26 实战页式内存管理 下
参考
https://blog.51cto.com/13475106/category6.html及狄泰软件相关课程
完善上一节的LRU()函数,斩断页表页框关联
int LRU()
{
int obj = 0;
int ticks = FrameTable[obj].ticks;
QString s = "";
for(int i=0; i<FRAME_NUM; i++)
{
s += "Frame" + QString::number(i) + " : " + QString::number(FrameTable[i].ticks) + " ";
if( ticks > FrameTable[i].ticks )
{
ticks = FrameTable[i].ticks;
obj = i;
}
}
PrintLog(s);
PrintLog("Select the LRU frame page to swap content out: Frame" + QString::number(obj));
PrintLog("Write the selected page content back to disk.");
ClearFrameItem(obj);
return obj;
}





代码如下:
#include <QtCore/QCoreApplication>
#include <QList>
#include <QQueue>
#include <iostream>
#include <ctime>
using namespace std;
#define PAGE_DIR_NUM (0xF + 1)
#define PAGE_SUB_NUM (0xF + 1)
#define PAGE_NUM (PAGE_DIR_NUM * PAGE_SUB_NUM)
#define FRAME_NUM (0x04)
#define FP_NONE (-1)
struct FrameItem
{
int pid; // the task which use the frame
int pnum; // the page which the frame hold
int ticks; // the ticks to mark the usage frequency
FrameItem()
{
pid = FP_NONE;
pnum = FP_NONE;
ticks = 0xFF;
}
};
class PageTable
{
int* m_pt[PAGE_DIR_NUM];
public:
PageTable()
{
for(int i=0; i<PAGE_DIR_NUM; i++)
{
m_pt[i] = NULL;
}
}
int& operator[] (int i)
{
if( (0 <= i) && (i < length()) )
{
int dir = ((i & 0xF0) >> 4);
int spn = (i & 0x0F);
if( m_pt[dir] == NULL )
{
m_pt[dir] = new int[PAGE_SUB_NUM];
for(int k=0; k<PAGE_SUB_NUM; k++)
{
m_pt[dir][k] = FP_NONE;
}
}
return m_pt[dir][spn];
}
else
{
QCoreApplication::exit(-1);
return m_pt[0][0]; // for avoid warning
}
}
int length()
{
return PAGE_NUM;
}
~PageTable()
{
for(int i=0; i<PAGE_DIR_NUM; i++)
{
delete[] m_pt[i];
}
}
};
class PCB
{
int m_pid; // task id
PageTable m_pageTable; // page table for the task
int* m_pageSerial; // simulate the page serial access
int m_pageSerialCount; // page access count
int m_next; // the next page index to access
public:
PCB(int pid)
{
m_pid = pid;
m_pageSerialCount = qrand() % 5 + 5;
m_pageSerial = new int[m_pageSerialCount];
for(int i=0; i<m_pageSerialCount; i++)
{
m_pageSerial[i] = qrand() % 8;
}
m_next = 0;
}
int getPID()
{
return m_pid;
}
PageTable& getPageTable()
{
return m_pageTable;
}
int getNextPage()
{
int ret = m_next++;
if( ret < m_pageSerialCount )
{
ret = m_pageSerial[ret];
}
else
{
ret = FP_NONE;
}
return ret;
}
bool running()
{
return (m_next < m_pageSerialCount);
}
void printPageSerial()
{
QString s = "";
for(int i=0; i<m_pageSerialCount; i++)
{
s += QString::number(m_pageSerial[i]) + " ";
}
cout << ("Task" + QString::number(m_pid) + " : " + s).toStdString() << endl;
}
~PCB()
{
delete[] m_pageSerial;
}
};
FrameItem FrameTable[FRAME_NUM];
QList<PCB*> TaskTable;
QQueue<int> MoveOut;
int GetFrameItem();
void AccessPage(PCB& pcb);
int RequestPage(int pid, int page);
int SwapPage();
void ClearFrameItem(PCB& pcb);
void ClearFrameItem(int frame);
int Random();
int FIFO();
int LRU();
void PrintLog(QString log);
void PrintPageMap(int pid, int page, int frame);
void PrintFatalError(QString s, int pid, int page);
int GetFrameItem()
{
int ret = FP_NONE;
for(int i=0; i<FRAME_NUM; i++)
{
if( FrameTable[i].pid == FP_NONE )
{
ret = i;
break;
}
}
return ret;
}
void AccessPage(PCB& pcb)
{
int pid = pcb.getPID();
PageTable& pageTable = pcb.getPageTable();
int page = pcb.getNextPage();
if( page != FP_NONE )
{
PrintLog("Access Task" + QString::number(pid) + " for Page" + QString::number(page));
if( pageTable[page] != FP_NONE )
{
PrintLog("Find target page in page table.");
PrintPageMap(pid, page, pageTable[page]);
}
else
{
PrintLog("Target page is NOT found, need to request page ...");
pageTable[page] = RequestPage(pid, page);
if( pageTable[page] != FP_NONE )
{
PrintPageMap(pid, page, pageTable[page]);
}
else
{
PrintFatalError("Can NOT request page from disk...", pid, page);
}
}
FrameTable[pageTable[page]].ticks++;
}
else
{
PrintLog("Task" + QString::number(pid) + " is finished!");
}
}
int RequestPage(int pid, int page)
{
int frame = GetFrameItem();
if( frame != FP_NONE )
{
PrintLog("Get a frame to hold page content: Frame" + QString::number(frame));
}
else
{
PrintLog("No free frame to allocate, need to swap page out.");
frame = SwapPage();
if( frame != FP_NONE )
{
PrintLog("Succeed to swap lazy page out.");
}
else
{
PrintFatalError("Failed to swap page out.", pid, FP_NONE);
}
}
PrintLog("Load content from disk to Frame" + QString::number(frame));
FrameTable[frame].pid = pid;
FrameTable[frame].pnum = page;
FrameTable[frame].ticks = 0xFF;
MoveOut.enqueue(frame);
return frame;
}
void ClearFrameItem(int frame)
{
FrameTable[frame].pid = FP_NONE;
FrameTable[frame].pnum = FP_NONE;
for(int i=0, f=0; (i<TaskTable.count()) && !f; i++)
{
PageTable& pt = TaskTable[i]->getPageTable();
for(int j=0; j<pt.length(); j++)
{
if( pt[j] == frame )
{
pt[j] = FP_NONE;
f = 1;
break;
}
}
}
}
int Random()
{
// just random select
int obj = qrand() % FRAME_NUM;
PrintLog("Random select a frame to swap page content out: Frame" + QString::number(obj));
PrintLog("Write the selected page content back to disk.");
ClearFrameItem(obj);
return obj;
}
int FIFO()
{
// select the first page in memory to move out
int obj = MoveOut.dequeue();
PrintLog("Select a frame to swap page content out: Frame" + QString::number(obj));
PrintLog("Write the selected page content back to disk.");
ClearFrameItem(obj);
return obj;
}
int LRU()
{
int obj = 0;
int ticks = FrameTable[obj].ticks;
QString s = "";
for(int i=0; i<FRAME_NUM; i++)
{
s += "Frame" + QString::number(i) + " : " + QString::number(FrameTable[i].ticks) + " ";
if( ticks > FrameTable[i].ticks )
{
ticks = FrameTable[i].ticks;
obj = i;
}
}
PrintLog(s);
PrintLog("Select the LRU frame page to swap content out: Frame" + QString::number(obj));
PrintLog("Write the selected page content back to disk.");
ClearFrameItem(obj);
return obj;
}
int SwapPage()
{
return LRU();
}
void ClearFrameItem(PCB& pcb)
{
for(int i=0; i<FRAME_NUM; i++)
{
if( FrameTable[i].pid == pcb.getPID() )
{
FrameTable[i].pid = FP_NONE;
FrameTable[i].pnum = FP_NONE;
}
}
}
void PrintLog(QString log)
{
cout << log.toStdString() << endl;
}
void PrintPageMap(int pid, int page, int frame)
{
QString s = "Task" + QString::number(pid) + " : ";
s += "Page" + QString::number(page) + " ==> Frame" + QString::number(frame);
cout << s.toStdString() << endl;
}
void PrintFatalError(QString s, int pid, int page)
{
s += " Task" + QString::number(pid) + ": Page" + QString::number(page);
cout << s.toStdString() << endl;
QCoreApplication::exit(-2);
}
int main(int argc, char *argv[])
{
QCoreApplication a(argc, argv);
int index = 0;
qsrand(time(NULL));
TaskTable.append(new PCB(1));
TaskTable.append(new PCB(2));
PrintLog("Task Page Serial:");
for(int i=0; i<TaskTable.count(); i++)
{
TaskTable[i]->printPageSerial();
}
PrintLog("==== Running ====");
while( true )
{
for(int i=0; i<FRAME_NUM; i++)
{
FrameTable[i].ticks--;
}
if( TaskTable.count() > 0 )
{
if( TaskTable[index]->running() )
{
AccessPage(*TaskTable[index]);
}
else
{
PrintLog("Task" + QString::number(TaskTable[index]->getPID()) + " is finished!");
PCB* pcb = TaskTable[index];
TaskTable.removeAt(index);
ClearFrameItem(*pcb);
delete pcb;
}
}
if( TaskTable.count() > 0 )
{
index = (index + 1) % TaskTable.count();
}
cin.get();
}
return a.exec();
}

posted on 2021-01-06 09:18 lh03061238 阅读(83) 评论(0) 收藏 举报
浙公网安备 33010602011771号