part iii : language processing, interpretation ... · note that c doesn’t support call by...
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PART III : Language processing, interpretation, translation, the concept of binding, variables, name and scope, Type, l-value, r-value, reference and unnamed variables, routines, generic routines, aliasing and overloading, an abstractsemanticprocessor, run time structure. Casestudy- C run time structure
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Aliasing in the context of programming languages refers to
(GATE CS 2000)
((OPTION_
A))
multiple variables having the same memory location
((OPTION_
B))
multiple variables having the same value
((OPTION_
C))
multiple variables having the same identifier
((OPTION_
D))
multiple uses of the same variable
((CORRECT
_CHOICE))
(A/B/C/D)
A
((EXPLANA
TION))
(OPTIONAL
)
Aliasing describes a situation in which a data location in
memory can be accessed through different symbolic names
in the program.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
In the evaluation of a computer language, all of the
following characteristics should be considered except?
((OPTION_
A))
Environment : S/w development tools
((OPTION_
B))
Efficiency
((OPTION_
C))
readability
((OPTION_
D))
hardware maintainance costs
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
No Explanation
((MARKS))
(1/2/3...)
2
((QUESTIO
N))
What is printed by the print statements in the program P1
assuming call by reference parameter passing?
((OPTION_
A))
10 , 3
((OPTION_
B))
31 , 3
((OPTION_
C))
27, 7
((OPTION_
D))
None of the above
((CORRECT
_CHOICE))
(A/B/C/D)
B
((EXPLANA
TION))
Note the order in which parameters are passed. Inside
func1(), x will actually refer to y of main(); and y and z will
(OPTIONAL
)
refer to x of main(). The Statement y = y + 4; will result in
14 and statement z = x + y + z will make z = 3 + 14 + 14 =
31 (because y and z point to same variable x of main).
Since z refers to x of main(), main will print 31.
((MARKS))
(1/2/3...)
2
((QUESTIO
N))
Consider the following program
Program P2
var n: int:
procedure W(var x: int)
begin
x=x+1;
print x;
end
procedure D
begin
var n: int;
n=3;
W(n);
end
begin //beginP2
n=10;
D;
end
If the language has dynamic scoping and parameters are
passed by reference, what will be printed by the program?
((OPTION_
A))
10
((OPTION_ 11
B))
((OPTION_
C))
3
((OPTION_
D))
None of Above
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
Program will print 4.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
The- results returned by functions under value-result and
reference parameter passing conventions
((OPTION_
A))
Do not differ
((OTION_B)
)
Differ in the presence of loops
((OPTION_
C))
Differ in all cases
((OPTION_
D))
May differ in the presence of exceptions
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
In call-by-reference evaluation, a function receives an
implicit reference to the argument, rather than a copy of its
value. This typically means that the function can modify
) the argument- something that will be seen by its caller.
Note that C doesn’t support call by reference but call-by-
reference can be implemented using pointers.
Call-by-value-result uses a combination of call-by-value
and call-by-reference. Call-by-value-result works by
creating local versions of the parameters passed in.
However, the values in these local versions are copied back
to the original arguments after the end of the procedure.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Values that are passed between program and its called
subroutine are classified as
((OPTION_
A))
parameter.
((OTION_B)
)
argument.
((OPTION_
C))
global values.
((OPTION_
D))
both a and b.
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Program subroutines are
((OPTION_
A))
called by other programs.
((OTPION_
B))
fixed variable.
((OPTION_
C))
default constants.
((OPTION_
D))
default variables.
((CORRECT
_CHOICE))
(A/B/C/D)
A
((EXPLANA
TION))
(OPTIONAL
)
No Explanation
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Program routine which is used by one or more computer
programs is classified as
((OPTION_
A))
super-routine.
((OTPION_
B))
subroutine.
((OPTION_ dimension routine.
C))
((OPTION_
D))
array routine.
((CORRECT
_CHOICE))
(A/B/C/D)
B
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Program used for interactive computing is
((OPTION_
A))
Translator
((OTPION_
B))
Executor
((OPTION_
C))
Instructor
((OPTION_
D))
Interpreter
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Program which translates high level program into machine
code is classified as
((OPTION_
A))
Compiler.
((OTPION_
B))
Translator.
((OPTION_
C))
Translating Analyst
((OPTION_
D))
instruction analst
((CORRECT
_CHOICE))
(A/B/C/D)
A
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Dynamic binding takes place during
((OPTION_
A))
Translation
((OTPION_
B))
Linking
((OPTION_
C))
Loading the program
((OPTION_
D))
Execution
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Static binding takes placed during
((OPTION_
A))
Translation
((OTPION_
B))
Linking
((OPTION_
C))
Loading the program
((OPTION_
D))
All of the Above
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
In which of the following mechanisms, types of all
variables and expressions are fixed at compilation time.
((OPTION_
A))
Strong Typing
((OTPION_
B))
Weak Typing
((OPTION_
C))
Static Binding/ early binding
((OPTION_
D))
Dynamic Binding/ late binding
((CORRECT
_CHOICE))
(A/B/C/D)
C
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
In which of the following mechanisms, types of all
variables and expressions are not known until runtime
((OPTION_
A))
Strong Typing
((OTPION_
B))
Weak Typing
((OPTION_
C))
Static Binding/ early binding
((OPTION_
D))
Dynamic Binding/ late binding
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
In which of the following mechanisms, types of all
variables and expressions are not known until runtime
((OPTION_
A))
Strong Typing
((OTPION_
B))
Weak Typing
((OPTION_
C))
Static Binding/ early binding
((OPTION_
D))
Dynamic Binding/ late binding
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
What is the scope of an external variable?
((OPTION_
A))
Whole source file in which it is defined
((OTPION_
B))
From the point of declaration to the end of the file in which
it is defined
((OPTION_
C))
Any source file in a program
((OPTION_
D))
From the point of declaration to the end of the file being
compiled
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
What is the scope of a function?
((OPTION_
A))
Whole source file in which it is defined
((OTPION_
B))
From the point of declaration to the end of the file in which
it is defined
((OPTION_
C))
Any source file in a program
((OPTION_
D))
From the point of declaration to the end of the file being
compiled
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Which variable has the longest scope?
#include <stdio.h>
int b;
int main()
{
int c;
return 0;
}
int a;
((OPTION_
A))
a
((OTPION_
B))
b
((OPTION_
C))
c
((OPTION_ Both a and b
D))
((CORRECT
_CHOICE))
(A/B/C/D)
B
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Scope of variable is related to definition of variable as:
1. Region of code within which variable value is valid and
hence can be accessed.
2. No, relation with region where variable is declared its
value is valid in entire scope.
((OPTION_
A))
1
((OTPION_
B))
2
((OPTION_
C))
Both 1 and 2
((OPTION_
D))
None
((CORRECT
_CHOICE))
(A/B/C/D)
A
((EXPLANA
TION))
No Explanation for this question.
(OPTIONAL
)
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Scope of variable is related to definition of variable as:
1. Region of code within which variable value is valid and
hence can be accessed.
2. No, relation with region where variable is declared its
value is valid in entire scope.
((OPTION_
A))
1
((OTPION_
B))
2
((OPTION_
C))
Both 1 and 2
((OPTION_
D))
None
((CORRECT
_CHOICE))
(A/B/C/D)
A
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
A variable that receives an assigned value is called an
................
((OPTION_
A))
L-value
((OTPION_
B))
R-value
((OPTION_
C))
Value
((OPTION_
D))
Assignment
((CORRECT
_CHOICE))
(A/B/C/D)
A
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Recursion is sometimes called ..................
((OPTION_
A))
Circular definition
((OTPION_
B))
Complex definition
((OPTION_
C))
Procedure
((OPTION_
D))
Union
((CORRECT
_CHOICE))
(A/B/C/D)
A
((EXPLANA
TION))
(OPTIONAL
)
No Explanation for this question.
((MARKS))
(1/2/3...)
2
((QUESTIO
N))
What will be the output of the following program?
#include<stdio.h>
int main()
{
int i = 10;
printf("%d", ++(-i));
return 0;
}
((OPTION_
A))
11
((OTPION_
B))
10
((OPTION_
C))
-9
((OPTION_
D))
None
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
In C/C++ the pre-increment (decrement) and the post-
increment (decrement) operators require an L-value
expression as operand. Providing an R-value or a const
qualified variable results in compilation error.
((MARKS))
(1/2/3...)
2
((QUESTIO
N))
What will be output if you will compile and execute the
following c code?
#define max 5;
void main(){
int i=0;
i=max++;
printf("%d",i++);
}
((OPTION_
A))
5
((OTPION_
B))
6
((OPTION_
C))
R-value required
((OPTION_
D))
L-value Required
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
It is clear macro constant max has replaced by 5. It is illegal
to increment the constant number. Hence compiler will
show Lvalue required.
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Variable which uses same name in whole program and in
its all routines thus best classified as
((OPTION_ Middle variable
A))
((OTPION_
B))
Global Variable
((OPTION_
C))
Local Variable
((OPTION_
D))
Default Varaible
((CORRECT
_CHOICE))
(A/B/C/D)
B
((EXPLANA
TION))
(OPTIONAL
)
No Explanation
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
Use of recursion
((OPTION_
A))
enhances logical clarity
((OTPION_
B))
makes debugging easier
((OPTION_
C))
reduces execution time
((OPTION_
D))
reduces code size
((CORRECT
_CHOICE))
(A/B/C/D)
D
((EXPLANA
TION))
(OPTIONAL
)
No Explanation
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
In which of the following parameter passing mechanism,
the actual argument has to be a variable?
((OPTION_
A))
Pass by value
((OTPION_
B))
Pass by result
((OPTION_
C))
Pass by value-result
((OPTION_
D))
Pass by reference
((CORRECT
_CHOICE))
(A/B/C/D)
B
((EXPLANA
TION))
(OPTIONAL
)
No Explanation
((MARKS))
(1/2/3...)
1
((QUESTIO
N))
The generic type in a template function
((OPTION_
A))
must be T
((OPTION_
B))
Can be T
((OPTION_
C))
cannot be T for functions you create, but may be for C++'s
built-in functions
((OPTION_
D))
Cannot be T
((CORRECT
_CHOICE))
(A/B/C/D)
B
((EXPLANA
TION))
(OPTIONAL
)
((MARKS))
(1/2/3...)
((QUESTIO
N))
((OPTION_
A))
((OPTION_
B))
((OPTION_
C))
((OPTION_
D))
((CORRECT
_CHOICE))
(A/B/C/D)
((EXPLANA
TION))
(OPTIONAL
)
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