blob: 1cc29b70add457b96255ff04b6018349e1ac70d7 [file] [log] [blame]
#pragma once
#include <hei_includes.hpp>
#include <hei_isolation_data.hpp>
namespace libhei
{
/**
* @brief This class is a complement to the main APIs. Its purpose is to store
* and maintain all of the objects necessary for isolation.
*
* The intended flow is to:
* - Create a singleton instance of an Isolator object via getSingleton().
* - Use initialize() to input each necessary Chip Data File provided by the
* user application.
* - Call isolate() to find all active errors being reported by the given list
* of chips.
* - Once isolation is no longer needed, use uninitialize() to free up
* internal resources.
*
* The purpose of the singleton instance is to avoid initializing the object
* each time isolation is required. The data provided by the Chip Data Files is
* static. So reinitializing would be a waste of time, unless for some reason
* the Chip Data Files themselves are updated, which would require
* reinitialization anyway. Of course, leaving the object in memory chews up
* resources. So, some users may need to weigh performance vs. memory usage.
*/
class Isolator
{
private: // This class cannot be instantiated. Use getSingleton() instead.
/** @brief Default constructor. */
Isolator() = default;
/** @brief Destructor. */
~Isolator()
{
// Clear out all of the internal isolation objects.
uninitialize();
}
/** @brief Copy constructor. */
Isolator( const Isolator & ) = delete;
/** @brief Assignment operator. */
Isolator & operator=( const Isolator & ) = delete;
public:
/** @brief Provides access to a singleton instance of this object. */
static Isolator & getSingleton()
{
static Isolator theIsolator;
return theIsolator;
}
/** @brief See API wrapper description in hei_main.hpp. */
ReturnCode initialize( void * i_buffer, size_t i_bufferSize,
bool i_forceInit = false );
/**
* @brief See API wrapper description in hei_main.hpp.
*
* This function is called in the destructor. Therefore, it should never
* throw an exception.
*/
void uninitialize();
/** @brief See API wrapper description in hei_main.hpp. */
ReturnCode isolate( const std::vector<Chip> & i_chipList,
IsolationData & o_isoData ) const;
private:
}; // end class Isolator
} // end namespace libhei