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174 lines
5.9 KiB
C++
174 lines
5.9 KiB
C++
#ifndef __C_DATAPUMP_H__
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#define __C_DATAPUMP_H__
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#include <stdlib.h>
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#include <memory.h>
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#include <stddef.h>
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#pragma intrinsic(memcpy,memset)
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template<class T> class C_DATAPUMP {
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private:
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protected:
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T *BufferBottom; // bottom of the physical buffer
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T *BufferTop; // top of the physical buffer
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T *BufferStart; // start of the logical buffer
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T *BufferEnd; // end of the logical buffer
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virtual void addItems(T *inputBuffer, size_t inputSize) { // inputSize = number of <T> records inputBuffer contains
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if(inputBuffer && inputSize) {
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memcpy(BufferEnd,inputBuffer,inputSize*sizeof(T)); // copy our records in
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BufferEnd += inputSize;
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if(BufferEnd >= BufferTop) BufferEnd = BufferBottom + (BufferEnd-BufferTop);
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}
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}
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virtual void delItems(int where, size_t numItems) { // where: 0 = start, 1 = end
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if(numItems > 0) {
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if(numItems > size()) { // just void everything
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BufferEnd = BufferStart;
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} else {
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if(where == 0) { // start
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BufferStart += numItems;
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if(BufferStart >= BufferTop) BufferStart = BufferBottom + (BufferTop-BufferStart);
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} else if(where == 1) { // end
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BufferEnd -= numItems;
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if(BufferEnd < BufferBottom) BufferEnd = BufferTop - (BufferBottom-BufferEnd);
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}
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}
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}
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}
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virtual void getItems(T *outputBuffer, size_t outputSize) { // outputSize = number of <T> records outputBuffer needs
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if(outputBuffer && outputSize) {
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memcpy(outputBuffer,BufferStart,outputSize*sizeof(T));
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}
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}
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public:
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C_DATAPUMP(int bufferSize) { // bufferSize = number of <T> records
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BufferBottom = NULL;
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BufferTop = NULL;
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BufferStart = NULL;
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BufferEnd = NULL;
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resizeBuffer(bufferSize);
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}
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virtual ~C_DATAPUMP() {
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if(getBufferSize() && BufferBottom) {
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free(BufferBottom);
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BufferBottom = NULL;
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}
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}
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virtual void resizeBuffer(size_t bufferSize) { // bufferSize = number of <T> records
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// this will invalidate any data in the buffer, so be careful when calling this function
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if(bufferSize) {
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if(getBufferSize() != bufferSize) {
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if(BufferBottom && BufferTop && getBufferSize()) { // buffer is valid
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if(getBufferSize() > bufferSize) { // buffer is getting smaller (will invalidate buffer)
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BufferTop -= getBufferSize()-bufferSize;
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invalidate();
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} else { // buffer is getting larger (will _NOT_ invalidate buffer... nicely moves the data over =)
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T *newBuffer = (T *)malloc(bufferSize * sizeof(T));
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// new
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BufferEnd = newBuffer + get(newBuffer,bufferSize);
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free(BufferBottom);
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BufferBottom = newBuffer;
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BufferTop = BufferBottom + bufferSize;
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BufferStart = BufferBottom;
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/* old
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T *bufptr = newBuffer;
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int top = BufferEnd >= BufferStart ? BufferEnd-BufferStart : BufferTop-BufferStart; // number of <T> records at top of physical buffer
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int bottom = BufferEnd >= BufferStart ? 0 : BufferEnd-BufferBottom; // number of <T> records at bottom of physical buffer
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if(top > 0) {
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memcpy(bufptr,BufferStart,top*sizeof(T));
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bufptr += top;
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}
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if(bottom > 0) {
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memcpy(bufptr,BufferBottom,bottom*sizeof(T));
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bufptr += bottom;
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}
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free(BufferBottom);
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BufferBottom = newBuffer;
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BufferTop = BufferBottom + bufferSize;
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BufferStart = BufferBottom;
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BufferEnd = bufptr;
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*/
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}
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} else { // no buffer, create (invalidates the buffer... duh)
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BufferBottom = (T *)malloc(bufferSize * sizeof(T));
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BufferTop = BufferBottom + bufferSize;
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invalidate();
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}
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}
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}
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}
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virtual size_t size() { // will get the number of <T> records the logical buffer contains
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return BufferEnd >= BufferStart ? BufferEnd-BufferStart : (BufferTop-BufferStart)+(BufferEnd-BufferBottom);
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}
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virtual size_t put(T *inputBuffer, size_t inputSize) { // inputSize = number of <T> records inputBuffer contains
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// returns number of <T> records added to logical buffer
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size_t retval = 0;
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if(inputBuffer && inputSize) {
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size_t fitting = ((BufferTop-BufferBottom)-1) - size(); // can't go over our logical boundary.... blah
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if(fitting > inputSize) fitting = inputSize; // the entire thing can fit. yeay!
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retval = fitting;
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if(fitting > 0) {
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T *bufptr = inputBuffer;
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size_t top = BufferEnd >= BufferStart ? BufferTop-BufferEnd : 0; // number of <T> records free at top of physical buffer
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size_t bottom = BufferEnd >= BufferStart ? BufferStart-BufferBottom : (BufferStart-BufferEnd); // number of <T> records free at bottom of physical buffer
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if(top > 0) {
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if(top > fitting) top = fitting;
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addItems(bufptr,top);
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fitting -= top;
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bufptr += top;
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}
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if(bottom > 0 && fitting > 0) {
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if(bottom > fitting) bottom = fitting;
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addItems(bufptr,bottom);
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}
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}
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}
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return retval;
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}
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virtual size_t get(T *outputBuffer, size_t outputSize) { // outputSize = number of <T> records outputBuffer needs
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// returns number of <T> records pulled from the logical buffer
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size_t retval = 0;
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if(outputBuffer && outputSize) {
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size_t fitting = size();
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if(fitting > outputSize) fitting = outputSize;
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retval = fitting;
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if(fitting > 0) {
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T *bufptr = outputBuffer;
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size_t top = BufferEnd >= BufferStart ? BufferEnd-BufferStart : BufferTop-BufferStart; // number of <T> records at top of physical buffer
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size_t bottom = BufferEnd >= BufferStart ? 0 : BufferEnd-BufferBottom; // number of <T> records at bottom of physical buffer
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if(top > 0) {
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if(top > fitting) top = fitting;
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getItems(bufptr,top);
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delItems(0,top);
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fitting -= top;
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bufptr += top;
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}
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if(bottom > 0 && fitting > 0) {
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if(bottom > fitting) bottom = fitting;
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getItems(bufptr,bottom);
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delItems(0,bottom);
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}
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}
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}
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return retval;
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}
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virtual size_t getBufferSize() { // returns the size of the physical buffer in <T> items
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return BufferTop-BufferBottom;
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}
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virtual void invalidate() { // calling this will wipe all data in the buffer and reset the logical pointers
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BufferStart = BufferEnd = BufferBottom;
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}
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};
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#endif // !__C_DATAPUMP_H__
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