CENG 351 1
CENG 351 Introduction to Data Management
and File Structures
Nihan Kesim Çiçekli
Department of Computer Engineering
METU
CENG 351 2
CENG 351-Section 2
• Instructor: Nihan Kesim Çiçekli• Office: A308• Email: [email protected]• Lecture Hours:
Tue. 15:40; Thu. 11:40,12:40 (BMB3)
• Course Web page: http://cow.ceng.metu.edu.tr• Teaching Assistants:
Hande Çelikkanat, Cüneyt Mertayak, Çağatay Çallı
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References
1. Betty Salzberg, File Structures: An Analytic Approach, Prentice Hall, 1988.
2. Raghu Ramakrishnan, Database Management Systems (3rd. ed.), McGraw Hill, 2003.
3. Michael J. Folk, Bill Zoellick and Greg Riccardi, File Structures, An object oriented approach with C++, Addison-Wesley, 1998.
4. R. Elmasri, S.B. Navathe, Fundamentals of Database Systems, 4th edition, Addison-Wesley, 2004.
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Course Outline1. Introduction: Secondary storage devices2. Fundamental File Structure Concepts:
Sequential Files 3. External Sorting4. Indexed Sequential Files (B-trees)5. Direct access (Hashing)6. Introduction to Database Systems:
E/R modeling, relational model, 7. Query languages: Relational algebra, relational
calculus, SQL8. Query Evaluation
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Grading
3 written HW, 3 programming assignments 30%
Midterm Exam 1 20%
Midterm Exam 2 20%
Final Exam 30%
Tentative Exam Dates:
Midterm Exam 1: Nov. 6, 2008
Midterm Exam 2: Dec. 18, 2007
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Grading Policies
• Policy on missed midterm: – no make-up exam
• Lateness policy:– Late assignments are penalized up to 10% per day.
• All assignments and programs are to be your own work. No group projects or assignments are allowed.
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Introduction to File management
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Motivation Most computers are used for data processing
(over $100 billion/year). A big growth area in the “information age”
This course covers data processing from a computer science perspective:
– Storage of data– Organization of data– Access to data– Processing of data
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Data Structures vs File Structures
• Both involve:– Representation of Data
+– Operations for accessing data
• Difference:– Data structures: deal with data in main memory– File structures: deal with data in secondary
storage
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Hardware
Operating System
DBMS
File system
Application
Where do File Structures fit in Computer Science?
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Computer Architecture
Main Memory (RAM)
Secondary
Storage
data transfer
data is manipulated here
data is stored here
- Semiconductors
- Fast, expensive, volatile, small
- disks, tape
- Slow,cheap, stable, large
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Advantages• Main memory is fast• Secondary storage is big (because it is cheap)• Secondary storage is stable (non-volatile) i.e.
data is not lost during power failures
Disadvantages• Main memory is small. Many databases are too
large to fit in main memory (MM).• Main memory is volatile, i.e. data is lost during
power failures.• Secondary storage is slow (10,000 times slower
than MM)
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How fast is main memory?
• Typical time for getting info from:Main memory: ~12 nanosec = 120 x 10-9 secMagnetic disks: ~30 milisec = 30 x 10-3 sec
• An analogy keeping same time proportion as above:Looking at the index of a book : 20 sec
versusGoing to the library: 58 days
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Normal Arrangement
• Secondary storage (SS) provides reliable, long-term storage for large volumes of data
• At any given time, we are usually interested in only a small portion of the data
• This data is loaded temporarily into main memory, where it can be rapidly manipulated and processed.
• As our interests shift, data is transferred automatically between MM and SS, so the data we are focused on is always in MM.
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Goal of the file structures
• Minimize the number of trips to the disk in order to get desired information
• Grouping related information so that we are likely to get everything we need with only one trip to the disk.
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Physical Files and Logical Files• physical file: a collection of bytes stored on a disk or
tape• logical file: a "channel" (like a telephone line) that
connects the program to a physical file• The program (application) sends (or receives) bytes
to (from) a file through the logical file. The program knows nothing about where the bytes go (came from).
• The operating system is responsible for associating a logical file in a program to a physical file in disk or tape. Writing to or reading from a file in a program is done through the operating system.
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Files
• The physical file has a name, for instance myfile.txt
• The logical file has a logical name (a varibale) inside the program.– In C :
FILE * outfile;
– In C++:fstream outfile;
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Basic File Processing Operations
• Opening
• Closing
• Reading
• Writing
• Seeking
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Opening Files
• Opening Files:– links a logical file to a physical file.
• In C:FILE * outfile;
outfile = fopen(“myfile.txt”, “w”);
• In C++:fstream outfile;
outfile.open(“myfile.txt”, ios::out);
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Closing Files
• Cuts the link between the physical and logical files. • After closing a file, the logical name is free to be
associated to another physical file.• Closing a file used for output guarantees everything
has been written to the physical file. (When the file is closed the leftover from the buffer is flushed to the file.)
• In C :fclose(outfile);
• In C++ :outfile.close();
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Reading• Read data from a file and place it in a variable
inside the program.• In C:
char c;FILE * infile;infile = fopen(“myfile.txt”,”r”);fread(&c, 1, 1, infile);
• In C++:char c;fstream infile;infile.open(“myfile.txt”,ios::in);infile >> c;
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Writing
• Write data from a variable inside the program into the file.
• In C:char c;FILE * outfile;outfile = fopen(“mynew.txt”,”w”);fwrite(&c, 1, 1, outfile);
• In C++:char c;fstream outfile;outfile.open(“mynew.txt”,ios::out);outfile << c;
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Seeking
• Used for direct access; an item can be accessed by specifying its position in the file.
• In C:fseek(infile,0, 0); // moves to the beginningfseek(infile, 0, 2); // moves to the endfseek(infile,-10, 1); //moves 10 bytes from //current position
• In C++:infile.seekg(0,ios::beg);infile.seekg(0,ios::end);infile.seekg(-10,ios::cur);
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File Systems
• Data is not scattered hither and thither on disk.
• Instead, it is organized into files.
• Files are organized into records.
• Records are organized into fields.
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Example• A student file may be a collection of student
records, one record for each student• Each student record may have several fields, such
as– Name– Address– Student number– Gender– Age– GPA
• Typically, each record in a file has the same fields.
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Properties of Files
1) Persistance: Data written into a file persists after the program stops, so the data can be used later.
2) Sharability: Data stored in files can be shared by many programs and users simultaneously.
3) Size: Data files can be very large. Typically, they cannot fit into MM.