AP_Buffer: initial implementation of FIFO buffer for use with inertial nav

This commit is contained in:
rmackay9 2012-11-05 13:29:29 +09:00
parent 83ae8e47be
commit 48f1955f8e
1 changed files with 193 additions and 0 deletions

View File

@ -0,0 +1,193 @@
// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*-
/// @file AP_Buffer.h
/// @brief fifo buffer template class
#ifndef AP_BUFFER
#define AP_BUFFER
#include <FastSerial.h>
#include <AP_Common.h>
#include <AP_Math.h> // ArduPilot Mega Vector/Matrix math Library
/// @class AP_Buffer
template <class T, uint8_t SIZE>
class AP_Buffer {
public:
// Constructor
AP_Buffer();
// clear - removes all points from the curve
virtual void clear();
// add - adds an item to the buffer. returns TRUE if successfully added
virtual bool add( T item );
// get - returns the next value in the buffer
virtual T get();
// peek - check what the next value in the buffer is but don't pull it off
virtual T peek(uint8_t position = 0);
// num_values - returns number of values in the buffer
virtual uint8_t num_items() { return _num_items; }
// print_buffer - display the contents of the buffer on the serial port
//virtual void print_buffer();
protected:
uint8_t _num_items; // number of items in the buffer
uint8_t _head; // first item in the buffer (will be returned with the next get call)
uint8_t _tail; // last item added to the buffer (most recently added with the add method)
T _buff[SIZE]; // x values of each point on the curve
};
// Typedef for convenience
typedef AP_Buffer<uint8_t,8> AP_BufferUInt8_Size8;
typedef AP_Buffer<uint8_t,16> AP_BufferUnt8_Size16;
typedef AP_Buffer<uint8_t,32> AP_BufferUInt8_Size32;
typedef AP_Buffer<uint8_t,64> AP_BufferUInt8_Size64;
typedef AP_Buffer<uint8_t,128> AP_BufferUInt8_Size128;
typedef AP_Buffer<float,10> AP_BufferFloat_Size10;
typedef AP_Buffer<float,15> AP_BufferFloat_Size15;
// Constructor
template <class T, uint8_t SIZE>
AP_Buffer<T,SIZE>::AP_Buffer() :
_num_items(0)
{
// clear the buffer
clear();
};
// clear - removes all points from the curve
template <class T, uint8_t SIZE>
void AP_Buffer<T,SIZE>::clear() {
// clear the curve
_num_items = 0;
_head = 0;
_tail = 0;
}
// add - adds an item to the buffer. returns TRUE if successfully added
template <class T, uint8_t SIZE>
bool AP_Buffer<T,SIZE>::add( T item )
{
// add item at the tail
_buff[_tail] = item;
// move tail forward one position
_tail++;
// wrap around to front of buffer if required
if( _tail >= SIZE )
_tail = 0;
// if the tail bumps into the head, move the head forward (throw away the oldest item)
if( _tail == _head ) {
_head++;
if( _head >= SIZE )
_head = 0;
}else{
// increment number of items
_num_items++;
}
// indicate success
return true;
/* Old method that fails when buffer fills up
if( _num_items < SIZE ) {
// add item at the tail
_buff[_tail] = item;
// move tail forward one position
_tail++;
// wrap around to front of buffer if required
if( _tail >= SIZE )
_tail = 0;
// increment number of items
_num_items++;
// indicate success
return true;
}else{
// we do not have room for the new item
return false;
}
*/
}
// get - returns the next value in the buffer
template <class T, uint8_t SIZE>
T AP_Buffer<T,SIZE>::get()
{
T result;
// return zero if buffer is empty
if( _num_items == 0 ) {
return 0;
}
// get next value in buffer
result = _buff[_head];
// increment to next point
_head++;
if( _head >= SIZE )
_head = 0;
// reduce number of items
_num_items--;
// return item
return result;
}
// peek - check what the next value in the buffer is but don't pull it off
template <class T, uint8_t SIZE>
T AP_Buffer<T,SIZE>::peek(uint8_t position)
{
uint8_t j = _head+position;
// return zero if position is out of range
if( position >= _num_items )
return 0;
// wrap around if necessary
if( j >= SIZE )
j -= SIZE;
// return desired value
return _buff[j];
}
// displays the contents of the curve (for debugging)
/*template <class T, uint8_t SIZE>
void AP_Buffer<T,SIZE>::print_buffer()
{
uint8_t i;
Serial.print_P(PSTR("AP_Buffer: "));
for( i = 0; i<_num_items; i++ ){
if( i > 0 ) {
Serial.print_P(PSTR(", "));
}
Serial.print(peek(i));
}
Serial.println();
}*/
/*
// displays the contents of the curve (for debugging)
template <class Vector3f, uint8_t SIZE>
void AP_Buffer<Vector3f,SIZE>::print_buffer()
{
// we cannot print Vector3f types
}
*/
#endif // AP_BUFFER