Jeroen Lodder
Multi purpose buffer module.
Multipurpose ringbuffer
Since there weren't any ringbuffers available on the internet optimized for 32-Bit ARM operation without unix-calls and dynamic memory... I created one.
This module is a fixed ringbuffer, it does not allocate any memory, it can work as FIFO or LIFO or any other exotic mode depending on your imagination. With a fixed 32Bit element size it is optimized for 32 bit arm processors. Any smaller value will have overhead, any larger value will require a double entry. (not recommended)
I hope you can use it.
Information
This is not a C++ class, it is a C Module. It does work object oriented, however you cannot work on the object, you work with the object.
Diff: xIFO.h
- Revision:
- 2:6013f6d867e5
- Parent:
- 0:a04dc0c57d20
--- a/xIFO.h Mon Oct 28 19:20:00 2013 +0000
+++ b/xIFO.h Fri Apr 04 21:36:55 2014 +0000
@@ -1,92 +1,545 @@
-
- /**
+/**
* @file xifo.h
- * @brief xifo circular buffer
- * @details xifo supplies object oriented circular buffer with 32 bit size elements. \n
- * To use either as FIFO (First In First Out) or as FILO (First In Last Out)
+ * @brief xifo circular buffer for all elements
+ * @details xifo supplies object oriented circular buffer with x bit size elements. \n
+ * To use either as FIFO (First In First Out) or as FILO (First In Last Out)
+ * Below are defines to disable or enable any xIFO type you like.
*
- * @author Jeroen Lodder
- * @date April 2013
- * @version 2
+ * @author Jeroen Lodder
+ * @date March 2014
+ * @version 3
+ *
+ * Copyright (c) 2014 Jeroen Lodder
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
*
* @{
*/
-
- /**
- * Code has been tested on Cortex M0 (LPC1114)
- * Performance table, number of core clocks
- * Measured with a timer before and after
- * r1 = timer->TC
- * test_function
- * r2 = timer->TC
- *
- * Function Speed Worst Case
- *
- * write 69 71
- * read_mr 59 59
- * read_lr 63 70
- * pop_mr 76 78
- * pop_lr 45 45
- *
- */
-
#ifndef _xifo_H_
#define _xifo_H_
-
+
#include <inttypes.h>
-#if defined(__arm__) || defined(__DOXYGEN__)
-#pragma anon_unions /**< Allow unnamed unions */
+#if !defined(TRUE) || defined(__DOXYGEN__)
+#define TRUE (1)
+#endif
+#if !defined(FALSE) || defined(__DOXYGEN__)
+#define FALSE !(TRUE)
+#endif
+
+#ifdef __cplusplus
+#if !defined(xIFO_USE_CPP) || defined(__DOXYGEN__)
+#define xIFO_USE_CPP TRUE
+#endif
+#endif
+
+#if !defined(xIFO_USE_64BIT) || defined(__DOXYGEN__)
+#define xIFO_USE_64BIT TRUE
+#endif
+
+#if !defined(xIFO_USE_32BIT) || defined(__DOXYGEN__)
+#define xIFO_USE_32BIT TRUE
+#endif
+
+#if !defined(xIFO_USE_16BIT) || defined(__DOXYGEN__)
+#define xIFO_USE_16BIT TRUE
+#endif
+
+#if !defined(xIFO_USE_8BIT) || defined(__DOXYGEN__)
+#define xIFO_USE_8BIT TRUE
#endif
+
+#if xIFO_USE_CPP == TRUE
+/**
+ * @brief Circular Buffer object.
+ * @details This class holds the object of a circular buffer
+ */
+template <class xifo_dtype>
+class Xifo
+{
+public:
+ /**
+ * @brief Initialise xifo.
+ * @note Does not clear memory pool.
+ * @param[in] Number of elements buffer can hold (size).
+ */
+ Xifo(uint32_t size)
+ {
+ startpool = new xifo_dtype[size];
+ endpool = &startpool[size-1];
+ isize = size;
+ ifull = 0;
+ icount = 0;
+ read = startpool;
+ pwrite = startpool;
+ }
+
+ /**
+ * @brief Initialise xifo.
+ * @note Does not clear memory pool.
+ * @param[in] Number of elements buffer can hold (size).
+ * @param[in] Start of pre-allocated memory pool.
+ */
+ Xifo(uint32_t size, xifo_dtype *sp)
+ {
+ startpool = sp;
+ endpool = &sp[size-1];
+ isize = size;
+ ifull = 0;
+ icount = 0;
+ read = sp;
+ pwrite = sp;
+ }
+
+ /**
+ * @brief Deinitialise (and deallocate) buffer xifo.
+ * @note Does not clear memory pool.
+ */
+ ~Xifo(void)
+ {
+ if(dynamic){
+ delete startpool;
+ }
+ }
+
+ /**
+ * @brief Clear buffer memory pool
+ * @note Must be used on initialised buffer object.
+ * @param[in] c Pointer to @p xifo_SIZETYPE_t object.
+ */
+ void clear(void)
+ {
+ register xifo_dtype *ptemp = startpool;
+ while(ptemp <= endpool){
+ *ptemp++ = 0;
+ }
+ }
+
+ /**
+ * @brief Reset buffer
+ * @note Must be used on initialised buffer object.
+ * @param[in] c Pointer to @p xifo_SIZETYPE_t object.
+ */
+ void reset(void)
+ {
+ register xifo_dtype *ptemp = startpool;
+ while(ptemp <= endpool){
+ *ptemp++ = 0;
+ }
+ ifull = 0;
+ icount = 0;
+ read = startpool;
+ pwrite = startpool;
+ }
+
+ /**
+ * @brief Write to buffer
+ *
+ * @note Readpointer is automatically set to the last added element.
+ *
+ * @warning Consider this opertaion as atomic!
+ *
+ * @details Adds a value to the buffer.
+ * Automatically overwrites oldest elements when full.
+ *
+ * @param[in] c Pointer to @p xifo_SIZETYPE_t used for configuration.
+ * @param[in] data Data to add to buffer
+ *
+ * @return Number of free buffer elements
+ */
+ uint32_t write(xifo_dtype data)
+ {
+ /* Write data */
+ *pwrite = data;
+ /* Update read pointer to most recent element */
+ read = pwrite;
+ /* Write pointer increment */
+ pwrite += 1;
+ /* Validate pointer */
+ if( pwrite > endpool){
+ /* Exceeded pool boundaries */
+ pwrite = startpool;
+ }
+ /* Update count */
+ icount++;
+ /* Verify full */
+ if( icount >= isize ){
+ ifull = 1;
+ icount = isize;
+ }
+ /* return free elements count */
+ return isize - icount;
+ }
+
+ /**
+ * @brief Read from buffer (lr) Least Recent oriented (fifo)
+ *
+ * @note Buffer state will be preserved
+ *
+ * @warning Consider this opertaion as atomic!
+ *
+ * @details Read n elements from the oldest element to the most recent.
+ * As for index[0] the least recently added element is returned.
+ * And for index[count] the most recent element is returned.
+ * This makes it possible to peek in fifo.
+ *
+ * @param[in] c Pointer to @p xifo_SIZETYPE_t used for configuration.
+ * @param[in] index Index relative from least recent
+ *
+ * @return Contents of element or 0 if failed (element can hold 0)
+ */
+ xifo_dtype read_lr(uint32_t index)
+ {
+ register xifo_dtype *ptemp;
+ /* Verify there is valid data to read */
+ if(index+1 > icount){
+ return 0;
+ }
+ /* Calculate index of oldest element */
+ index = (icount-1) - index;
+ /* Set pointer */
+ ptemp = (read) - index;
+ if(ptemp < startpool){
+ /* Exceeded pool boundaries */
+ /* Calculate overshoot (startpool - indexptr) and subtract from end */
+ /* Since one element of overshoot results in end - 1 you would miss the last value */
+ ptemp = (endpool+1) - (startpool - ptemp);
+ }
+ /* Read most recent */
+ return *ptemp;
+ }
+
+ /**
+ * @brief Pop (lr) least recent from buffer (fifo)
+ *
+ * @note Buffer state will be altered
+ *
+ * @warning Consider this opertaion as atomic!
+ *
+ * @details Read and remove the least recently added from the buffer.
+ * Using this results in a fifo type of buffer.
+ *
+ * @param[in] c Pointer to @p xifo_SIZETYPE_t used for configuration.
+ *
+ * @return Contents of element or 0 if failed (element can hold 0)
+ */
+ xifo_dtype pop_lr()
+ {
+ register xifo_dtype *ptemp;
+ xifo_dtype temp;
+ /* Verify there is valid data read */
+ if(icount == 0){
+ return 0;
+ }
+ /* Derive least recent buffer element */
+ ptemp = read+1 - icount;
+ /* Validate pointer */
+ if(ptemp < startpool){
+ /* Exceeded pool boundaries */
+ /* Calculate overshoot (startpool - indexptr) and subtract from end */
+ /* Since one element of overshoot results in end - 1 you would miss the last value */
+ ptemp = (endpool+1) - (startpool - ptemp);
+ }
+ /* Read oldest buffer element */
+ /* Read to temp register */
+ temp = *ptemp;
+ /* Empty buffer element */
+ *ptemp = 0;
+ /* Reduce count */
+ icount--;
+ /* Check full flag */
+ if(icount < isize)
+ ifull = 0;
+ return temp;
+ }
+
+ /**
+ * @brief Read from buffer (mr) Most Recent oriented (filo)
+ *
+ * @note Buffer state will be preserved
+ *
+ * @warning Consider this opertaion as atomic!
+ *
+ * @details Read n elements back in time.
+ * As for index[0] the most recently added element is returned.
+ * And for index[count] the oldest element is returned.
+ * This makes it possible to keep history. For DSP application.
+ *
+ * @param[in] c Pointer to @p xifo_SIZETYPE_t used for configuration.
+ * @param[in] index Index relative from most recent
+ *
+ * @return Contents of element or 0 if failed (element can hold 0)
+ */
+ xifo_dtype read_mr(uint32_t index)
+ {
+ register xifo_dtype *ptemp;
+ /* Verify there is valid data to read */
+ if(index+1 > icount){
+ return 0;
+ }
+ /* Set pointer */
+ ptemp = read - index;
+ /* Validate pointer */
+ if(ptemp < startpool){
+ /* Exceeded pool boundaries */
+ /* Calculate overshoot (startpool - indexptr) and subtract from end */
+ /* Since one element of overshoot results in end - 1 you would miss the last value */
+ ptemp = (endpool+1) - (startpool - ptemp);
+ }
+ /* Read most recent */
+ return *ptemp;
+ }
+
+ /**
+ * @brief Pop (mr) most recent from buffer (filo)
+ *
+ * @note Buffer state will be altered
+ *
+ * @warning Consider this opertaion as atomic!
+ *
+ * @details Read and remove the most recently added from the buffer.
+ * Using this results in a stack type of buffer.
+ *
+ * @param[in] c Pointer to @p xifo_SIZETYPE_t used for configuration.
+ *
+ * @return Contents of element or 0 if failed (element can hold 0)
+ */
+ xifo_dtype pop_mr()
+ {
+ register xifo_dtype temp;
+ /* Verify there is valid data read */
+ if(icount == 0){
+ return 0;
+ }
+ /* Read */
+ temp = *read;
+ /* Empty */
+ *read = 0;
+ /* Most recent element read, return write pointer */
+ pwrite = read;
+ /* Decrement read pointer */
+ read--;
+ /* Validate pointer */
+ if( read < startpool ){
+ /* Exceeded pool boundaries */
+ read = endpool;
+ }
+ /* Reduce count */
+ icount--;
+ if(icount < isize)
+ ifull = 0;
+ return temp;
+ }
+
+ /* Extractors */
+ uint32_t size(){ return isize; } /**< @brief Get buffer size */
+ uint32_t used(){ return icount; } /**< @brief Get number of used elements */
+ uint32_t full(){ return ifull; } /**< @brief Get full flag */
+ uint32_t free(){ return isize-icount; } /**< @brief Get number of free elements */
+private:
+ bool dynamic;
+ xifo_dtype *startpool; /**< @brief First element in pool */
+ xifo_dtype *endpool; /**< @brief Last element in pool */
+ xifo_dtype *read; /**< @brief Read pointer */
+ xifo_dtype *pwrite; /**< @brief Write pointer */
+ /* Variables: */
+ uint32_t ifull; /**< @brief Flag indicating buffer is full */
+ uint32_t icount; /**< @brief Number of elements used */
+ uint32_t isize; /**< @brief Size of buffer */
+};
+#endif
+
+#if xIFO_USE_64BIT == TRUE
/**
* @brief Circular Buffer object.
* @details This struct holds the object of a circular buffer
*/
typedef struct {
-/* Pointers: */
- uint32_t *startpool; /**< @brief First element in pool */
- uint32_t *endpool; /**< @brief Last element in pool */
- uint32_t *read; /**< @brief Read pointer */
- uint32_t *write; /**< @brief Write pointer */
-/* Variables: */
- uint32_t full; /**< @brief Flag indicating buffer is full */
- uint32_t elementcount;/**< @brief Number of elements used */
- uint32_t size; /**< @brief Size of buffer */
-/* Locally used in functions to prevent stack use: */
- /**< @brief union to prevent lvalue typecasting */
- union {
- uint32_t temp; /**< @brief temp variable and padding for even sized block */
- uint32_t *ptemp; /**< @brief temp variable and padding for even sized block */
- };
-}xifo_t;
+ /* Pointers: */
+ uint64_t *startpool; /**< @brief First element in pool */
+ uint64_t *endpool; /**< @brief Last element in pool */
+ uint64_t *read; /**< @brief Read pointer */
+ uint64_t *write; /**< @brief Write pointer */
+ /* Variables: */
+ uint32_t full; /**< @brief Flag indicating buffer is full */
+ uint32_t count; /**< @brief Number of elements used */
+ uint32_t size; /**< @brief Size of buffer */
+}xifo64_t;
+
+/**< @brief Circular Buffer memory pool type. */
+typedef uint64_t xifo64_pool_t;
+#ifdef __cplusplus
+extern "C" {
+#endif
+/* xifo Common */
+void xifo64_init( xifo64_t *c, uint32_t size, uint64_t *startpool );
+void xifo64_clear( xifo64_t *c );
+uint32_t xifo64_write( xifo64_t *c, uint64_t data );
+/* FIFO use */
+uint64_t xifo64_read_lr( xifo64_t *c, uint32_t index );
+uint64_t xifo64_pop_lr( xifo64_t *c );
+/* LIFO use */
+uint64_t xifo64_read_mr( xifo64_t *c, uint32_t index );
+uint64_t xifo64_pop_mr( xifo64_t *c );
+/* Extractors */
+uint32_t xifo64_get_size( xifo64_t *c );
+uint32_t xifo64_get_used( xifo64_t *c );
+uint32_t xifo64_get_full( xifo64_t *c );
+uint32_t xifo64_get_free( xifo64_t *c );
+#ifdef __cplusplus
+}
+#endif
+#endif
+
+#if xIFO_USE_32BIT == TRUE
/**
- * @brief Circular Buffer memory pool type.
+ * @brief Circular Buffer object.
+ * @details This struct holds the object of a circular buffer
*/
-typedef unsigned int xifo_pool_t;
+typedef struct {
+ /* Pointers: */
+ uint32_t *startpool; /**< @brief First element in pool */
+ uint32_t *endpool; /**< @brief Last element in pool */
+ uint32_t *read; /**< @brief Read pointer */
+ uint32_t *write; /**< @brief Write pointer */
+ /* Variables: */
+ uint32_t full; /**< @brief Flag indicating buffer is full */
+ uint32_t count; /**< @brief Number of elements used */
+ uint32_t size; /**< @brief Size of buffer */
+}xifo32_t;
+
+/**< @brief Circular Buffer memory pool type. */
+typedef uint32_t xifo32_pool_t;
#ifdef __cplusplus
extern "C" {
#endif
/* xifo Common */
-void xifo_init(xifo_t *c, uint32_t size, uint32_t *startpool);
-void xifo_clear(xifo_t *c);
-uint32_t xifo_write(xifo_t *c, uint32_t data);
+void xifo32_init( xifo32_t *c, uint32_t size, uint32_t *startpool );
+void xifo32_clear( xifo32_t *c );
+uint32_t xifo32_write( xifo32_t *c, uint32_t data );
/* FIFO use */
-uint32_t xifo_read_lr(xifo_t *c, uint32_t index);
-uint32_t xifo_pop_lr(xifo_t *c);
+uint32_t xifo32_read_lr( xifo32_t *c, uint32_t index );
+uint32_t xifo32_pop_lr( xifo32_t *c );
/* LIFO use */
-uint32_t xifo_read_mr(xifo_t *c, uint32_t index);
-uint32_t xifo_pop_mr(xifo_t *c);
+uint32_t xifo32_read_mr( xifo32_t *c, uint32_t index );
+uint32_t xifo32_pop_mr( xifo32_t *c );
/* Extractors */
-uint32_t xifo_get_size(xifo_t *c);
-uint32_t xifo_get_used(xifo_t *c);
-uint32_t xifo_get_full(xifo_t *c);
-uint32_t xifo_get_free(xifo_t *c);
+uint32_t xifo32_get_size( xifo32_t *c );
+uint32_t xifo32_get_used( xifo32_t *c );
+uint32_t xifo32_get_full( xifo32_t *c );
+uint32_t xifo32_get_free( xifo32_t *c );
#ifdef __cplusplus
}
#endif
+#endif
+
+#if xIFO_USE_16BIT == TRUE
+/**
+ * @brief Circular Buffer object.
+ * @details This struct holds the object of a circular buffer
+ */
+typedef struct {
+ /* Pointers: */
+ uint16_t *startpool; /**< @brief First element in pool */
+ uint16_t *endpool; /**< @brief Last element in pool */
+ uint16_t *read; /**< @brief Read pointer */
+ uint16_t *write; /**< @brief Write pointer */
+ /* Variables: */
+ uint32_t full; /**< @brief Flag indicating buffer is full */
+ uint32_t count; /**< @brief Number of elements used */
+ uint32_t size; /**< @brief Size of buffer */
+}xifo16_t;
+
+/**
+ * @brief Circular Buffer memory pool type.
+ */
+typedef uint16_t xifo16_pool_t;
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+/* xifo Common */
+void xifo16_init( xifo16_t *c, uint32_t size, uint16_t *startpool);
+void xifo16_clear( xifo16_t *c);
+uint32_t xifo16_write( xifo16_t *c, uint16_t data);
+/* FIFO use */
+uint16_t xifo16_read_lr( xifo16_t *c, uint32_t index);
+uint16_t xifo16_pop_lr( xifo16_t *c);
+/* LIFO use */
+uint16_t xifo16_read_mr( xifo16_t *c, uint32_t index);
+uint16_t xifo16_pop_mr( xifo16_t *c);
+/* Extractors */
+uint32_t xifo16_get_size( xifo16_t *c);
+uint32_t xifo16_get_used( xifo16_t *c);
+uint32_t xifo16_get_full( xifo16_t *c);
+uint32_t xifo16_get_free( xifo16_t *c);
+#ifdef __cplusplus
+}
+#endif
+#endif
+
+#if xIFO_USE_8BIT == TRUE
+/**
+ * @brief Circular Buffer object.
+ * @details This struct holds the object of a circular buffer
+ */
+typedef struct {
+ /* Pointers: */
+ uint8_t *startpool; /**< @brief First element in pool */
+ uint8_t *endpool; /**< @brief Last element in pool */
+ uint8_t *read; /**< @brief Read pointer */
+ uint8_t *write; /**< @brief Write pointer */
+ /* Variables: */
+ uint32_t full; /**< @brief Flag indicating buffer is full */
+ uint32_t count; /**< @brief Number of elements used */
+ uint32_t size; /**< @brief Size of buffer */
+}xifo8_t;
+
+/**< @brief Circular Buffer memory pool type. */
+typedef uint8_t xifo8_pool_t;
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+/* xifo Common */
+void xifo8_init(xifo8_t *c, uint32_t size, uint8_t *startpool );
+void xifo8_clear( xifo8_t *c );
+uint32_t xifo8_write( xifo8_t *c, uint8_t data );
+/* FIFO use */
+uint8_t xifo8_read_lr( xifo8_t *c, uint32_t index );
+uint8_t xifo8_pop_lr( xifo8_t *c );
+/* LIFO use */
+uint8_t xifo8_read_mr( xifo8_t *c, uint32_t index );
+uint8_t xifo8_pop_mr( xifo8_t *c );
+/* Extractors */
+uint32_t xifo8_get_size( xifo8_t *c );
+uint32_t xifo8_get_used( xifo8_t *c );
+uint32_t xifo8_get_full( xifo8_t *c );
+uint32_t xifo8_get_free( xifo8_t *c );
+#ifdef __cplusplus
+}
+#endif
+#endif
+
#endif //_xifo_H_
/** @} */