Syntax Directed Translation | Compiler Design - Computer Science Engineering (CSE) PDF Download

3.Syntax Directed Translation:
· A formalist called as syntax directed definition is used fort specifying translations for programming language constructs.    
· A syntax directed definition is a generalization of a context free grammar in which each grammar symbol has associated set of attributes and each and each productions is associated with a set of semantic rules  

 Definition of (syntax Directed definition ) SDD :

SDD is a generalization of CFG in which each grammar productions X->α is associated with it a set of semantic rules of the form

a: = f(b1,b2…..bk)

Where a is an attributes obtained from the function f.

• A syntax-directed definition is a generalization of a context-free grammar in which:

– Each grammar symbol is associated with a set of attributes.

– This set of attributes for a grammar symbol is partitioned into two subsets called synthesized and inherited attributes of that grammar symbol.

– Each production rule is associated with a set of semantic rules.

• Semantic rules set up dependencies between attributes which can be represented by a dependency graph.

• This dependency graph determines the evaluation order of these semantic rules.

• Evaluation of a semantic rule defines the value of an attribute. But a semantic rule may also have some side effects such as printing a value.

The two attributes for non terminal are : 

1) Synthesized attribute (S-attribute) : (↑) 

An attribute is said to be synthesized attribute if its value at a parse tree node is determined from attribute values at the children of the node 2) Inherited attribute: (↑,→)

2) Inherited attribute: (↑,→)

An inherited attributeis one whose value at parse tree node is determined in terms of attributes at the parent and | or siblings of that node.

  • The attribute can be string, a number, a type, a, memory location or anything else.    
  • The parse tree showing the value of attributes at each node is called an annotated parse tree.

      The process of computing the attribute values at the node is called annotating or decorating the parse tree.Terminals can have synthesized attributes, but not inherited attributes.

    Annotated Parse Tree

    • A parse tree showing the values of attributes at each node is called an Annotated parse tree.

    • The process of computing the attributes values at the nodes is called annotating (or decorating) of the parse tree.

    • Of course, the order of these computations depends on the dependency graph induced by the semantic rules. Ex1:1) Synthesized Attributes :

    Ex: Consider the CFG : S→ EN E→ E+T E→E-T E→ T T→ T*F T→T/F T→F F→ (E) F→digit N→; 
     

Solution: The syntax directed definition can be written for the above grammar by using semantic actions for each production.
 

Production rule            Semantic actions
S →EN                        S.val=E.val
E →E1+T                     E.val =E1.val + T.val
E →E1-T                      E.val = E1.val – T.val
E →T                           E.val =T.val
T →T*F                       T.val = T.val * F.val
T →T|F                        T.val =T.val | F.val
F → (E)                        F.val =E.val
T →F                           T.val =F.val
F →digit                       F.val =digit.lexval
N →;                            can be ignored by lexical Analyzer as;
                                    I is terminating symbol
 

For the Non-terminals E,T and F the values can be obtained using the attribute “Val”.

The taken digit has synthesized attribute “lexval”.

In S→EN, symbol S is the start symbol. This rule is to print the final answer of expressed.

Following steps are followed to Compute S attributed definition

1. Write the SDD using the appropriate semantic actions for corresponding production rule of the given Grammar. 

2. The annotated parse tree is generated and attribute values are computed. The Computation is done in bottom up manner.

3. The value obtained at the node is supposed to be final output. 

PROBLEM 1:

Consider the string 5*6+7; Construct Syntax tree, parse tree and annotated tree.
Solution:

The corresponding annotated parse tree is shown below for the string 5*6+7;
 

Syntax tree:

  Syntax Directed Translation | Compiler Design - Computer Science Engineering (CSE)
 

Annotated parse tree :
 

Syntax Directed Translation | Compiler Design - Computer Science Engineering (CSE)
 

 

Advantages:
SDDs are more readable and hence useful for specifications Disadvantages: not very efficient.
Ex2:

PROBLEM :
Consider the grammar that is used for Simple desk calculator. Obtain the
Semantic action and also the annotated parse tree for the string

3*5+4n. L→En E→E1+T
E→T
T→T1*F
T→F
F→ (E)
F→digit
 

Solution :

 Production rule Semantic actions 

L→En                                L.val=E.val
E→E1+T                          E.val=E1.val + T.val
E→T                                E.val=T.val
T→T1*                             F T.val=T1.val*F.val
T→F                                T.val=F.val
F→(E)                             F.val=E.val
F→digit                          F.val=digit.lexval

The corresponding annotated parse tree U shown below, for the string 3*5+4n.
Syntax Directed Translation | Compiler Design - Computer Science Engineering (CSE)

Dependency Graphs:

Syntax Directed Translation | Compiler Design - Computer Science Engineering (CSE)
 

Dependency graph and topological sort:

  • For each parse-tree node, say a node labeled by grammar symbol X, the dependency graph has a node for each attribute associated with X.    
  •  If a semantic rule associated with a production p defines the value of synthesized attribute A.b in terms of the value of X.c. Then the dependency graph has an edge from X.c to A.b    
  • If a semantic rule associated with a production p defines the value of inherited attribute B.c in terms of the value X.a. Then , the dependency graph has an edge from X.a to B.c.

Applications of Syntax-Directed Translation
• Construction of syntax Trees – The nodes of the syntax tree are represented by objects with a suitable number of fields. – Each object will have an op field that is the label of the node. – The objects will have additional fields as follows
• If the node is a leaf, an additional field holds the lexical value for the leaf. A constructor function Leaf (op, val) creates a leaf object.
• If nodes are viewed as records, the Leaf returns a pointer to a new record for a leaf.
• If the node is an interior node, there are as many additional fields as the node has children in the syntax tree. A constructor function Node takes two or more arguments: Node (op , c1,c2,…..ck) creates an object with first field op and k additional fields for the k children c1,c2,…..ck 

Syntax-Directed Translation Schemes
A SDT scheme is a context-free grammar with program fragments embedded within production bodies .The program fragments are called semantic actions and can appear at any position within the production body.

Any SDT can be implemented by first building a parse tree and then pre-forming the actions in a leftto-right depth first order. i.e during preorder traversal.
The use of SDT’s to implement two important classes of SDD’s
1. If the grammar is LR parsable, then SDD is S-attributed.
2. If the grammar is LL parsable, then SDD is L-attributed. 
 

Postfix Translation Schemes The postfix SDT implements the desk calculator SDD with one change: the action for the first produ  ction prints the value. As the grammar is LR, and the SDD is S-attributed.
L →E n {print(E.val);}
E → E1 + T { E.val = E1.val + T.val }
E → E1 - T { E.val = E1.val - T.val }
E → T { E.val = T.val }
T → T1 * F { T.val = T1.val * F.val }
T → F { T.val = F.val }
F → ( E ) { F.val = E.val }
F → digit { F.val = digit.lexval }

 

Syntax Directed Translation | Compiler Design - Computer Science Engineering (CSE)

The document Syntax Directed Translation | Compiler Design - Computer Science Engineering (CSE) is a part of the Computer Science Engineering (CSE) Course Compiler Design.
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FAQs on Syntax Directed Translation - Compiler Design - Computer Science Engineering (CSE)

1. What is syntax-directed translation in computer science engineering (CSE)?
Ans. Syntax-directed translation is a technique used in CSE to automatically generate code or perform other operations based on the syntactic structure of a program. It involves associating translation rules with grammar productions to define the translation process from the source program to the target program.
2. How does syntax-directed translation work?
Ans. Syntax-directed translation works by associating semantic actions with grammar productions. These semantic actions are executed when the corresponding grammar production is reduced during the parsing process. The semantic actions can perform tasks such as generating code, performing type checking, or constructing abstract syntax trees.
3. What are the advantages of using syntax-directed translation?
Ans. Syntax-directed translation offers several advantages in CSE. It provides a systematic approach to automatically generate code, reducing the manual effort required for programming. It ensures that the generated code is correct and adheres to the syntactic rules defined by the grammar. Additionally, it allows for the implementation of various optimizations and transformations during the translation process.
4. Can syntax-directed translation be applied to different programming languages?
Ans. Yes, syntax-directed translation can be applied to different programming languages. The translation rules and semantic actions need to be defined according to the grammar and semantics of the specific programming language. By customizing the translation rules, syntax-directed translation can be used for code generation and other tasks in various programming languages.
5. What are some practical applications of syntax-directed translation in CSE?
Ans. Syntax-directed translation finds application in several areas of CSE. It is commonly used in compiler design to generate code from high-level programming languages. It is also employed in static analysis tools to perform tasks such as type checking, optimization, and program verification. Additionally, syntax-directed translation can be utilized in domain-specific languages to automate code generation for specific domains or applications.
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