windows-nt/Source/XPSP1/NT/ds/security/csps/cryptoflex/slbcsp/procedural.h

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2020-09-26 03:20:57 -05:00
// Procedural.h -- Procedural binder and adapter template classes
// (c) Copyright Schlumberger Technology Corp., unpublished work, created
// 1999. This computer program includes Confidential, Proprietary
// Information and is a Trade Secret of Schlumberger Technology Corp. All
// use, disclosure, and/or reproduction is prohibited unless authorized
// in writing. All Rights Reserved.
#if !defined(SLBCSP_PROCEDURAL_H)
#define SLBCSP_PROCEDURAL_H
#include <functional>
// Template classes that support composition of procedure objects
// (proctors). Proctors are like functors (function objects) but
// don't return a value (void). The template classes defined here
// follow C++ member function binders and adapters.
/////////////////////////// BINDERS /////////////////////////////////
template<class Arg>
struct UnaryProcedure
: public std::unary_function<Arg, void>
{};
template<class Arg1, class Arg2>
struct BinaryProcedure
: public std::binary_function<Arg1, Arg2, void>
{};
template<class BinaryProc>
class ProcedureBinder2nd
: public UnaryProcedure<BinaryProc::first_argument_type>
{
public:
ProcedureBinder2nd(BinaryProc const &rproc,
BinaryProc::second_argument_type const &rarg)
: m_proc(rproc),
m_arg2(rarg)
{}
void
operator()(argument_type const &arg1) const
{
m_proc(arg1, m_arg2);
}
protected:
BinaryProc m_proc;
BinaryProc::second_argument_type m_arg2;
};
template<class BinaryProc, class T>
ProcedureBinder2nd<BinaryProc>
ProcedureBind2nd(BinaryProc const &rProc, T const &rv)
{
return ProcedureBinder2nd<BinaryProc>(rProc, BinaryProc::second_argument_type(rv));
};
//////////////////// MEMBER PROCEDURE ADAPTERS //////////////////////////
template<class T>
class MemberProcedureType
: public UnaryProcedure<T *>
{
public:
// Types
// C'tors/D'tors
explicit
MemberProcedureType(void (T::* p)())
: m_pmp(p)
{}
// Operators
void
operator()(T *p) const
{
(p->*m_pmp)();
}
// Operations
// Access
// Predicates
protected:
// Types
// C'tors/D'tors
// Operators
// Operations
// Access
// Predicates
// Variables
private:
// Types
// C'tors/D'tors
// Operators
// Operations
// Access
// Predicates
// Variables
void (T::* m_pmp)();
};
template<class T>
MemberProcedureType<T>
MemberProcedure(void (T::* p)())
{
return MemberProcedureType<T>(p);
};
//////////////////// POINTER TO PROCEDURE ADAPTERS ///////////////////////
template<class T1, class T2>
class PointerToBinaryProcedure
: public BinaryProcedure<T1, T2>
{
public:
// Types
// C'tors/D'tors
explicit
PointerToBinaryProcedure(void (*p)(T1, T2))
: m_p(p)
{}
// Operators
void
operator()(T1 arg1,
T2 arg2) const
{
m_p(arg1, arg2);
}
// Operations
// Access
// Predicates
protected:
// Types
// C'tors/D'tors
// Operators
// Operations
// Access
// Predicates
// Variables
void (*m_p)(T1, T2);
private:
// Types
// C'tors/D'tors
// Operators
// Operations
// Access
// Predicates
// Variables
};
template<class T1, class T2>
PointerToBinaryProcedure<T1, T2>
PointerProcedure(void (*p)(T1, T2))
{
return PointerToBinaryProcedure<T1, T2>(p);
};
template<class T>
class PointerToUnaryProcedure
: public UnaryProcedure<T>
{
public:
// Types
// C'tors/D'tors
explicit
PointerToUnaryProcedure(void (*p)(T))
: m_p(p)
{}
// Operators
void
operator()(T arg) const
{
m_p(arg);
}
// Operations
// Access
// Predicates
protected:
// Types
// C'tors/D'tors
// Operators
// Operations
// Access
// Predicates
// Variables
void (*m_p)(T);
private:
// Types
// C'tors/D'tors
// Operators
// Operations
// Access
// Predicates
// Variables
};
template<class T>
PointerToUnaryProcedure<T>
PointerProcedure(void (*p)(T))
{
return PointerToUnaryProcedure<T>(p);
}
#endif // SLBCSP_PROCEDURAL_H