Ram Gandikota
FRDM K64F Metronome
mbed-client/mbed-client-mbed-tls/test/mbed-client-mbed-tls/unittest/common/FunctionPointer.h
- Committer:
- ram54288
- Date:
- 2017-05-14
- Revision:
- 0:dbad57390bd1
File content as of revision 0:dbad57390bd1:
/* mbed Microcontroller Library
* Copyright (c) 2006-2015 ARM Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef MBED_FUNCTIONPOINTER_H
#define MBED_FUNCTIONPOINTER_H
#include <string.h>
#include <stdint.h>
#include <stddef.h>
#include <stdarg.h>
#include <new>
#include "FunctionPointerBase.h"
#include "FunctionPointerBind.h"
namespace mbed {
/** A class for storing and calling a pointer to a static or member void function without arguments
*/
template <typename R>
class FunctionPointer0 : public FunctionPointerBase<R>{
public:
typedef R(*static_fp)(void);
typedef struct arg_struct{
} ArgStruct;
/** Create a FunctionPointer, attaching a static function
*
* @param function The void static function to attach (default is none)
*/
FunctionPointer0(static_fp function = 0):
FunctionPointerBase<R>()
{
attach(function);
}
/** Create a FunctionPointer, attaching a member function
*
* @param object The object pointer to invoke the member function on (i.e. the this pointer)
* @param function The address of the void member function to attach
*/
template<typename T>
FunctionPointer0(T *object, R (T::*member)(void)):
FunctionPointerBase<R>()
{
attach(object, member);
}
/** Attach a static function
*
* @param function The void static function to attach (default is none)
*/
void attach(static_fp function) {
FunctionPointerBase<R>::_object = reinterpret_cast<void*>(function);
FunctionPointerBase<R>::_membercaller = &FunctionPointer0::staticcaller;
}
/** Attach a member function
*
* @param object The object pointer to invoke the member function on (i.e. the this pointer)
* @param function The address of the void member function to attach
*/
template<typename T>
void attach(T *object, R (T::*member)(void)) {
FunctionPointerBase<R>::_object = static_cast<void*>(object);
*reinterpret_cast<R (T::**)(void)>(FunctionPointerBase<R>::_member) = member;
FunctionPointerBase<R>::_membercaller = &FunctionPointer0::membercaller<T>;
}
/** Call the attached static or member function
*/
R call(){
return FunctionPointerBase<R>::call(NULL);
}
FunctionPointerBind<R> bind() {
FunctionPointerBind<R> fp;
fp.bind(&FunctionPointerBase<R>::_nullops, (ArgStruct *) NULL, this);
return fp;
}
static_fp get_function()const {
return reinterpret_cast<static_fp>(FunctionPointerBase<R>::_object);
}
R operator ()(void) {
return call();
}
private:
template<typename T>
static R membercaller(void *object, uintptr_t *member, void *arg) {
(void) arg;
T* o = static_cast<T*>(object);
R (T::**m)(void) = reinterpret_cast<R (T::**)(void)>(member);
return (o->**m)();
}
static R staticcaller(void *object, uintptr_t *member, void *arg) {
(void) arg;
(void) member;
static_fp f = reinterpret_cast<static_fp>(object);
return f();
}
};
/* If we had variaditic templates, this wouldn't be a problem, but until C++11 is enabled, we are stuck with multiple classes... */
/** A class for storing and calling a pointer to a static or member void function with one argument
*/
template <typename R, typename A1>
class FunctionPointer1 : public FunctionPointerBase<R> {
protected:
typedef struct arg_struct{
A1 a1;
arg_struct(const A1 *b1) {
a1 = *b1;
}
} ArgStruct;
public:
typedef R(*static_fp)(A1);
/** Create a FunctionPointer, attaching a static function
*
* @param function The void static function to attach (default is none)
*/
FunctionPointer1(static_fp function = 0) {
attach(function);
}
/** Create a FunctionPointer, attaching a member function
*
* @param object The object pointer to invoke the member function on (i.e. the this pointer)
* @param function The address of the void member function to attach
*/
template<typename T>
FunctionPointer1(T *object, R (T::*member)(A1)) {
attach(object, member);
}
/** Attach a static function
*
* @param function The void static function to attach (default is none)
*/
void attach(static_fp function) {
FunctionPointerBase<R>::_object = reinterpret_cast<void*>(function);
FunctionPointerBase<R>::_membercaller = &FunctionPointer1::staticcaller;
}
/** Attach a member function
*
* @param object The object pointer to invoke the member function on (i.e. the this pointer)
* @param function The address of the void member function to attach
*/
template<typename T>
void attach(T *object, R (T::*member)(A1))
{
FunctionPointerBase<R>::_object = static_cast<void*>(object);
*reinterpret_cast<R (T::**)(A1)>(FunctionPointerBase<R>::_member) = member;
FunctionPointerBase<R>::_membercaller = &FunctionPointer1::membercaller<T>;
}
FunctionPointerBind<R> bind(const A1 &a1) {
FunctionPointerBind<R> fp;
fp.bind(&_fp1_ops, (ArgStruct *) NULL, this, &a1);
return fp;
}
/** Call the attached static or member function
*/
R call(A1 a1)
{
ArgStruct Args(&a1);
return FunctionPointerBase<R>::call(&Args);
}
static_fp get_function()const
{
return reinterpret_cast<static_fp>(FunctionPointerBase<R>::_object);
}
R operator ()(A1 a) {
return call(a);
}
private:
template<typename T>
static R membercaller(void *object, uintptr_t *member, void *arg) {
ArgStruct *Args = static_cast<ArgStruct *>(arg);
T* o = static_cast<T*>(object);
R (T::**m)(A1) = reinterpret_cast<R (T::**)(A1)>(member);
return (o->**m)(Args->a1);
}
static R staticcaller(void *object, uintptr_t *member, void *arg) {
ArgStruct *Args = static_cast<ArgStruct *>(arg);
(void) member;
static_fp f = reinterpret_cast<static_fp>(object);
return f(Args->a1);
}
/* static void constructor(void * dest, va_list args) {
new(dest) ArgStruct(va_arg(args,A1*));
}
static void copy_constructor(void *dest , void* src) {
ArgStruct *src_args = static_cast<ArgStruct *>(src);
new(dest) ArgStruct(&(src_args->a1));
}
static void destructor(void *args) {
ArgStruct *argstruct = static_cast<ArgStruct *>(args);
argstruct->~arg_struct();
}
*/
protected:
static const struct FunctionPointerBase<R>::ArgOps _fp1_ops;
};
template <typename R, typename A1>
const struct FunctionPointerBase<R>::ArgOps FunctionPointer1<R,A1>::_fp1_ops = {
FunctionPointer1<R,A1>::constructor,
FunctionPointer1<R,A1>::copy_constructor,
FunctionPointer1<R,A1>::destructor
};
/** A class for storing and calling a pointer to a static or member void function with two arguments
*/
template <typename R, typename A1, typename A2>
class FunctionPointer2 : public FunctionPointerBase<R> {
protected:
typedef struct arg_struct{
A1 a1;
A2 a2;
arg_struct(const A1 *b1, const A2 *b2) {
a1 = *b1;
a2 = *b2;
}
} ArgStruct;
public:
typedef R(*static_fp)(A1, A2);
/** Create a FunctionPointer, attaching a static function
*
* @param function The void static function to attach (default is none)
*/
FunctionPointer2(static_fp function = 0) {
attach(function);
}
/** Create a FunctionPointer, attaching a member function
*
* @param object The object pointer to invoke the member function on (i.e. the this pointer)
* @param function The address of the void member function to attach
*/
template<typename T>
FunctionPointer2(T *object, R (T::*member)(A1, A2)) {
attach(object, member);
}
/** Attach a static function
*
* @param function The void static function to attach (default is none)
*/
void attach(static_fp function) {
FunctionPointerBase<R>::_object = reinterpret_cast<void*>(function);
FunctionPointerBase<R>::_membercaller = &FunctionPointer2::staticcaller;
}
/** Attach a member function
*
* @param object The object pointer to invoke the member function on (i.e. the this pointer)
* @param function The address of the void member function to attach
*/
template<typename T>
void attach(T *object, R (T::*member)(A1, A2))
{
FunctionPointerBase<R>::_object = static_cast<void*>(object);
*reinterpret_cast<R (T::**)(A1, A2)>(FunctionPointerBase<R>::_member) = member;
FunctionPointerBase<R>::_membercaller = &FunctionPointer2::membercaller<T>;
}
FunctionPointerBind<R> bind(const A1 &a1, const A2 &a2) {
FunctionPointerBind<R> fp;
fp.bind(&_fp2_ops, (ArgStruct *) NULL, this, &a1, &a2);
return fp;
}
/** Call the attached static or member function
*/
R call(A1 a1, A2 a2)
{
ArgStruct Args(&a1, &a2);
return FunctionPointerBase<R>::call(&Args);
}
static_fp get_function()const
{
return reinterpret_cast<static_fp>(FunctionPointerBase<R>::_object);
}
R operator ()(A1 a1, A2 a2) {
return call(a1, a2);
}
private:
template<typename T>
static R membercaller(void *object, uintptr_t *member, void *arg) {
ArgStruct *Args = static_cast<ArgStruct *>(arg);
T* o = static_cast<T*>(object);
R (T::**m)(A1, A2) = reinterpret_cast<R (T::**)(A1, A2)>(member);
return (o->**m)(Args->a1, Args->a2);
}
static R staticcaller(void *object, uintptr_t *member, void *arg) {
ArgStruct *Args = static_cast<ArgStruct *>(arg);
(void) member;
static_fp f = reinterpret_cast<static_fp>(object);
return f(Args->a1, Args->a2);
}
/* static void constructor(void * dest, va_list args) {
A1 *a1 = va_arg(args, A1*);
A2 *a2 = va_arg(args, A2*);
new(dest) ArgStruct(a1, a2);
}
static void copy_constructor(void *dest , void* src) {
ArgStruct *src_args = static_cast<ArgStruct *>(src);
new(dest) ArgStruct(&(src_args->a1), &(src_args->a2));
}
static void destructor(void *args) {
ArgStruct *argstruct = static_cast<ArgStruct *>(args);
argstruct->~arg_struct();
}
*/
protected:
static const struct FunctionPointerBase<R>::ArgOps _fp2_ops;
};
template <typename R, typename A1, typename A2>
const struct FunctionPointerBase<R>::ArgOps FunctionPointer2<R,A1,A2>::_fp2_ops = {
FunctionPointer2<R,A1,A2>::constructor,
FunctionPointer2<R,A1,A2>::copy_constructor,
FunctionPointer2<R,A1,A2>::destructor
};
/** A class for storing and calling a pointer to a static or member void function with three arguments
*/
template <typename R, typename A1, typename A2, typename A3>
class FunctionPointer3 : public FunctionPointerBase<R> {
protected:
typedef struct arg_struct{
A1 a1;
A2 a2;
A3 a3;
arg_struct(const A1 *b1, const A2 *b2, const A3* b3) {
a1 = *b1;
a2 = *b2;
a3 = *b3;
}
} ArgStruct;
public:
typedef R(*static_fp)(A1, A2, A3);
/** Create a FunctionPointer, attaching a static function
*
* @param function The void static function to attach (default is none)
*/
FunctionPointer3(static_fp function = 0) {
attach(function);
}
/** Create a FunctionPointer, attaching a member function
*
* @param object The object pointer to invoke the member function on (i.e. the this pointer)
* @param function The address of the void member function to attach
*/
template<typename T>
FunctionPointer3(T *object, R (T::*member)(A1, A2, A3)) {
attach(object, member);
}
/** Attach a static function
*
* @param function The void static function to attach (default is none)
*/
void attach(static_fp function) {
FunctionPointerBase<R>::_object = reinterpret_cast<void*>(function);
FunctionPointerBase<R>::_membercaller = &FunctionPointer3::staticcaller;
}
/** Attach a member function
*
* @param object The object pointer to invoke the member function on (i.e. the this pointer)
* @param function The address of the void member function to attach
*/
template<typename T>
void attach(T *object, R (T::*member)(A1, A2, A3))
{
FunctionPointerBase<R>::_object = static_cast<void*>(object);
*reinterpret_cast<R (T::**)(A1, A2, A3)>(FunctionPointerBase<R>::_member) = member;
FunctionPointerBase<R>::_membercaller = &FunctionPointer3::membercaller<T>;
}
FunctionPointerBind<R> bind(const A1 &a1, const A2 &a2, const A3 &a3) {
FunctionPointerBind<R> fp;
fp.bind(&_fp3_ops, (ArgStruct *) NULL, this, &a1, &a2, &a3);
return fp;
}
/** Call the attached static or member function
*/
R call(A1 a1, A2 a2, A3 a3)
{
ArgStruct Args(&a1, &a2, &a3);
return FunctionPointerBase<R>::call(&Args);
}
static_fp get_function()const
{
return reinterpret_cast<static_fp>(FunctionPointerBase<R>::_object);
}
R operator ()(A1 a1, A2 a2, A3 a3) {
return call(a1, a2, a3);
}
private:
template<typename T>
static R membercaller(void *object, uintptr_t *member, void *arg) {
ArgStruct *Args = static_cast<ArgStruct *>(arg);
T* o = static_cast<T*>(object);
R (T::**m)(A1, A2, A3) = reinterpret_cast<R (T::**)(A1, A2, A3)>(member);
return (o->**m)(Args->a1, Args->a2, Args->a3);
}
static R staticcaller(void *object, uintptr_t *member, void *arg) {
ArgStruct *Args = static_cast<ArgStruct *>(arg);
(void) member;
static_fp f = reinterpret_cast<static_fp>(object);
return f(Args->a1, Args->a2, Args->a3);
}
/* static void constructor(void * dest, va_list args) {
A1 *a1 = va_arg(args, A1*);
A2 *a2 = va_arg(args, A2*);
A3 *a3 = va_arg(args, A3*);
new(dest) ArgStruct(a1, a2, a3);
}
static void copy_constructor(void *dest , void* src) {
ArgStruct *src_args = static_cast<ArgStruct *>(src);
new(dest) ArgStruct(&(src_args->a1), &(src_args->a2), &(src_args->a3));
}
static void destructor(void *args) {
ArgStruct *argstruct = static_cast<ArgStruct *>(args);
argstruct->~arg_struct();
}
*/
protected:
static const struct FunctionPointerBase<R>::ArgOps _fp3_ops;
};
template <typename R, typename A1, typename A2, typename A3>
const struct FunctionPointerBase<R>::ArgOps FunctionPointer3<R,A1,A2,A3>::_fp3_ops = {
FunctionPointer3<R,A1,A2,A3>::constructor,
FunctionPointer3<R,A1,A2,A3>::copy_constructor,
FunctionPointer3<R,A1,A2,A3>::destructor
};
/** A class for storing and calling a pointer to a static or member void function with four arguments
*/
template <typename R, typename A1, typename A2, typename A3, typename A4>
class FunctionPointer4 : public FunctionPointerBase<R> {
protected:
typedef struct arg_struct{
A1 a1;
A2 a2;
A3 a3;
A4 a4;
arg_struct(const A1 *b1, const A2 *b2, const A3* b3, const A4* b4) {
a1 = *b1;
a2 = *b2;
a3 = *b3;
a4 = *b4;
}
} ArgStruct;
public:
typedef R(*static_fp)(A1, A2, A3, A4);
/** Create a FunctionPointer, attaching a static function
*
* @param function The void static function to attach (default is none)
*/
FunctionPointer4(static_fp function = 0) {
attach(function);
}
/** Create a FunctionPointer, attaching a member function
*
* @param object The object pointer to invoke the member function on (i.e. the this pointer)
* @param function The address of the void member function to attach
*/
template<typename T>
FunctionPointer4(T *object, R (T::*member)(A1, A2, A3, A4)) {
attach(object, member);
}
/** Attach a static function
*
* @param function The void static function to attach (default is none)
*/
void attach(static_fp function) {
FunctionPointerBase<R>::_object = reinterpret_cast<void*>(function);
FunctionPointerBase<R>::_membercaller = &FunctionPointer4::staticcaller;
}
/** Attach a member function
*
* @param object The object pointer to invoke the member function on (i.e. the this pointer)
* @param function The address of the void member function to attach
*/
template<typename T>
void attach(T *object, R (T::*member)(A1, A2, A3, A4))
{
FunctionPointerBase<R>::_object = static_cast<void*>(object);
*reinterpret_cast<R (T::**)(A1, A2, A3, A4)>(FunctionPointerBase<R>::_member) = member;
FunctionPointerBase<R>::_membercaller = &FunctionPointer4::membercaller<T>;
}
FunctionPointerBind<R> bind(const A1 &a1, const A2 &a2, const A3 &a3, const A4 &a4) {
FunctionPointerBind<R> fp;
fp.bind(&_fp4_ops, (ArgStruct *) NULL, this, &a1, &a2, &a3, &a4);
return fp;
}
/** Call the attached static or member function
*/
R call(A1 a1, A2 a2, A3 a3, A4 a4)
{
ArgStruct Args(&a1, &a2, &a3, &a4);
return FunctionPointerBase<R>::call(&Args);
}
static_fp get_function()const
{
return reinterpret_cast<static_fp>(FunctionPointerBase<R>::_object);
}
R operator ()(A1 a1, A2 a2, A3 a3, A4 a4) {
return call(a1, a2, a3, a4);
}
private:
template<typename T>
static R membercaller(void *object, uintptr_t *member, void *arg) {
ArgStruct *Args = static_cast<ArgStruct *>(arg);
T* o = static_cast<T*>(object);
R (T::**m)(A1, A2, A3, A4) = reinterpret_cast<R (T::**)(A1, A2, A3, A4)>(member);
return (o->**m)(Args->a1, Args->a2, Args->a3, Args->a4);
}
static R staticcaller(void *object, uintptr_t *member, void *arg) {
ArgStruct *Args = static_cast<ArgStruct *>(arg);
(void) member;
static_fp f = reinterpret_cast<static_fp>(object);
return f(Args->a1, Args->a2, Args->a3, Args->a4);
}
/* static void constructor(void * dest, va_list args) {
A1 *a1 = va_arg(args, A1*);
A2 *a2 = va_arg(args, A2*);
A3 *a3 = va_arg(args, A3*);
A4 *a4 = va_arg(args, A4*);
new(dest) ArgStruct(a1, a2, a3, a4);
}
static void copy_constructor(void *dest , void* src) {
ArgStruct *src_args = static_cast<ArgStruct *>(src);
new(dest) ArgStruct(&(src_args->a1), &(src_args->a2), &(src_args->a3), &(src_args->a4));
}
static void destructor(void *args) {
ArgStruct *argstruct = static_cast<ArgStruct *>(args);
argstruct->~arg_struct();
}
*/
protected:
static const struct FunctionPointerBase<R>::ArgOps _fp4_ops;
};
template <typename R, typename A1, typename A2, typename A3, typename A4>
const struct FunctionPointerBase<R>::ArgOps FunctionPointer4<R,A1,A2,A3,A4>::_fp4_ops = {
FunctionPointer4<R,A1,A2,A3,A4>::constructor,
FunctionPointer4<R,A1,A2,A3,A4>::copy_constructor,
FunctionPointer4<R,A1,A2,A3,A4>::destructor
};
typedef FunctionPointer0<void> FunctionPointer;
//typedef FunctionPointer1<void, int> event_callback_t;
} // namespace mbed
#endif