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Compiler Design
Lexical Analysis
Marks 1Marks 2
Parsing
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Syntax Directed Translation
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Code Generation and Optimization
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1
GATE CSE 2015 Set 2
MCQ (Single Correct Answer)
+1
-0.3
Match the following:
GROUP 1 GROUP 2
P. Lexical analysis 1. Graph coloring
Q. Parsing 2. DFA minimization
R. Register allocation 3. Post-order traversal
S. Expression evaluation 4. Production tree
A
$$P - 2,\,\,Q - 3,\,\,R - 1,\,\,S - 4$$
B
$$P - 2,\,\,Q - 1,\,\,R - 4,\,\,S - 3$$
C
$$P - 2,\,\,Q - 4,\,\,R - 1,\,\,S - 3$$
D
$$P - 2,\,\,Q - 3,\,\,R - 4,\,\,S - 1$$
2
GATE CSE 2015 Set 1
MCQ (Single Correct Answer)
+1
-0.3
Which one of the following is TRUE at any valid state in shift-reduce parsing?
A
Viable prefixes appear only at the bottom of the stack and not inside
B
Viable prefixes appear only at the top of the stack and not inside
C
The stack contains only a set of viable prefixes
D
The stack never contains viable prefixes
3
GATE CSE 2014 Set 2
MCQ (Single Correct Answer)
+1
-0.3

Consider the grammar defined by the following production rules, with two operators * and +

$$\eqalign{ & S \to T*P \cr & T \to U\,|\,T*U \cr & P \to Q + P\,|\,Q \cr & Q \to id \cr & U \to id \cr} $$

Which one of the following is TRUE?

A
+ is left associative, while * is right associative
B
+ is right associative, while * is left associative
C
Both + and * are right associative
D
Both + and * are left associative
4
GATE CSE 2013
MCQ (Single Correct Answer)
+1
-0.3
What is the maximum number of reduce moves that can be taken by a bottom-up parser for a grammar with no epsilon and unit-production ( i.e., of type $$A \to \varepsilon $$ and $$A \to a$$ ) to parse a string with n tokens?
A
$${n \over 2}$$
B
$$n - 1$$
C
$$2n - 1$$
D
$${2^n}$$
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Questions Asked from Marks 1
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GATE CSE Subjects
Theory of Computation
Operating Systems
Algorithms
Digital Logic
Database Management System
Data Structures
Computer Networks
Software Engineering
Compiler Design
Web Technologies
General Aptitude
Discrete Mathematics
Programming Languages
Computer Organization