Post on 04-Jan-2016
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• Why C?• History of C• Generic C Program Structure• Variables
– Type and Name– Assignment Operator
• Simple I/O– scanf/printf
Today’s Material
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Why C?• Simple and Simple and StructuralStructural
– Minimal syntaxMinimal syntax
• Availability and PortabilityAvailability and Portability– C compilers are available for a wide range of C compilers are available for a wide range of
platformsplatforms• Windows, UNIX, embedded systemsWindows, UNIX, embedded systems
• Language of choice for system programming • Most OS code are written in CMost OS code are written in C
• Widely knownWidely known– Almost every programmer knows CAlmost every programmer knows C– There are lots of public code written in CThere are lots of public code written in C
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History of C• C C evolvedevolved as follows:as follows:
– CPL Combined Programming Language (Barron, CPL Combined Programming Language (Barron, 1963)1963)
– BCPL Basic CPL (Richards, 1969)BCPL Basic CPL (Richards, 1969)– B (Thompson, 1970)B (Thompson, 1970)– C (C (Kernighan & Kernighan & Ritchie, 1973)Ritchie, 1973)– ANSI C American National Standards Institute C ANSI C American National Standards Institute C
(X3J11, 1989)(X3J11, 1989)!! The fact that a language originated in 1973 has required as little change as this one has in thirty years of heavy use is truly remarkable, and without parallels anywhere else in computer science or engineering.
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Generic C Program Structure#include <stdio.h>
/* main designates the starting place of our program */main() { /* Variables hold Data Items Needed in the Program */ Variable Declarations;
/* Steps of our program: I/O, computation (expressions) */
Statement1; Statement2; …
StatementN; } /* end-of-the program */
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First C Program#include <stdio.h>
/* Convert fahrenheit to celsius */main() { float fahrenheit; float celsius;
printf(“Enter a temp in fahrenheit: “);
scanf(“%f”, &fahrenheit); celsius = (fahrenheit-32)/1.8; printf(“%f degrees fahrenheit
equals %f degrees celsius\n”, fahrenheit, celsius);
}
Get the fahrenheit temperature
celsius = (fahrenheit-32)/1.8
Print the fahrenheit and celsius degrees
StartStart
EndEnd
Prompt the user for a temperature
PROBLEMConvert a fahrenheit temperature to celsius
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First C Program Dissected#include <stdio.h>
/* Convert fahrenheit to celsius */main() { float fahrenheit; float celsius;
printf(“Enter a temp in fahrenheit: “);
scanf(“%f”, &fahrenheit); celsius = (fahrenheit-32)/1.8; printf(“%f degrees fahrenheit equals
%f degrees celsius\n”, fahrenheit, celsius);
}
Load the standard library to handle I/O
Comments: In between /* …. */
main(): Designates where the execution will start
Curly bracesDetermines the beginning and the end of a code block
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First C Program Dissected (cont)
#include <stdio.h>
/* Convert fahrenheit to celsius */main() { float fahrenheit; float celsius;
printf(“Enter a temp in fahrenheit: “);
scanf(“%f”, &fahrenheit); celsius = (fahrenheit-32)/1.8; printf(“%f degrees fahrenheit
equals %f degrees celsius\n”, fahrenheit, celsius);
}
Statements• Steps of your program. • Statements end with a semicolon (;)
Variables• A variable is a memory location whose contents can be filled and changed during program execution• float is the variable type• fahrenheit & celsius are variable names
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First C Program Dissected (cont)
#include <stdio.h>
/* Convert fahrenheit to celsius */main() { float fahrenheit; float celsius;
printf(“Enter a temp in fahrenheit: “);
scanf(“%f”, &fahrenheit); celsius = (fahrenheit-32)/1.8; printf(“%f degrees fahrenheit
equals %f degrees celsius\n”, fahrenheit, celsius);
}
OutputUse printf function to print something on the screen
InputUse scanf function to read something from the keyboard
ComputationUse mathematical operators to perform computation
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From C Code-2-Machine Code
• Now that we have our C program, how does it get translated to machine code, i.e., to 0s and 1s– Remember a computer
understands just 0s and 1s
• We use several system software components to translate out C program to machine code– Compiler, assembler,
linker, loader+OS
prog.c
COMPILER
ASSEMBLER
LINKER
LOADER + OS
prog.s
prog.o printf.o
scanf.o
prog.exe
program running
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First C Program Executed
#include <stdio.h>
/* Convert fahrenheit to celsius */main() { float fahrenheit, celsius;
printf(“Enter a temp in fahrenheit: “); scanf(“%f”, &fahrenheit); celsius = (fahrenheit-32)/1.8; printf(“%f degrees fahrenheit equals %f
degrees celsius\n”, fahrenheit, celsius);
} /* end-main */
?fahrenheit
?celsius
DATA
?75.4
24.11
PROGRAM
Enter a temp in fahrenheit: 75.4 degrees fahrenheit equals 24.11 degrees celsius
75.4
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What’s a Variable?• A memory location whose
contents can be filled and changed during program execution– Each variable has a type and name– Type defines the type of information
that can be stored in that memory location
– Name is a label that allows us to refer to that memory location
MemoryMemory
namenamenumber2number2number1number1
– int number1; /* stores a natural number (152) */– float number2; /* stores a real number (65.324) */
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Variable Declaration• The basic format for declaring variables is datatype varName, varName, ... ;
where datatype may beint /* Stores a natural number, e.g., 34532 */
float /* Stores a real number, e.g., 15.342 */
double /* Also stores a real number, but more precision */
/* e.g., 345.22359573943 */
char /* Stores an ASCII char, e.g., ‘A’ */
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Variable (Identifier) Names• C identifiers consist of letters and digits in
any order, except that:– The first character must be a letter
• fahrenheit, celsius, sum, a123, i1, i2, i3
– The identifier can be in lowercase or uppercase – The upper and lower cases may be mixed
• sum, Sum, SUM
– The underscore (_) can be included and it can also be the first char of the identifier
• total_sum, num_students, _localVar
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Variable (Identifier) Names (cont)
• C identifiers consist of letters and digits in any order, except that:– The identifiers should not contain a blank
space, hyphen or quotes • “sum” : quotes(“) is illegal• total-sum : illegal character ( - ) • total sum : blank space should not be there
– Identifier names are case-sensitive• sum, Sum and sUm are all different identifiers
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Variable Examples & Assignment
int x; /* Define 1 int */float fahrenheit, celsius; /* Define 2 floats */double d; /* Define 1 double */
x = -85; /* Assign -85 to x */d = 3.4545673; /* Assign 3.4545673 to d */fahrenheit = 75.0; /* Assign 75.0 to fahrenheit */celsius = 23.4; /* Assign 23.4 to celsius */
• = is the assignment operator– Syntax: identifier = value;– Changes the contents of the memory location
that the variable refers to
-85
x
3.4545673
d
75.0
fahrenheit
23.4
celsius
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Variable Declaration & Initialization
int sum = 32000; /* can be positive */int x = -23, y = 458; /* and negative */
float f1 = 34.5;float fahrenheit = 75.3, celsius = 0;
double d1, d2 = -4.567; /* Can be negative */double d3 = 5e+3; /* Scientific notation: 5x10^3 */
d1 = 675e-4; /* 675x10^-4 = 0.0675 */
• Variables can be initialized during declaration
32000
sum
-23
x
458
y
34.5
f1
75.3
fahrenheit
0.0
celsius
0.0675
d1
-4.567
d2
5000
d3
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Character Variables• Represents a single character
– Characters are letters of the alphabet (both upper and lower case)
– Ten digits 0 through 9– Special symbols such as + $ . , - !
• Characters need to be enclosed in single quotes– e.g. 'A'
char letter;
letter = 'A'; /* Letter A */ letter = ‘9’; /* Digit 9 */
char letter = ‘c’; /* initialization */
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Character Variables (more)• In fact, char corresponds to 1 byte natural
number– char type variables occupy 1 byte in memory
• What’s really stored in a char variable is the ASCII value of the character– ASCII value of ‘A’ is 65– ASCII value of ‘B’ is 66
– ASCII value of ‘0’ is 48– ASCII value of ‘1’ is 49
– http://www.asciitable.com/
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ASCII Table
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Special Characters• Characters are enclosed in single quotes
– How do I denote a single quote?
char letter;letter = ''';
char letter;letter = '\'';
• When a backslash (\) is used in front of a character, the combination is called an Escape Sequence
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Escape Sequences• Combinations of a backslash (\) and a
character that tells the compiler to escape from the ways these character would normally be interpreted
• Commonly used escape sequences – \n move to next line– \t move to next tab setting– \\ backslash character– \' single quote– \" double quote
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sizeof Operator
int a = sizeof(char); /* Returns 1 */int b = sizeof(short); /* Returns 2 */int c = sizeof(int); /* Returns 4 */int d = sizeof(long); /* Returns 4 or 8 */
int e = sizeof(float); /* Returns 4 */int f = sizeof(double); /* Returns 8 */
• You can learn the number of bytes that a certain type occupies in memory using the sizeof operator
1
a
2
b4
c
4/8
d
4
e
8
f
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Keyboard Input/ Display Output
#include <stdio.h>
int main() {scanf();printf();
} /* end-main */
• Achieved using scanf/printf functions– Definitions of these functions are in <stdio.h>– So we must include these definitions at the start
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printf/scanf Functions• Formatted input/output functions in C
– Definitions in standard I/O library <stdio.h>– If we are using these functions in our programs,
we must include these definitions by #include <stdio.h> at the beginning of our programs
printf(FormatString, expression1, expression2, …);scanf(FormatString, &variable1, &variable2, …);
• FormatString is enclosed in double quotes– “abcdxyz”– “number is %d\n”
• Format specification %d is used to print an int
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printf Examplesint x = 45;float y = 56.7;
printf(“What’s up?\n”); /* Print a msg only */
printf(“Number x: %d, 2 times y: %f\n”, x, y);
printf(“Sum of x and y is %f\n”, x+y);
Format sectionFormat section Expression Expression sectionsection
What’s up?Number x: 45, 2 times y: 56.70000Sum of x and y is 101.7000
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printf Format Specifiers
Character
Type Output Format
c char A single-byte character
d int Signed decimal integer
f float Signed value having the form [ – ]dddd.dddd, where dddd is one or more decimal digits
lf double Signed value having the form [ – ]dddd.dddd, where dddd is one or more decimal digits
e floatdouble
Signed real number having the form
[ – ]d.dddd e [sign]ddd
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printf Examples
printf(“First line.\nSecond line. Percent char %% XYZ\n”);printf(“3rd line. Slash \\, single quote \`\n”);printf(“4th line. Double quote \”. End\n”);printf(“Line 5. char A: %c, ASCII value: %d\n”, ‘A’, ‘A’);printf(“Line 6. Tab\tTab.\n”);printf(“Line 7. Carriage return:\rOK\n”);printf(“Line 8.\n”);
First line.Second line. Percent char % XYZ3rd line. Slash \\, single quote `4th line. Double quote “. EndLine 5. char A: A, ASCII value: 65Line 6. Tab Tab.OKne 7. Carriage return:Line 8.
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printf Examples
char c1 = ‘A’, c2 = ‘c’, c3 = ‘9’, c4 = ‘\\’;int x = 11, y = 16;float f = 56.7;double d = 456.789345;
printf(“c1 is <%c>, c2 is <%c>, c3: <%c>, c4: <%c>\n”, c1, c2, c3, c4); printf(“x is <%d>, y is <%d>, avg is <%d>\n”, x, y,
(x+y)/2);printf(“Sum of <%f> and <%lf> is <%lf>\n”, f, d, f+d);
c1 is <A>, c2 is <c>, c3: <9>, c4: <\>x is <11>, y is <16>, avg is <13>Sum of <56.70000> and <456.7893450000000> is <513.4893450000000>
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printf: Specifying Field Length &
Justificationchar c1 = ‘A’, c2 = ‘c’;int x = 11, y = 16;float f = 56.7;double d = 456.789345;
printf(“+-------+-------+\n”);printf(“|%7c|%-7c|\n”, c1, c2);printf(“|%-7d|%7d|\n”, x, y);printf(“|%7.2f|%-7.1lf|\n”, f, d);Printf(“+-------+-------+\n”);
+-------+-------+| A|c ||11 | 16|| 56.70|456.7 |+-------+-------+
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More printf Examples
printf("%.9f\n", 300.00145678901f);printf("%.19lf\n", 300.0014567890123456789);
300.001464844300.0014567890123700000
float has 7 digit precision here (3000014) double has 16 digits (3000014567890123)
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scanf Exampleschar c;int x;float y;double d;
scanf(“%d”, &x); /* Read 1 int */
scanf(“%c”, &c); /* Read 1 char */scanf(“%f”, &y); /* Read 1 float */scanf(“%lf”, &d); /* Read 1 double */
/* Read 1 int, 1 float, 1 double */scanf(“%d%f%lf”, &x, &y, &d);
Format Format sectionsection
Variable Variable AddressAddress
• “%c” char• “%d” int• “%f” float• “%lf”
double
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getchar and putchar Functions
• getchar reads a single character from the keyboard• putchar writes a single character on the screen• Example:
char c;
printf(“What-to-do Menu \n”);printf(“ (a) To write a C program \n”);printf(“ (b) To go swimming \n”);printf(“ (c) To watch TV \n”);printf(“Select one option: ”);
c = getchar(); /* Read the user choice */getchar(); /* Skip newline ‘\n’ char */
putchar(‘B’); /* Prints B on the screen */c = ‘Z’; putchar(c); /* prints Z on the screen */