1. Review Ch 1~2 Overview of Computers and C Programming Dr. J.-Y. Pan Dept. Comm. Eng. Nat. Chung Cheng Univ. http://ant.comm.ccu.edu.tw jypan@comm.ccu.edu.tw

2. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-2 Outline Von Neumann architecture Computer languages Software developing method Applying the method Case study: CONVERTING MILES TO KILOMETERS

3. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-3 Figure 1.3 Components of a Computer

4. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-4 Memory Memory cell –an individual storage location Address –relative position in memory Contents –the data stored in a memory cell Stored program concept –an ability to store program instructions in main memory for execution –We can change the computer’s operation by storing a different program in memory

5. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-5 Figure 1.4 1000 Memory Cells in Main Memory

6. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-6 Von Neumann architecture a definition from http://computing-dictionary.thefreedictionary.com/ Has a random-access memory (RAM) –which means that each successive operation can read or write any memory location, independent of the previous access. Has a central processing unit (CPU) –The CPU has a set of registers and a set of built-in operations (its instruction set). –The CPU can interpret the contents of memory either as instructions or as data according to the fetch-execute cycle.

7. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-7 Central Processing Unit Retrieves each instruction in sequence (called fetching an instruction) Interprets the instruction to determine what should be done and then retrieves any data needed to carry out that instruction Performs the actual manipulation, or processing, of the data it retrieved Store the results in main memory

8. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-8 Computer languages Software developers rarely write in the language directly understood by a computer –The machine language is a collection of binary numbers, not easy to understand by human –It is not standardized, different for different CPU Hence, write in High-level languages –That combine algebraic expressions and symbols taken from English –Computers do NOT understand it… –Translation… By a compiler

9. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-9 Figure 1.12 Entering, Translating, and Running a High-Level Language Program The loader must copy all its instructions into memory and direct the CPU to begin execution with the first instruction. 記得，要常常存檔

10. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-10 Figure 1.13 Flow of Information During Program Execution As the program executes, it takes input data from one or more sources and sends results to output and/or secondary storage devices. Although the instructions normally are executed in sequence, it is possible to have the CPU skip over some instructions or execute some instructions more than once.

11. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-11 Software development method Specify the problem requirements –State the problem clearly and gain a clear understanding of what is required for its solutions Analyze the problem –Identify the problem Input/Output/Extra_requirements Design the algorithm to solve the problem –Develop a list of steps (called algorithm) to solve it Implement the algorithm –Convert each algorithm step into statements in C Test and verify the completed program Maintain and update the program –Modify a program to remove previously undetected errors and to keep it up-to-date

12. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-12 1.5 APPLYING THE SOFTWARE DEVELOPMENT METHOD CASE STUDY CONVERTING MILES TO KILOMETERS

13. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-13 1.Problem (Specify the problem requirements) –Your summer surveying job requires you to study some maps that gives distances in kilometers and some use miles. You and your coworkers prefer to deal in metric measurements. Write a program that performs the necessary conversion. 2.Analysis (Analyze the problem) –Purpose : Conversion from miles to kilometers. –To solve this problem, you need to know the relationship between miles and kilometers. –Data Requirements Problem input ： miles /* The distances in miles */ Problem output ： kms /* The distances in kilometers */ Relevant Formula : 1 mile = 1.609 kilometers

14. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-14 3.Design (Design the algorithm to solve the problem) –Algorithm 1.Get the distance in miles 2.Convert the distance to kilometers 3.Display the distance in kilometers –Algorithm with refinements 1.Get the distance in miles 2.Convert the distance to kilometers 2.1 The distance in kilometers is 1.609 times the distance in miles 3.Display the distance in kilometers 4.Implementation (Figure 1.14) (talks in Ch3) 5.Testing

15. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-15 Figure 1.14 Miles-to-Kilometers Conversion Program Step 1 Step 2 Step 3

16. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-16 Question? A good question deserve a good grade…

17. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-17 Outline (Part 2) C language elements A running program, what happens? Syntax and semantics –Input and output –Arithmetic operators Program-Controlled Input and Output Files

18. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-18 Figure 2.1 C Language Elements in Miles-to-Kilometers Conversion Program

19. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-19 2.1 C Language Elements Preprocessor –a system program that modifies the text of a C program before it is compiled Preprocessor directives –commands that provides instructions to the C preprocessor Library –a collection of useful functions and symbols that may be accessed by a program –each library has a standard header file

20. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-20 Preprocessor Directives(1/2) #include –gives a program access to a library –standard header file –include printf 、 scanf  #include –notify the preprocessor that some names used in the program are found in

21. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-21 Function Main(1/2) Contains two parts Part 1: Declarations –the part of a program that tells the compiler the names of memory cells in a program Part 2: Executable statements –program lines that are converted to machine language instructions and executed by the computer

22. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-22 Function Main (2/2) Syntax ： int main(void) { /* function body */ printf(“Hello world\n”); return(0); }

23. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-23 Reserved Words A word that has special meaning in C Reserved WordMeaning intmain function returns an integer value voidmain function receives no data from the operating system doublethe memory cells store real numbers returncontrol from the main function to the operating system Appendix E  背起來

24. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-24 Standard Identifiers A word having special meaning but one that a programmer may redefine –In Figure 2.1, the standard identifiers printf and scanf are names of operations defines in the standard input/output library. –Appendix B shows ANSI C standard libraries P.800~801, stdio.h 所列之 functions P.799, math.h 所列之 functions P.802, string.h 所列之 functions ( 教到字串時請自學 ) 自行參考其功用，大略記一下

25. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-25 User-Define Identifiers Syntax rules –An identifier must consist only of letters, digits, and underscores –An identifier cannot begin with a digit –A C reserved word cannot be used as an identifier –An identifier defined in a C standard library should not be redefined 大小寫不一樣 –Rate, rate, RATE –Wildly adopted in industry uses all uppercase letters in the names of constant macros

26. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-26 Programs in memory Figure 2.2 Memory(a) Before and (b) After Execution of a Program

27. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-27 Assignment Statement Figure 2.3 Effect of kms = KMS_PER_MILE * miles;

28. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-28 Output operation: The printf function Syntax Display for Function Call Syntax: –printf(format string, print list); –printf(format string); Examples: –printf(“I am %d years old, and my gpa is %f\n”, age, gpa); –printf(“Enter the object mass in grams> ”);

29. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-29 Formatting Numbers in Program Output Field width –the number of columns used to display a value ValueFormat Displayed Output ValueFormat Displayed Output 234%4d▓234-234%4d-234 234%5d▓▓234-234%5d▓-234 234%6d▓▓▓234-234%6d▓▓-234 234%1d234-234%2d-234

30. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-30 Formatting Values of Type double ValueFormat Displayed Output ValueFormat Displayed Output 3.14159%5.2f▓3.143.14159%4.2f3.14 3.14159%3.2f3.143.14159%5.1f▓▓ 3.1 3.14159%5.3f3.1423.14159%8.5f▓3.14159.1234%4.2f0.12-.006%4.2f-0.01 -.006%8.3f▓▓ -0.006-.006%8.5f-0.00600 -.006%.3f-0.006-3.14159%.4f-3.1416

31. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-31 Input operation: The scanf Functon scanf(“%lf”, & miles); (Figure 2.5) scanf(“%c%c%c”, & letter_1, & letter_2, & letter_3); (Figure 2.6) & –The C address-off operator –Tell the scanf function where to find each variable into which it is to store a new value Beware the difference between SCANF and PRINTF in input arguments

32. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-32 Figure 2.5 Effect of scanf("%lf", &miles);

33. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-33 Arithmetic operators, Appendix C, 背優先權 Category Operator Associativity Postfix () [] ->. ++ -- Left to right Unary + - ! ~ ++ -- (type) * & sizeof Right to left Multiplicative * / % Left to right Additive + - Left to right Shift > Left to right Relational >= Left to right Equality == != Left to right Bitwise AND & Left to right Bitwise XOR ^ Left to right Bitwise OR | Left to right Logical AND && Left to right Logical OR || Left to right Conditional ?: Right to left Assignment = += -= *= /= %= >>= <<= &= ^= |= Right to left Comma, Left to right

34. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-34 Type Conversion through Casts type cast –converting an expression to a different type by writing the desired type in parentheses in front of the expression –Table 2.9 (Page 63, 課本有錯 ) ApplicationExample Avoiding integer division Average = (double)total_score / (double)num_students; Rounding a numberRounded_x = (int)(x + 0.5)

35. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-35 Program-Controlled Input and Output Files declare a file pointer variable –FILE *inp, /* pointer to input file */ *outp ; /* pointer to output file */ the calls to function fopen –inp = fopen(“b:distance.dat”, “r” ) ; –outp = fopen(“b:distance.out”, “w”) ; use of the functions – fscanf(inp, “%lf”, &miles); – fprintf(outp, “The distance in miles is %.2f. \n”, miles); end of use – fclose(inp); – fclose(outp);

36. 中正大學通訊工程系 潘仁義老師 Advanced Network Technology Lab 1-36 Figure 2.14 Miles-to-Kilometers Conversion Program with Named Files