeVariantVisitor
	* @brief Return a variant if the visited type is a possible variant type.
	*
	* @tparam V - The desired variant type.
	*/
	template <typename V>
	struct MakeVariantVisitor
	{
	/** @struct Make
	* @brief Return variant visitor.
	*
	* @tparam T - The variant type to return.
	* @tparam Arg - The type being visited in the source variant.
	* @tparam Enable - Overload resolution removal.
	*/
	template <typename T, typename Arg, typename Enable = void>
	struct Make
	{
	static auto make(Arg&& /* arg */)
	{
	throw std::runtime_error(
	std::string("Invalid conversion in MakeVariantVisitor::") +
	__PRETTY_FUNCTION__);
	return T();
	}
	};

	/** @struct Make
	* @brief Return variant visitor.
	*
	* struct Make specialization if Arg is in T (int -> variant<int, char>).
	*/
	template <typename T, typename Arg>
	struct Make<T, Arg,
	typename std::enable_if_t<std::is_convertible_v<Arg, T>>>
	{
	static auto make(Arg&& arg)
	{
	return T(std::forward<Arg>(arg));
	}
	};

	/** @struct Make
	* @brief Return variant visitor.
	*
	* struct Make specialization if Arg is a string, but not otherwise
	* directly convertable by C++ conversion constructors. Strings might
	* be convertable using underlying sdbusplus routines, so give them an
	* attempt.
	*/
	template <typename T, typename Arg>
	struct Make<
	T, Arg,
	typename std::enable_if_t<
	!std::is_convertible_v<Arg, T> &&
	std::is_same_v<std::string,
	std::remove_cv_t<std::remove_reference_t<Arg>>> &&
	sdbusplus::message::has_convert_from_string_v<T>>>
	{
	static auto make(Arg&& arg) -> T
	{
	auto r = sdbusplus::message::convert_from_string<T>(
	std::forward<Arg>(arg));
	if (r)
	{
	return *r;
	}

	throw std::runtime_error(
	std::string("Invalid conversion in MakeVariantVisitor::") +
	__PRETTY_FUNCTION__);

	return {};
	}
	};

	/** @brief Make variant visitor. */
	template <typename Arg>
	auto operator()(Arg&& arg) const
	{
	return Make<V, Arg>::make(arg);
	}
	};

	/** @brief Convert variants with different contained types.
	*
	* @tparam V - The desired variant type.
	* @tparam Arg - The source variant type.
	*
	* @param[in] v - The source variant.
	* @returns - The converted variant.
	*/
	template <typename V, typename Arg>
	auto convertVariant(Arg&& v)
	{
	return std::visit(MakeVariantVisitor<V>(), v);
	}

	/** @struct CompareFirst
	* @brief std::pair binary comparison adapter.
	*
	* Adapt a binary comparison function to a comparison of
	* the first pair element.
	*
	* @tparam Compare - The function object type being adapted.
	*/
	template <typename Compare>
	struct CompareFirst
	{
	/** @brief Construct a CompareFirst adapter.
	*
	* @param[in] c - The function object being adapted.
	*/
	explicit CompareFirst(Compare&& c) : compare(std::forward<Compare>(c))
	{}

	/** @brief Compare two pairs adapter.
	*
	* @tparam L1 - First pair first_type.
	* @tparam L2 - First pair second_type.
	* @tparam R1 - Second pair first_type, convertible to L1.
	* @tparam R2 - Second pair second_type.
	*
	* @param[in] l - The first pair.
	* @param[in] r - The second pair.
	*
	* @returns - The result of the comparison.
	*/
	template <typename L1, typename L2, typename R1, typename R2>
	bool operator()(const std::pair<L1, L2>& l,
	const std::pair<R1, R2>& r) const
	{
	return compare(l.first, r.first);
	}

	/** @brief Compare one pair adapter.
	*
	* @tparam L1 - Pair first_type.
	* @tparam L2 - Pair second_type.
	* @tparam R - Convertible to L1 for comparison.
	*
	* @param[in] l - The pair.
	* @param[in] r - To be compared to l.first.
	*
	* @returns - The result of the comparison.
	*/
	template <typename L1, typename L2, typename R>
	bool operator()(const std::pair<L1, L2>& l, const R& r) const
	{
	return compare(l.first, r);
	}

	/** @brief Compare one pair adapter.
	*
	* @tparam L - Convertible to R1 for comparison.
	* @tparam R1 - Pair first_type.
	* @tparam R2 - Pair second_type.
	*
	* @param[in] l - To be compared to r.first.
	* @param[in] r - The pair.
	*
	* @returns - The result of the comparison.
	*/
	template <typename L, typename R1, typename R2>
	bool operator()(const L& l, const std::pair<R1, R2>& r) const
	{
	return compare(l, r.first);
	}

	/* @brief The function being adapted. */
	Compare compare;
	};

	/* @brief Implicit template instantation wrapper for CompareFirst. */
	template <typename Compare>
	CompareFirst<Compare> compareFirst(Compare&& c)
	{
	return CompareFirst<Compare>(std::forward<Compare>(c));
	}

	/** @struct RelPathCompare
	* @brief Compare two strings after removing an optional prefix.
	*/
	struct RelPathCompare
	{
	/** @brief Construct a RelPathCompare comparison functor.
	*
	* @param[in] p - The prefix to check for and remove.
	*/
	explicit RelPathCompare(const char* p) : prefix(p)
	{}

	/** @brief Check for the prefix and remove if found.
	*
	* @param[in] s - The string to check for and remove prefix from.
	*/
	auto relPath(const std::string& s) const
	{
	if (s.find(prefix) == 0)
	{
	return s.substr(strlen(prefix));
	}

	return s;
	}

	/** @brief Comparison method.
	*
	* @param[in] l - The first string.
	* @param[in] r - The second string.
	*
	* @returns - The result of the comparison.
	*/
	bool operator()(const std::string& l, const std::string& r) const
	{
	return relPath(l) < relPath(r);
	}

	/* The path prefix to remove when comparing two paths. */
	const char* prefix;
	};
	} // namespace manager
	} // namespace inventory
	} // namespace phosphor

	// vim: tabstop=8 expandtab shiftwidth=4 softtabstop=4