C Interview Questions and Answers
What
is C language?
The
C programming language is a standardized programming language
developed
in the early 1970s by Ken Thompson and Dennis Ritchie for
use
on the UNIX operating system. It has since spread to many other
operating
systems, and is one of the most widely used programming
languages.
C is prized for its efficiency, and is the most popular
programming
language for writing system software, though it is also
used
for writing applications.
printf() Function
What is the output of printf("%d")?
1.
When we write printf("%d",x); this means compiler will print the
value
of x. But as here, there is nothing after %d so compiler will show
in
output window garbage value.
2.
When we use %d the compiler internally uses it to access the
argument
in the stack (argument stack). Ideally compiler determines
the
offset of the data variable depending on the format specification
string.
Now when we write printf("%d",a) then compiler first accesses
the
top most element in the argument stack of the printf which is %d
and
depending on the format string it calculated to offset to the actual
data
variable in the memory which is to be printed. Now when only %d
will
be present in the printf then compiler will calculate the correct
offset
(which will be the offset to access the integer variable) but as
the
actual data object is to be printed is not present at that memory
location
so it will print what ever will be the contents of that memory
location.
3.
Some compilers check the format string and will generate an error
without
the proper number and type of arguments for things like
printf(...) and
scanf(...).
malloc()
Function- What is the difference between "calloc(...)" and
"malloc(...)"?
1. calloc(...)
allocates a block of memory for an array of elements of a
certain size. By
default the block is initialized to 0. The total number of
memory allocated
will be (number_of_elements * size).
malloc(...)
takes in only a single argument which is the memory
required in
bytes. malloc(...) allocated bytes of memory and not blocks
of memory like
calloc(...).
2. malloc(...)
allocates memory blocks and returns a void pointer to the
allocated space,
or NULL if there is insufficient memory available.
calloc(...)
allocates an array in memory with elements initialized to 0
and returns a
pointer to the allocated space. calloc(...) calls malloc(...)
in order to use
the C++ _set_new_mode function to set the new handler mode.
printf()
Function- What is the difference between "printf(...)" and
"sprintf(...)"?
sprintf(...)
writes data to the character array whereas printf(...) writes data to the
standard
output device.
Compilation
How to reduce a final size of executable?
Size of the
final executable can be reduced using dynamic linking for
libraries.
Linked
Lists -- Can you tell me how to check whether a linked list is circular?
Create two
pointers, and set both to the start of the list. Update each
as follows:
while (pointer1)
{
pointer1 =
pointer1->next;
pointer2 =
pointer2->next;
if (pointer2)
pointer2=pointer2->next;
if (pointer1 ==
pointer2) {
print
("circular");
}
}
If a list is
circular, at some point pointer2 will wrap around and be
either at the
item just before pointer1, or the item before that. Either
way, its either
1 or 2 jumps until they meet.
"union"
Data Type What is the output of the following program? Why?
#include
main() {
typedef union {
int a;
char b[10];
float c;
}
Union;
Union x,y =
{100};
x.a = 50;
strcpy(x.b,"hello");
x.c = 21.50;
printf("Union
x : %d %s %f n",x.a,x.b,x.c);
printf("Union
y : %d %s %f n",y.a,y.b,y.c);
}
What
does static variable mean?
there are 3 main
uses for the static.
1. If you
declare within a function:
It retains the
value between function calls
2.If it is
declared for a function name:
By default
function is extern..so it will be visible from other files if the
function
declaration is as static..it is invisible for the outer files
3. Static for
global variables:
By default we
can use the global variables from outside files If it is
static
global..that variable is limited to with in the file
Advantages
of a macro over a function?
Macro gets to
see the Compilation environment, so it can expand __
__TIME__
__FILE__ #defines. It is expanded by the preprocessor.
For example, you
can’t do this without macros
#define
PRINT(EXPR) printf( #EXPR “=%d\n”, EXPR)
PRINT( 5+6*7 )
// expands into printf(”5+6*7=%d”, 5+6*7 );
You can define
your mini language with macros:
#define
strequal(A,B) (!strcmp(A,B))
Macros are a
necessary evils of life. The purists don’t like them, but
without it no
real work gets done.
What
are the differences between malloc() and calloc()?
There are 2
differences.
First, is in the
number of arguments. malloc() takes a single
argument(memory
required in bytes), while calloc() needs 2
arguments(number
of variables to allocate memory, size in bytes of a
single
variable).
Secondly,
malloc() does not initialize the memory allocated, while
calloc()
initializes the allocated memory to ZERO.
What
are the different storage classes in C?
C has three
types of storage: automatic, static and allocated.
Variable having
block scope and without static specifier have
automatic
storage duration.
Variables with
block scope, and with static specifier have static scope.
Global variables
(i.e, file scope) with or without the static specifier also
have static
scope.
Memory obtained
from calls to malloc(), alloc() or realloc() belongs to
allocated
storage class.
What
is the difference between strings and character arrays?
A major
difference is: string will have static storage duration, whereas
as a character
array will not, unless it is explicity specified by using the
static keyword.
Actually, a
string is a character array with following properties: * the multibyte
character sequence, to which we generally call string,
is used to
initialize an array of static storage duration. The size of this
array is just
sufficient to contain these characters plus the terminating
NUL character.
* it not
specified what happens if this array, i.e., string, is modified.
* Two strings of
same value[1] may share same memory area. For
example, in the
following declarations:
char *s1 =
“Calvin and Hobbes”;
char *s2 =
“Calvin and Hobbes”;
the strings
pointed by s1 and s2 may reside in the same memory
location. But,
it is not true for the following:
char ca1[] =
“Calvin and Hobbes”;
char ca2[] =
“Calvin and Hobbes”;
[1] The value of
a string is the sequence of the values of the contained
characters, in
order.
Difference
between const char* p and char const* p
In const char*
p, the character pointed by ‘p’ is constant, so u cant
change the value
of character pointed by p but u can make ‘p’ refer to
some other
location.
in char const*
p, the ptr ‘p’ is constant not the character referenced by
it, so u cant
make ‘p’ to reference to any other location but u can
change the value
of the char pointed by ‘p’.
What
is hashing?
To hash means to
grind up, and that’s essentially what hashing is all
about. The heart
of a hashing algorithm is a hash function that takes
your nice, neat
data and grinds it into some random-looking integer.
The idea behind
hashing is that some data either has no inherent
ordering (such
as images) or is expensive to compare (such as
images). If the
data has no inherent ordering, you can’t perform
comparison searches.
If the data is
expensive to compare, the number of comparisons used
even by a binary
search might be too many. So instead of looking at
the data
themselves, you’ll condense (hash) the data to an integer (its
hash value) and
keep all the data with the same hash value in the
same place. This
task is carried out by using the hash value as an
index into an
array.
To search for an
item, you simply hash it and look at all the data whose
hash values
match that of the data you’re looking for. This technique
greatly lessens
the number of items you have to look at. If the
parameters are
set up with care and enough storage is available for
the hash table,
the number of comparisons needed to find an item can
be made
arbitrarily close to one.
One aspect that
affects the efficiency of a hashing implementation is
the hash
function itself. It should ideally distribute data randomly
throughout the
entire hash table, to reduce the likelihood of collisions.
Collisions occur
when two different keys have the same hash value.
There are two
ways to resolve this problem. In open addressing, the
collision is
resolved by the choosing of another position in the hash
table for the
element inserted later. When the hash table is searched, if
the entry is not
found at its hashed position in the table, the search
continues
checking until either the element is found or an empty
position in the
table is found.
The second
method of resolving a hash collision is called chaining. In
this method, a
bucket or linked list holds all the elements whose keys
hash to the same
value. When the hash table is searched, the list must
be searched
linearly.
How
can you determine the size of an allocated portion of memory?
You can’t,
really. free() can , but there’s no way for your program to
know the trick
free() uses. Even if you disassemble the library and
discover the
trick, there’s no guarantee the trick won’t change with the
next release of
the compiler.
Can
static variables be declared in a header file?
You can’t
declare a static variable without defining it as well (this is
because the
storage class modifiers static and extern are mutually
exclusive). A
static variable can be defined in a header file, but this
would cause each
source file that included the header file to have its
own private copy of the variable, which is
probably not what was
intended.
Can
a variable be both const and volatile?
Yes. The const
modifier means that this code cannot change the value
of the variable,
but that does not mean that the value cannot be
changed by means
outside this code. For instance, in the example in
FAQ 8, the timer
structure was accessed through a volatile const
pointer. The
function itself did not change the value of the timer, so it
was declared
const. However, the value was changed by hardware on
the computer, so
it was declared volatile. If a variable is both const and
volatile, the
two modifiers can appear in either order.
Can
include files be nested?
Yes. Include
files can be nested any number of times. As long as you
use
precautionary measures , you can avoid including the same file
twice. In the
past, nesting header files was seen as bad programming
practice,
because it complicates the dependency tracking function of
the MAKE program
and thus slows down compilation. Many of today’s
popular compilers
make up for this difficulty by implementing a
concept called
precompiled headers, in which all headers and
associated
dependencies are stored in a precompiled state.
Many programmers
like to create a custom header file that has
#include
statements for every header needed for each module. This is
perfectly
acceptable and can help avoid potential problems relating to
#include files,
such as accidentally omitting an #include file in a
module.
When
does the compiler not implicitly generate the address of the first
element
of an array?
Whenever an
array name appears in an expression such as
- array as an
operand of the sizeof operator
- array as an
operand of & operator
- array as a
string literal initializer for a character array
Then the
compiler does not implicitly generate the address of the
address of the
first element of an array.
What
is a null pointer?
There are times
when it’s necessary to have a pointer that doesn’t
point to
anything. The macro NULL, defined in , has a value that’s
guaranteed to be
different from any valid pointer. NULL is a literal zero,
possibly cast to
void* or char*. Some people, notably C++
programmers,
prefer to use 0 rather than NULL.
The null pointer
is used in three ways:
1) To stop
indirection in a recursive data structure
2) As an error
value
3) As a sentinel
value
What
is the difference between text and binary modes?
Streams can be
classified into two types: text streams and binary
streams. Text
streams are interpreted, with a maximum length of 255
characters. With
text streams, carriage return/line feed combinations
are translated
to the newline n character and vice versa. Binary
streams are
uninterrupted and are treated one byte at a time with no
translation of
characters. Typically, a text stream would be used for
reading and
writing standard text files, printing output to the screen or
printer, or
receiving input from the keyboard.
A binary text
stream would typically be used for reading and writing
binary files
such as graphics or word processing documents, reading
mouse input, or
reading and writing to the modem.
What
is static memory allocation and dynamic memory allocation?
Static memory
allocation: The compiler allocates the required memory
space for a
declared variable.By using the address of operator,the
reserved address
is obtained and this address may be assigned to a
pointer
variable.Since most of the declared variable have static
memory,this way
of assigning pointer value to a pointer variable is
known as static
memory allocation. memory is assigned during
compilation
time.
Dynamic memory
allocation: It uses functions such as malloc( ) or
calloc( ) to get
memory dynamically.If these functions are used to get
memory
dynamically and the values returned by these functions are
assingned to
pointer variables, such assignments are known as
dynamic memory
allocation.memory is assined during run time.
When
should a far pointer be used?
Sometimes you
can get away with using a small memory model in
most of a given
program. There might be just a few things that don’t fit
in your small
data and code segments. When that happens, you can
use explicit far pointers and function
declarations to get at the rest of
memory. A far
function can be outside the 64KB segment most
functions are
shoehorned into for a small-code model. (Often, libraries
are declared
explicitly far, so they’ll work no matter what code model
the program
uses.) A far pointer can refer to information outside the
64KB data
segment. Typically, such pointers are used with farmalloc()
and such, to
manage a heap separate from where all the rest of the
data lives. If
you use a small-data, large-code model, you should
explicitly make
your function pointers far.
How
are pointer variables initialized?
Pointer variable
are initialized by one of the following two ways
- Static memory
allocation
- Dynamic memory
allocation
Difference
between arrays and pointers?
- Pointers are
used to manipulate data using the address. Pointers use
* operator to
access the data pointed to by them
- Arrays use
subscripted variables to access and manipulate data.
Array variables
can be equivalently written using pointer expression.
Is
using exit() the same as using return?
No. The exit()
function is used to exit your program and return control
to the operating
system. The return statement is used to return from a
function and
return control to the calling function. If you issue a return
from the main()
function, you are essentially returning control to the
calling
function, which is the operating system. In this case, the return
statement and
exit() function are similar.
What
is a method?
Method is a way
of doing something, especially a systematic way;
implies an
orderly logical arrangement (usually in steps).
What
is indirection?
If you declare a
variable, its name is a direct reference to its value. If
you have a
pointer to a variable, or any other object in memory, you
have an indirect reference to its
value.
What
is modular programming?
If a program is
large, it is subdivided into a number of smaller
programs that
are called modules or subprograms. If a complex
problem is
solved using more modules, this approach is known as
modular
programming.
How
many levels deep can include files be nested?
Even though
there is no limit to the number of levels of nested include
files you can
have, your compiler might run out of stack space while
trying to
include an inordinately high number of files. This number
varies according
to your hardware configuration and possibly your
compiler.
What
is the difference between declaring a variable and defining a variable?
Declaring a
variable means describing its type to the compiler but not
allocating any
space for it. Defining a variable means declaring it and
also allocating
space to hold the variable. You can also initialize a
variable at the
time it is defined.
What
is an lvalue?
An lvalue is an
expression to which a value can be assigned. The lvalue
expression is
located on the left side of an assignment statement,
whereas an
rvalue is located on the right side of an assignment
statement. Each
assignment statement must have an lvalue and an
rvalue. The
lvalue expression must reference a storable variable in
memory. It
cannot be a constant.
Differentiate
between an internal static and external static variable?
An internal
static variable is declared inside a block with static storage
class whereas an
external static variable is declared outside all the
blocks in a
file.An internal static variable has persistent storage,block
scope and no
linkage.An external static variable has permanent
storage,file scope and internal
linkage.
What is the difference between a string and an array?
An
array is an array of anything. A string is a specific kind of an array
with
a well-known convention to determine its length.
There
are two kinds of programming languages: those in which a string
is
just an array of characters, and those in which it’s a special type. In
C, a
string is just an array of characters (type char), with one wrinkle: a
C
string always ends with a NUL character.
The
“value” of an array is the same as the address of (or a pointer to)
the
first element; so, frequently, a C string and a pointer to char are
used
to mean the same thing.
An
array can be any length. If it’s passed to a function, there’s no way
the
function can tell how long the array is supposed to be, unless some
convention
is used. The convention for strings is NUL termination; the
last
character is an ASCII NUL (‘’) character.
What is an argument? Differentiate between formal arguments and
actual
arguments?
An
argument is an entity used to pass the data from calling function to
the
called function. Formal arguments are the arguments available in
the
function definition. They are preceded by their own data types.
Actual
arguments are available in the function call.
What are advantages and disadvantages of external storage class?
Advantages
of external storage class
1)Persistent
storage of a variable retains the latest value
2)The
value is globally available
Disadvantages
of external storage class
1)The
storage for an external variable exists even when the variable is
not
needed
2)The
side effect may produce surprising output
3)Modification
of the program is difficult
4)Generality
of a program is affected
What is a void pointer?
A
void pointer is a C convention for a raw address. The compiler has no
idea what type
of object a void Pointer really points to. If you write
int *ip;
ip points to an
int. If you write
void *p;
p doesn’t point
to a void!
In C and C++,
any time you need a void pointer, you can use another
pointer type.
For example, if you have a char*, you can pass it to a
function that
expects a void*. You don’t even need to cast it. In C (but
not in C++), you
can use a void* any time you need any kind of
pointer, without
casting. (In C++, you need to cast it).
A void pointer
is used for working with raw memory or for passing a
pointer to an
unspecified type.
Some C code
operates on raw memory. When C was first invented,
character
pointers (char *) were used for that. Then people started
getting confused
about when a character pointer was a string, when it
was a character
array, and when it was raw memory.
When
should a type cast not be used?
A type cast
should not be used to override a const or volatile
declaration.
Overriding these type modifiers can cause the program to
fail to run
correctly.
A type cast
should not be used to turn a pointer to one type of
structure or
data type into another. In the rare events in which this
action is
beneficial, using a union to hold the values makes the
programmer’s
intentions clearer.
When
is a switch statement better than multiple if statements?
A switch
statement is generally best to use when you have more than
two conditional
expressions based on a single variable of numeric type.
What
is a static function?
A static
function is a function whose scope is limited to the current
source file.
Scope refers to the visibility of a function or variable. If the
function or
variable is visible outside of the current source file, it is said
to have global,
or external, scope. If the function or variable is not
visible outside
of the current source file, it is said to have local, or
static, scope.
What
is a pointer variable?
A pointer
variable is a variable that may contain the address of another
variable or any
valid address in the memory.
What
is a pointer value and address?
A pointer value
is a data object that refers to a memory location. Each
memory location
is numbered in the memory. The number attached to
a memory
location is called the address of the location.
What
is a modulus operator? What are the restrictions of a modulus
operator?
A Modulus
operator gives the remainder value. The result of x%y is
obtained by
(x-(x/y)*y). This operator is applied only to integral
operands and
cannot be applied to float or double.
Differentiate
between a linker and linkage?
A linker
converts an object code into an executable code by linking
together the
necessary build in functions. The form and place of
declaration
where the variable is declared in a program determine the
linkage of
variable.
What
is a function and built-in function?
A large program
is subdivided into a number of smaller programs or
subprograms.
Each subprogram specifies one or more actions to be
performed for a
large program. such subprograms are functions.
The function
supports only static and extern storage classes. By
default,
function assumes extern storage class. functions have global
scope. Only
register or auto storage class is allowed in the function
parameters.
Built-in functions that predefined and supplied along with
the compiler are
known as built-in functions. They are also known as
library
functions.
Why
should I prototype a function?
A function
prototype tells the compiler what kind of arguments a
function is
looking to receive and what kind of return value a function
is going to give
back. This approach helps the compiler ensure that
calls to a
function are made correctly and that no erroneous type
conversions are
taking place.
What
is Polymorphism ?
'Polymorphism'
is an object oriented term. Polymorphism may be
defined as the
ability of related objects to respond to the same
message with
different, but appropriate actions. In other words,
polymorphism
means taking more than one form. Polymorphism leads
to two important
aspects in Object Oriented terminology - Function
Overloading and
Function Overriding. Overloading is the practice of
supplying more
than one definition for a given function name in the
same scope. The
compiler is left to pick the appropriate version of the
function or operator
based on the arguments with which it is called.
Overriding
refers to the modifications made in the sub class to the
inherited
methods from the base class to change their behavior.
What
is Operator overloading ?
When an operator
is overloaded, it takes on an additional meaning
relative to a
certain class. But it can still retain all of its old meanings.
Examples:
1) The operators
>> and << may be used for I/O operations because
in the header,
they are overloaded.
2) In a stack
class it is possible to overload the + operator so that it
appends the
contents of one stack to the contents of another. But the
+ operator still
retains its original meaning relative to other types of
data.
What
is the difference between goto and longjmp() and setjmp()?
A goto statement
implements a local jump of program execution, and
the longjmp()
and setjmp() functions implement a nonlocal, or far,
jump of program
execution.
Generally, a
jump in execution of any kind should be avoided because
it is not
considered good programming practice to use such statements
as goto and
longjmp in your program.
A goto statement
simply bypasses code in your program and jumps to
a predefined
position. To use the goto statement, you give it a labeled
position to jump
to. This predefined position must be within the same
function. You
cannot implement gotos between functions.
When your
program calls setjmp(), the current state of your program is
saved in a
structure of type jmp_buf. Later, your program can call the
longjmp()
function to restore the program’s state as it was when you
called
setjmp().Unlike the goto statement, the longjmp() and setjmp()
functions do not
need to be implemented in the same function.
However, there
is a major drawback to using these functions: your
program, when restored
to its previously saved state, will lose its
references to
any dynamically allocated memory between the
longjmp() and
the setjmp(). This means you will waste memory for
every malloc()
or calloc() you have implemented between your
longjmp() and
setjmp(), and your program will be horribly inefficient.
It is highly
recommended that you avoid using functions such as
longjmp() and
setjmp() because they, like the goto statement, are
quite often an indication of poor
programming practice.
C - PROGRAM QUESTION AND ANSWERS
- What will print out?
main()
{
char *p1=“name”;
char *p2;
p2=(char*)malloc(20);
memset (p2, 0, 20);
while(*p2++ = *p1++);
printf(“%sn”,p2);
{
char *p1=“name”;
char *p2;
p2=(char*)malloc(20);
memset (p2, 0, 20);
while(*p2++ = *p1++);
printf(“%sn”,p2);
}
Answer:empty string.
- What will be printed as the result of the operation below:
main()
{
int x=20,y=35;
x=y++ + x++;
y= ++y + ++x;
printf(“%d%dn”,x,y);
{
int x=20,y=35;
x=y++ + x++;
y= ++y + ++x;
printf(“%d%dn”,x,y);
}
Answer : 5794
- What will be printed as the result of the operation below:
main()
{
int x=5;
printf(“%d,%d,%dn”,x,x< <2,x>>2);
{
int x=5;
printf(“%d,%d,%dn”,x,x< <2,x>>2);
}
Answer: 5,20,1
- What will be printed as the result of the operation below:
#define swap(a,b) a=a+b;b=a-b;a=a-b;
void
main()
{
int x=5, y=10;
swap (x,y);
printf(“%d %dn”,x,y);
swap2(x,y);
printf(“%d %dn”,x,y);
}
{
int x=5, y=10;
swap (x,y);
printf(“%d %dn”,x,y);
swap2(x,y);
printf(“%d %dn”,x,y);
}
int
swap2(int a, int b)
{
int temp;
temp=a;
b=a;
a=temp;
return 0;
{
int temp;
temp=a;
b=a;
a=temp;
return 0;
}
Answer: 10, 5
10, 5
10, 5
- What will be printed as the result of the operation below:
main()
{
char *ptr = ” Cisco Systems”;
*ptr++; printf(“%sn”,ptr);
ptr++;
printf(“%sn”,ptr);
{
char *ptr = ” Cisco Systems”;
*ptr++; printf(“%sn”,ptr);
ptr++;
printf(“%sn”,ptr);
}
Answer:Cisco Systems
isco systems
isco systems
- What will be printed as the result of the operation below:
main()
{
char s1[]=“Cisco”;
char s2[]= “systems”;
printf(“%s”,s1);
}
{
char s1[]=“Cisco”;
char s2[]= “systems”;
printf(“%s”,s1);
}
Answer: Cisco
- What will be printed as the result of the operation below:
main()
{
char *p1;
char *p2;
{
char *p1;
char *p2;
p1=(char *)malloc(25);
p2=(char *)malloc(25);
p2=(char *)malloc(25);
strcpy(p1,”Cisco”);
strcpy(p2,“systems”);
strcat(p1,p2);
strcpy(p2,“systems”);
strcat(p1,p2);
printf(“%s”,p1);
}
Answer: Ciscosystems
- The following variable is available in file1.c, who can access it?:
9. static
int average;
Answer: all the functions in the file1.c can access the variable.
- WHat will be the result of the following code?
#define TRUE 0 // some
code
while(TRUE)
{
{
// some code
}
Answer: This will not go into the loop as TRUE is defined as 0.
- What will be printed as the result of the operation below:
int
x;
int modifyvalue()
{
return(x+=10);
}
int modifyvalue()
{
return(x+=10);
}
int
changevalue(int x)
{
return(x+=1);
}
{
return(x+=1);
}
void
main()
{
int x=10;
x++;
changevalue(x);
x++;
modifyvalue();
printf("First output:%dn",x);
{
int x=10;
x++;
changevalue(x);
x++;
modifyvalue();
printf("First output:%dn",x);
x++;
changevalue(x);
printf("Second output:%dn",x);
modifyvalue();
printf("Third output:%dn",x);
changevalue(x);
printf("Second output:%dn",x);
modifyvalue();
printf("Third output:%dn",x);
}
Answer: 12 , 13 , 13
- What will be printed as the result of the operation below:
main()
{
int x=10, y=15;
x = x++;
y = ++y;
printf(“%d %dn”,x,y);
{
int x=10, y=15;
x = x++;
y = ++y;
printf(“%d %dn”,x,y);
}
Answer: 11, 16
- What will be printed as the result of the operation below:
main()
{
int a=0;
if(a==0)
printf(“Cisco Systemsn”);
printf(“Cisco Systemsn”);
{
int a=0;
if(a==0)
printf(“Cisco Systemsn”);
printf(“Cisco Systemsn”);
}
Answer: Two lines with “Cisco Systems” will be printed.
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