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CommandStation-EX/CircularBuffer.hpp
Harald Barth a3274caf49 copy in
2023-06-06 00:50:03 +02:00

185 lines
5.5 KiB
C++

/*
* © 2023 Thierry Paris / Locoduino
* All rights reserved.
*
* This is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* It is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with CommandStation. If not, see <https://www.gnu.org/licenses/>.
*/
//-------------------------------------------------------------------
#ifndef __CircularBuffer_Hpp__
#define __CircularBuffer_Hpp__
//-------------------------------------------------------------------
#include <Arduino.h>
#include "DIAG.h"
/** This is a thread-safe buffer of bytes, binary or not. Bytes are pushed on the top (its head), and got from the bottom of the
* buffer (its tail...).
*/
class CircularBuffer
{
private:
byte *buffer; // buffer itself
int size; // total size of this buffer
int head; // index of the first free byte in the buffer
int tail; // index of the next byte to get.
bool full; // if true, no more space !
int peakCount; // biggest occupancy size since the creation of the buffer.
#ifdef ARDUINO_ARCH_ESP32
SemaphoreHandle_t xSemaphore; // semaphore d'exclusion mutuelle
#endif
public:
/** Constructor.
@param inSize
*/
CircularBuffer(int inSize);
/** Initialize the list.
@param inMultiThread If the buffer is used in multi-thread environnement, initialize the semaphore before calling this begin().
*/
void begin(bool inMultiThread = false);
/** Close the usage of this buffer and free the allocated memory.
*/
void end();
/** Remove the full content of the buffer, ready for the next push.
*/
void clear();
/** Add one byte in the buffer.
@param inpData byte to add.
@return true if the byte have been pushed. false if the byte are lost due to max size reached...
*/
bool PushByte(byte inpData);
/** Add some bytes in the buffer.
@param inpData pointer to bytes to add.
@param inDataLength number of bytes to add.
@return true if all bytes have been pushed. false if one or more bytes are lost due to max size reached...
*/
bool PushBytes(byte* inpData, int inDataLength);
/** Get the next byte from the buffer.
@return first available byte, or 0.
*/
byte GetByte();
/** Get the next two bytes from the buffer, to form an integer.
@return integer created from two available bytes, or 0.
*/
int16_t GetInt16();
/** Get the next four bytes from the buffer, to form an integer.
@return integer created from two available bytes, or 0.
*/
int32_t GetInt32();
/** Get some bytes.
@param inpData buffer to fill.
@param inDataLength number of bytes to get.
@return true if all bytes have been get. false if there were not enough bytes in th buffer.
*/
bool GetBytes(byte* inpData, int inDataLength);
/** Get the next two bytes from the given buffer starting from the given position, to form an integer.
@param pBuffer buffer to scan.
@param inPos Position of the first useful byte.
@return integer created from two available bytes, or 0.
*/
static int16_t GetInt16(byte* pBuffer, int inPos);
/** Get the next four bytes from the given buffer starting from the given position, to form a 32 bits integer.
@param pBuffer buffer to scan.
@param inPos Position of the first useful byte.
@return integer created from four available bytes, or 0.
*/
static int32_t GetInt32(byte* pBuffer, int inPos);
/** Get some bytes from the given buffer starting from the given position.
@param pBuffer buffer to scan.
@param inPos Position of the first useful byte.
@param inpData buffer to fill.
@param inDataLength number of bytes to get.
@return true if all bytes have been get. false if there were not enough bytes in th buffer.
*/
static void GetBytes(byte *pBuffer, int inPos, byte* inpData, int inDataLength);
/** Count the number of bytes in the buffer.
@return number of bytes in the buffer.
*/
int GetCount();
/** Get the maximum size used by the buffer since the beggining of its usage.
@return maximum number of bytes in the buffer.
*/
int GetPeakCount() { return this->peakCount; }
/** Check if the buffer is empty or not.
*/
bool isEmpty() const
{
//if head and tail are equal, we are empty
return (!this->full && (this->head == this->tail));
}
/** Check if the buffer is full or not.
*/
bool isFull() const
{
//If tail is ahead the head by 1, we are full
return this->full;
}
/** Check if the begin has been called. If not, the buffer is not allocated and any usage will crash the system !
*/
bool CheckIfBeginDone();
#ifdef DCCPP_DEBUG_MODE
#ifdef VISUALSTUDIO
/** Unit test function
*/
static void Test();
#endif
/** Print the list of messages in the stack.
@remark Only available if DCCPP_DEBUG_MODE is defined.
*/
void printCircularBuffer();
#endif
};
#ifdef ARDUINO_ARCH_ESP32
#define START_SEMAPHORE() \
{ \
byte semaphoreTaken = this->xSemaphore == NULL?1:0; \
if (this->xSemaphore != NULL) \
if (xSemaphoreTake(this->xSemaphore, (TickType_t)100) == pdTRUE) \
semaphoreTaken = 1; \
if (semaphoreTaken == 1)
#define END_SEMAPHORE() \
xSemaphoreGive(this->xSemaphore); \
}
#define ABORT_SEMAPHORE() \
xSemaphoreGive(this->xSemaphore);
#else
#define START_SEMAPHORE()
#define END_SEMAPHORE()
#define ABORT_SEMAPHORE()
#endif
#endif