The compilation process is a sequence of various phases. Each phase
takes input from its previous stage, has its own representation of
source program, and feeds its output to the next phase of the compiler.
Let us understand the phases of a compiler.
Lexical Analysis
The first phase of scanner works as a text scanner. This phase scans
the source code as a stream of characters and converts it into
meaningful lexemes. Lexical analyzer represents these lexemes in the
form of tokens as:
<token-name, attribute-value>
Syntax Analysis
The next phase is called the syntax analysis or
parsing. It
takes the token produced by lexical analysis as input and generates a
parse tree (or syntax tree). In this phase, token arrangements are
checked against the source code grammar, i.e. the parser checks if the
expression made by the tokens is syntactically correct.
Semantic Analysis
Semantic analysis checks whether the parse tree constructed follows
the rules of language. For example, assignment of values is between
compatible data types, and adding string to an integer. Also, the
semantic analyzer keeps track of identifiers, their types and
expressions; whether identifiers are declared before use or not etc. The
semantic analyzer produces an annotated syntax tree as an output.
Intermediate Code Generation
After semantic analysis the compiler generates an intermediate code
of the source code for the target machine. It represents a program for
some abstract machine. It is in between the high-level language and the
machine language. This intermediate code should be generated in such a
way that it makes it easier to be translated into the target machine
code.
Code Optimization
The next phase does code optimization of the intermediate code.
Optimization can be assumed as something that removes unnecessary code
lines, and arranges the sequence of statements in order to speed up the
program execution without wasting resources (CPU, memory).
Code Generation
In this phase, the code generator takes the optimized representation
of the intermediate code and maps it to the target machine language. The
code generator translates the intermediate code into a sequence of
(generally) re-locatable machine code. Sequence of instructions of
machine code performs the task as the intermediate code would do.
Symbol Table
It is a data-structure maintained throughout all the phases of a
compiler. All the identifier's names along with their types are stored
here. The symbol table makes it easier for the compiler to quickly
search the identifier record and retrieve it. The symbol table is also
used for scope management.
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