finished code cleanup of LibBasicFunctions

pull/1/head
Steve Lascos 7 years ago
parent ed355a03f8
commit 12fbdcff8d
  1. 42
      src/LibBasicFunctions.h

@ -146,11 +146,16 @@ private:
ExtMemSlot *m_slot = nullptr; ///< When using EXTERNAL memory, an ExtMemSlot must be provided.
};
/**************************************************************************//**
* Customer RingBuffer with random access
*****************************************************************************/
template <class T>
class RingBuffer {
public:
RingBuffer() = delete;
/// Construct a RingBuffer of specified max size
/// @param maxSize number of entries in ring buffer
RingBuffer(const size_t maxSize) : m_maxSize(maxSize) {
m_buffer = new T[maxSize];
}
@ -158,9 +163,12 @@ public:
if (m_buffer) delete [] m_buffer;
}
/// Add an element to the back of the queue
/// @param element element to add to queue
/// returns 0 if success, otherwise error
int push_back(T element) {
Serial.println(String("RingBuffer::push_back...") + m_head + String(":") + m_tail + String(":") + m_size);
//Serial.println(String("RingBuffer::push_back...") + m_head + String(":") + m_tail + String(":") + m_size);
if ( (m_head == m_tail) && (m_size > 0) ) {
// overflow
Serial.println("RingBuffer::push_back: overflow");
@ -178,6 +186,8 @@ public:
return 0;
}
/// Remove the element at teh front of the queue
/// @returns 0 if success, otherwise error
int pop_front() {
if (m_size == 0) {
@ -195,14 +205,21 @@ public:
return 0;
}
/// Get the element at the front of the queue
/// @returns element at front of queue
T front() const {
return m_buffer[m_tail];
}
/// get the element at the back of the queue
/// @returns element at the back of the queue
T back() const {
return m_buffer[m_head-1];
}
/// Get a previously pushed elememt
/// @param offset zero is last pushed, 1 is second last, etc.
/// @returns the absolute index corresponding to the requested offset.
size_t get_index_from_back(size_t offset = 0) const {
// the target at m_head - 1 - offset or m_maxSize + m_head -1 - offset;
size_t idx = (m_maxSize + m_head -1 - offset);
@ -214,33 +231,44 @@ public:
return idx;
}
/// get the current size of the queue
/// @returns size of the queue
size_t size() const {
return m_size;
}
/// get the maximum size the queue can hold
/// @returns maximum size of the queue
size_t max_size() const {
return m_maxSize;
}
/// get the element at the specified absolute index
/// @param index element to retrieve from absolute queue position
/// @returns the request element
T& operator[] (size_t index) {
return m_buffer[index];
}
/// get the element at the specified absolute index
/// @param index element to retrieve from absolute queue position
/// @returns the request element
T at(size_t index) const {
return m_buffer[index];
}
/// DEBUG: Prints the status of the Ringbuffer
void print() const {
for (int idx=0; idx<m_maxSize; idx++) {
Serial.println(idx + String(" address: ") + (uint32_t)m_buffer[idx] + String(" data: ") + (uint32_t)m_buffer[idx]->data);
}
}
private:
size_t m_head=0;
size_t m_tail=0;
size_t m_size=0;
T *m_buffer = nullptr;
const size_t m_maxSize;
size_t m_head=0; ///< back of the queue
size_t m_tail=0; ///< front of the queue
size_t m_size=0; ///< current size of the qeueu
T *m_buffer = nullptr; ///< pointer to the allocated buffer array
const size_t m_maxSize; ///< maximum size of the queue
};
}

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