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About

A compiler for C-like programming language.

Structure

Scanner

A configurable finite automaton, recognizing lexemes in the character stream. Configured using scanner.lex file.

Parser/Parser Generator

A LALR parser generator and a parser that recognizes C grammar. Typedef resoluton is not implemented yet, thus typedefs are disabled. The parser reads the generated parsing_table file, generated from grammar.bnf. A custom/changed grammar can be passed to the trans program using ./trans -g<path_to_grammar_file> and it will generate a new parsing table in logs/parsing_table.

Abstract Syntax Tree

Contains a hierarchy of language constructs accepting visitors for semantic analysis, code generation and output.

Semantic Analyzer

An AST visitor at the core that orchestrates the semantic analysis.

Code Generator

An AST visitor that generates the intermmediate code and an assembly code generator that visits the intermmediate code nodes to generate the assembly code. Currently it generates 64bit code for the NASM assembler.

Building

Prerequisites:

  • cmake - at least 3.11
  • make
  • g++
  • nasm - the assembler required to run the compiled compiler and its functional tests
./init.sh # to generate the workspace using cmake
cd build
make -j8 # where 8 is the number of worker threads
make test # to run the tests

To run the tests with verbose output, use make test ARGS=-V.

Alternatively, you can use ctest directly to run the tests. For example, to run only parser tests, you can filter them using ctest -R parser -V Run ctest --help for all available options.

History

I started this project in my third year at the University as an assignment for Translation Methods course in Autumn of 2008. Original duration of the assignment was three months and it was left buried in my backup drive since the end of the course. By that time it contained a scanner, a LR1 parser generator and a generated LR1 parser, a semantic analyzer built into the AST, and a code generator that would generate 32bit assembly code for the NASM assembler.

In Spring of 2014 I was browsing through my old backup drive and found this piece of student code I wrote. Thought it would be nice to modernize it a bit and revive my skills in C++ and assembly and give my brain some interesting puzzles to solve, different from those that I encounter in my daily job. So I pushed the whole code base "as is" to this GitHub repo and started refactoring it, applying the coding practices of today as I know them. The code was utterly ugly initially - lots of duplicated code, bad encapsulation, poor separation of concerns, classes way too big, C and C++ library calls mixed together, no tests and so on and on...

As I started rewriting the translator top-down, I had trouble recalling the C++ language itself since I was programming mostly in Java in the past five years and for this reason I'm sure that Java's influence on the coding style can be observed a lot thoughout the new code - especially in the components that I tackled first - the scanner and the parser. Anyway, I am trying to overcome the writing of Java in C++ and will do another round of refactoring on these when the time permits.

Major functional improvements so far:

  • Converted the LR1 parser generator to a LALR parser generator to save time and space
  • Simplified inner scope resolution by prefixing inner scope local variables in the symbol table instead of manipulating the stack in the code generator
  • Rewrote the code generator to generate 64bit NASM assembly code and made it extendible to support the GNU syntax

Contributors 3

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