feature/print-statement #25
21
README.md
21
README.md
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@ -1,6 +1,8 @@
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# Really Bad Compiler in Haskell
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# HEAR Compiler in Haskell
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A compiler written in Haskell which can currently perform basic arithmetic. Currently using the megaparsec and llvm-hs-\* libraries, but I may reimplement certain libraries myself. Built for the Introduction to Compiler Design class at The University of Texas at Dallas.
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A compiler for HEAR, a language for when you cannot C.
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Written in Haskell, and currently using the megaparsec and llvm-hs-\* libraries, but I plan to eventually rewrite the lexar/parser from scratch. Built for the Introduction to Compiler Design class at The University of Texas at Dallas.
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Main repo: https://git.sudoer.ch/me/really-bad-compiler-in-haskell
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@ -8,13 +10,19 @@ Main repo: https://git.sudoer.ch/me/really-bad-compiler-in-haskell
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- Install `ghcup` (for managing Haskell tools) and `nix` (for managing external dependencies).
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- Clone the repo.
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- Use `ghcup` to install `stack 2.9.3`, `HLS 2.2.0.0`, `GHC 9.2.8`, and `cabal 3.6.2.0`.
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- Use `ghcup` to install `stack 2.11.1`, `HLS 2.3.0.0`, and `cabal 3.8.1.0`.
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## Run Instructions
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- Use `stack run <file>` to run the program (for example, `stack run example/1`).
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- Use `stack run <file>` to run the program (for example, `stack run example/1.hear`).
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- The LLVM will be generated as `a.out.ll`, and the executable will be generated as `a.out`.
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## Currently Supported functionality
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- Arithmetic
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- Parenthesis
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- print() statement
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## To edit
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I recommend using VSCodium, which is preconfigured to have syntax highlighting and (currently broken) debugging features and will automatically suggest the Haskell extensions to install.
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@ -44,12 +52,13 @@ I recommend using VSCodium, which is preconfigured to have syntax highlighting a
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- https://danieljharvey.github.io/posts/2023-02-08-llvm-compiler-part-1.html (for help using llvm-hs-pure)
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- https://gh.sudoer.ch/danieljharvey/mimsa/blob/trunk/llvm-calc/src/Calc/Compile/ToLLVM.hs (source code for above resource)
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- https://9to5tutorial.com/homebrew-compiler-made-with-haskell-llvm-configuration (for help using llvm-hs-pure)
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- https://blog.ocharles.org.uk/blog/posts/2012-12-17-24-days-of-hackage-optparse-applicative.html (for help parsing command line arguments with optparse-applicative)
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### Tools
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- Language: Haskell
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- Haskell tools: GHCup, Stack, Cabal, GHC 9.2
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- Libraries: megaparsec, parser-combinators, text, process, llvm-hs 15, llvm-hs-pure 15,
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- Haskell/management tools: GHCup, Stack, Cabal, GHC 9.2, Nix
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- Libraries: See `package.yaml`
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- Dependencies: llvm 15, clang 15
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- IDE: VSCodium
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- Git platform: Forgejo
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@ -0,0 +1 @@
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print(5*(3-2)+-4-4);
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@ -0,0 +1,2 @@
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print(6+8/3);
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print(5000);
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@ -1,67 +0,0 @@
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{-# LANGUAGE ImportQualifiedPost #-}
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{-# LANGUAGE OverloadedStrings #-}
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{-# LANGUAGE RecursiveDo #-}
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-- see https://gh.sudoer.ch/danieljharvey/mimsa/blob/trunk/llvm-calc/src/Calc/Compile/ToLLVM.hs
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module Compiler.LLVMGen (llvmGen) where
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-- import LLVM.Pretty
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import Data.ByteString (ByteString)
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import Debug.Trace
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import LLVM (moduleLLVMAssembly, withModuleFromAST, writeLLVMAssemblyToFile)
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import LLVM.AST hiding (function)
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import LLVM.AST.Type
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import LLVM.Context
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import LLVM.IRBuilder.Constant
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import LLVM.IRBuilder.Instruction
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import LLVM.IRBuilder.Module
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import LLVM.IRBuilder.Monad
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import Types.Expr as Expr
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getLLVM :: Expr -> Module
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getLLVM expr =
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buildModule "program" $ mdo
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-- TODO: better module name
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printf <- externVarArgs "printf" [ptr] i32
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function "main" [] i32 $ \_ -> mdo
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numFormatStr <- globalStringPtr "%d\n" (mkName "str")
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ourExpression <- exprToLLVM expr
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_ <- call (FunctionType i32 [ptr] True) printf [(ConstantOperand numFormatStr, []), (ourExpression, [])]
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ret (int32 0)
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exprToLLVM ::
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( MonadIRBuilder m,
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MonadModuleBuilder m
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) =>
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Expr ->
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m Operand
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exprToLLVM (Lit prim) = pure $ primToLLVM prim
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exprToLLVM (Expr.Add a b) = mdo
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lhs <- exprToLLVM a
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rhs <- exprToLLVM b
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add lhs rhs
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exprToLLVM (Expr.Sub a b) = mdo
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lhs <- exprToLLVM a
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rhs <- exprToLLVM b
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sub lhs rhs
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exprToLLVM (Expr.Mul a b) = mdo
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lhs <- exprToLLVM a
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rhs <- exprToLLVM b
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mul lhs rhs
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exprToLLVM (Expr.Div a b) = mdo
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lhs <- exprToLLVM a
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rhs <- exprToLLVM b
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sdiv lhs rhs
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primToLLVM :: Int -> Operand
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primToLLVM i = int32 (fromIntegral i)
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llvmGen :: Expr -> IO ByteString
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llvmGen expr = do
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let l = getLLVM expr
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withContext
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( \c ->
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withModuleFromAST c l moduleLLVMAssembly
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)
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28
main/Main.hs
28
main/Main.hs
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@ -1,28 +0,0 @@
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{-# LANGUAGE ImportQualifiedPost #-}
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{-# LANGUAGE OverloadedStrings #-}
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module Main (main) where
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-- import Compiler.ExeGen
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import Compiler.LLVMGen
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import Data.ByteString.Char8 qualified as B
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import Data.Text.Lazy.IO qualified as T
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import Parser.Expr
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import System.Environment
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import System.Process
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import Types.Expr
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getRight :: ParseResult -> Expr
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getRight (Right r) = r
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main :: IO ()
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main = do
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fileName <- fmap head getArgs
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contents <- readFile fileName
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T.putStrLn "- Parsing file..."
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let parsed = getRight (parseExpr contents)
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T.putStrLn "- Generating LLVM to './a.out.ll'..."
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llvmGen parsed >>= B.writeFile "a.out.ll"
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T.putStrLn "- Compiling to executable './a.out'..."
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callCommand "clang a.out.ll"
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T.putStrLn "- Done."
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@ -1,49 +0,0 @@
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-- see https://markkarpov.com/tutorial/megaparsec.html
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{-# LANGUAGE ImportQualifiedPost #-}
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module Parser.Expr (parseExpr, ParseResult) where
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import Control.Monad.Combinators.Expr
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import Data.Functor.Identity qualified
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import Data.Void (Void)
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import Text.Megaparsec as MP
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import Text.Megaparsec.Char as C
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import Text.Megaparsec.Char.Lexer as L
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import Types.Expr
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type Parser = Parsec Void String
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lexemeParser :: Parser a -> Parser a
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lexemeParser = L.lexeme C.space
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symbolParser :: String -> Parser String
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symbolParser = L.symbol C.space
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intParser :: Parser Int
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intParser = lexemeParser L.decimal
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term :: Parser Expr
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term = Lit <$> intParser
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table :: [[Operator Parser Expr]]
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table =
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[ [ binaryOp "*" Mul,
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binaryOp "/" Div
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],
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[ binaryOp "+" Add,
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binaryOp "-" Sub
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]
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]
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binaryOp :: String -> (a -> a -> a) -> Operator (ParsecT Void String Data.Functor.Identity.Identity) a
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binaryOp name f = InfixL (f <$ symbolParser name)
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expr :: Parser Expr
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expr = makeExprParser term table
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type ParseResult = Either (ParseErrorBundle String Void) Expr
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parseExpr :: String -> ParseResult
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parseExpr = MP.parse (C.space *> expr <* eof) ""
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-- parseE = parseExpr
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@ -1,11 +0,0 @@
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module Types.Expr (Expr (..)) where
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data Expr
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= Lit Int
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| Add Expr Expr
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| Sub Expr Expr
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| Mul Expr Expr
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| Div Expr Expr
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deriving
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( Show
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)
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@ -7,9 +7,14 @@ dependencies:
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- parser-combinators
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- text
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- process
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- mtl
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- containers
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- llvm-hs >= 15 && < 16
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- llvm-hs-pure >= 15 && < 16
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- bytestring
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- string-conversions
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- transformers
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- optparse-applicative >= 0.17 && < 1
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tested-with: GHC == 9.2.8
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category: Compilers/Interpreters
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@ -19,7 +24,7 @@ ghc-options: -threaded -Wall -j8 +RTS -A64M -RTS -fllvm
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# source-dirs: src
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executable:
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source-dirs: main
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source-dirs: src
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main: Main.hs
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# tests:
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# testall:
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@ -1,6 +1,6 @@
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cabal-version: 1.12
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-- This file has been generated from package.yaml by hpack version 0.35.1.
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-- This file has been generated from package.yaml by hpack version 0.35.2.
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--
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-- see: https://github.com/sol/hpack
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@ -16,22 +16,27 @@ tested-with:
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executable really-bad-compiler-in-haskell
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main-is: Main.hs
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other-modules:
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Compiler.LLVMGen
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Parser.Expr
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Types.Expr
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Main.LLVMGen
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Main.Parser.Megaparsec
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Main.Type
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Paths_really_bad_compiler_in_haskell
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hs-source-dirs:
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main
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src
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default-extensions:
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OverloadedStrings, LambdaCase
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ghc-options: -threaded -Wall -j8 +RTS -A64M -RTS -fllvm
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build-depends:
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base >=4.14.3 && <5
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, bytestring
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, containers
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, llvm-hs ==15.*
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, llvm-hs-pure ==15.*
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, megaparsec >=9.0.1 && <10
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, mtl
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, optparse-applicative >=0.17 && <1
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, parser-combinators
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, process
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, string-conversions
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, text
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, transformers
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default-language: Haskell2010
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|
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@ -0,0 +1,47 @@
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{-# LANGUAGE ImportQualifiedPost #-}
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{-# LANGUAGE OverloadedStrings #-}
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module Main (main) where
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import Data.ByteString.Char8 qualified as B
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import Data.Text.IO qualified as T
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import Main.LLVMGen
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import Main.Parser.Megaparsec
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import Options.Applicative
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import System.Environment
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import System.Process (callCommand)
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data Opt = Opt
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{ filePath :: String,
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showLLVM :: Bool,
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showDebug :: Bool
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}
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run :: Opt -> IO ()
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run opts = do
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let fileName = filePath opts
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contents <- T.readFile fileName
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T.putStrLn "- Generating LLVM to './a.out.ll'..."
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result <- (llvmGen . parse) contents
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B.writeFile "a.out.ll" result
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T.putStrLn "- Compiling to executable './a.out'..."
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callCommand "clang a.out.ll"
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T.putStrLn "- Done."
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main :: IO ()
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main = execParser opts >>= run
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where
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parser =
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Opt
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<$> argument str (metavar "FILE_PATH")
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<*> switch
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( short 'l'
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<> long "showLLVM"
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<> help "Create <file>.ll with LLVM used to compile the binary"
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)
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<*> switch
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( short 'd'
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<> long "showDebug"
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<> help "Show debug output"
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)
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opts = info parser mempty
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@ -0,0 +1,115 @@
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{-# LANGUAGE FlexibleContexts #-}
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{-# LANGUAGE ImportQualifiedPost #-}
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{-# LANGUAGE OverloadedStrings #-}
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{-# LANGUAGE RecursiveDo #-}
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-- see https://gh.sudoer.ch/danieljharvey/mimsa/blob/trunk/llvm-calc/src/Calc/Compile/ToLLVM.hs
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-- see https://blog.josephmorag.com/posts/mcc3/
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module Main.LLVMGen (llvmGen) where
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import Control.Monad.State
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import Control.Monad.Trans.Class (lift)
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import Data.ByteString (ByteString)
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import Data.Map qualified as M
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import Data.String.Conversions
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import Data.Text
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import LLVM (moduleLLVMAssembly, withModuleFromAST)
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import LLVM.AST hiding (function)
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import LLVM.AST.Type
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import LLVM.Context
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import LLVM.IRBuilder.Constant
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import LLVM.IRBuilder.Instruction
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import LLVM.IRBuilder.Module
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import LLVM.IRBuilder.Monad
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import Main.Type as Expr
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data Env = Env
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{ operands :: M.Map Text Operand,
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strings :: M.Map Text Operand
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}
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deriving (Eq, Show)
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registerOperand :: (MonadState Env m) => Text -> Operand -> m ()
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registerOperand name op =
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modify $ \env -> env {operands = M.insert name op (operands env)}
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registerString :: (MonadState Env m) => Text -> Operand -> m ()
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registerString name op =
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modify $ \env -> env {strings = M.insert name op (operands env)}
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|
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getOperand :: (MonadState Env m, MonadModuleBuilder m, MonadIRBuilder m) => Text -> m Operand
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getOperand name = do
|
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env <- get
|
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case M.lookup name (operands env) of
|
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Just op -> return op
|
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Nothing -> error $ "Unknown operand: " ++ show name
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|
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getString :: (MonadState Env m, MonadModuleBuilder m, MonadIRBuilder m) => Text -> m Operand
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getString str = do
|
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env <- get
|
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case M.lookup str (strings env) of
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Just s -> return s
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Nothing -> do
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s <- globalStringPtr (unpack str) (mkName "str")
|
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let operand = ConstantOperand s
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modify $ \env -> env {strings = M.insert str operand (strings env)}
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return operand
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|
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getLLVM :: [Expr] -> Module
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getLLVM expr =
|
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flip evalState (Env {operands = M.empty, strings = M.empty}) $
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buildModuleT "program" $ mdo
|
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-- TODO: better module name
|
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printf <- externVarArgs "printf" [ptr] i32
|
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lift $ registerOperand "printf" printf
|
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function "main" [] i32 $ \_ -> mdo
|
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printNumStr <- globalStringPtr "%d\n" (mkName "str")
|
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lift $ registerString "%d\n" $ ConstantOperand printNumStr
|
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_ <- forM_ expr exprToLLVM
|
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ret $ int32 0
|
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|
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--
|
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-- ourExpression <- exprToLLVM expr
|
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-- _ <- call (FunctionType i32 [ptr] True) printf [(ConstantOperand numFormatStr, []), (ourExpression, [])]
|
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-- ret $ int32 0
|
||||
|
||||
exprToLLVM ::
|
||||
( MonadIRBuilder m,
|
||||
MonadModuleBuilder m,
|
||||
MonadState Env m
|
||||
) =>
|
||||
Expr ->
|
||||
m Operand
|
||||
exprToLLVM (Lit prim) = pure $ primToLLVM prim
|
||||
exprToLLVM (Paren e) = exprToLLVM e
|
||||
exprToLLVM (Print e) = mdo
|
||||
val <- exprToLLVM e
|
||||
printf <- getOperand "printf"
|
||||
formatStr <- getString "%d\n"
|
||||
_ <- call (FunctionType i32 [ptr] True) printf [(formatStr, []), (val, [])]
|
||||
pure val
|
||||
exprToLLVM (Expr.Add a b) = mdo
|
||||
lhs <- exprToLLVM a
|
||||
rhs <- exprToLLVM b
|
||||
add lhs rhs
|
||||
exprToLLVM (Expr.Sub a b) = mdo
|
||||
lhs <- exprToLLVM a
|
||||
rhs <- exprToLLVM b
|
||||
sub lhs rhs
|
||||
exprToLLVM (Expr.Mul a b) = mdo
|
||||
lhs <- exprToLLVM a
|
||||
rhs <- exprToLLVM b
|
||||
mul lhs rhs
|
||||
exprToLLVM (Expr.Div a b) = mdo
|
||||
lhs <- exprToLLVM a
|
||||
rhs <- exprToLLVM b
|
||||
sdiv lhs rhs
|
||||
|
||||
primToLLVM :: Int -> Operand
|
||||
primToLLVM i = int32 $ fromIntegral i
|
||||
|
||||
llvmGen :: [Expr] -> IO ByteString
|
||||
llvmGen expr = do
|
||||
let l = getLLVM expr
|
||||
withContext $ \c -> withModuleFromAST c l moduleLLVMAssembly
|
|
@ -0,0 +1,78 @@
|
|||
-- see https://markkarpov.com/tutorial/megaparsec.html
|
||||
{-# LANGUAGE ImportQualifiedPost #-}
|
||||
{-# LANGUAGE OverloadedStrings #-}
|
||||
|
||||
module Main.Parser.Megaparsec (parse) where
|
||||
|
||||
import Control.Monad.Combinators.Expr
|
||||
import Data.Functor.Identity qualified
|
||||
import Data.Text
|
||||
import Data.Void (Void)
|
||||
import Main.Type
|
||||
import Text.Megaparsec as MP hiding (parse)
|
||||
import Text.Megaparsec qualified as MP
|
||||
import Text.Megaparsec.Char qualified as C
|
||||
import Text.Megaparsec.Char.Lexer qualified as L
|
||||
|
||||
type Parser = Parsec Void Text
|
||||
|
||||
lexeme :: Parser a -> Parser a
|
||||
lexeme = L.lexeme C.space
|
||||
|
||||
symbol :: Text -> Parser Text
|
||||
symbol = L.symbol C.space
|
||||
|
||||
int :: Parser Int
|
||||
int = lexeme $ L.signed (return ()) L.decimal
|
||||
|
||||
string :: Text -> Parser Text
|
||||
string = C.string
|
||||
|
||||
container :: Text -> Text -> Parser a -> Parser a
|
||||
container b e = between (symbol b) (symbol e)
|
||||
|
||||
term :: Parser Expr
|
||||
term =
|
||||
choice
|
||||
[ Lit <$> int,
|
||||
container "(" ")" expr
|
||||
]
|
||||
|
||||
table :: [[Operator Parser Expr]]
|
||||
table =
|
||||
[ [methodOp "print" Print],
|
||||
[ binaryOp "*" Mul,
|
||||
binaryOp "/" Div
|
||||
],
|
||||
[ binaryOp "+" Add,
|
||||
binaryOp "-" Sub
|
||||
]
|
||||
]
|
||||
|
||||
binaryOp :: Text -> (a -> a -> a) -> Operator (ParsecT Void Text Data.Functor.Identity.Identity) a
|
||||
binaryOp name f = InfixL $ f <$ symbol name
|
||||
|
||||
-- prefixOp :: Text -> (a -> a) -> Operator (ParsecT Void Text Data.Functor.Identity.Identity) a
|
||||
-- prefixOp name f = Prefix (f <$ symbol name)
|
||||
|
||||
methodOp :: Text -> (a -> a) -> Operator (ParsecT Void Text Data.Functor.Identity.Identity) a
|
||||
methodOp name f = Prefix $ f <$ (string name <* C.space)
|
||||
|
||||
-- postfixOp :: Text -> (a -> a) -> Operator (ParsecT Void Text Data.Functor.Identity.Identity) a
|
||||
-- postfixOp name f = Postfix (f <$ symbol name)
|
||||
|
||||
expr :: Parser Expr
|
||||
expr = makeExprParser term table
|
||||
|
||||
statement :: Parser Expr
|
||||
statement = expr <* symbol ";"
|
||||
|
||||
parseExpr :: Text -> Either (ParseErrorBundle Text Void) [Expr]
|
||||
parseExpr = MP.parse (C.space *> many statement <* eof) ""
|
||||
|
||||
parse :: Text -> [Expr]
|
||||
parse t =
|
||||
case parseExpr t of
|
||||
Right r -> r
|
||||
|
||||
-- TODO: add error handling
|
|
@ -0,0 +1,30 @@
|
|||
module Main.Type
|
||||
( Expr (..),
|
||||
-- AST (..)
|
||||
)
|
||||
where
|
||||
|
||||
import Data.Graph (Tree (Node))
|
||||
|
||||
data Expr
|
||||
= Lit Int
|
||||
| Paren Expr
|
||||
| Add Expr Expr
|
||||
| Sub Expr Expr
|
||||
| Mul Expr Expr
|
||||
| Div Expr Expr
|
||||
| Print Expr
|
||||
deriving
|
||||
( Show
|
||||
)
|
||||
|
||||
-- data AST = AST Node
|
||||
|
||||
-- data Node
|
||||
-- = Reg
|
||||
-- { cur :: Expr,
|
||||
-- next :: Node
|
||||
-- }
|
||||
-- | End
|
||||
-- { cur :: Expr
|
||||
-- }
|
|
@ -1,4 +1,11 @@
|
|||
resolver: lts-20.26
|
||||
compiler: ghc-9.2.8
|
||||
# setup-info:
|
||||
# ghc:
|
||||
# aarch64:
|
||||
# 9.4.6:
|
||||
# url: "https://downloads.haskell.org/~ghc/9.4.6/ghc-9.4.6-aarch64-deb10-linux.tar.xz"
|
||||
# sha256: "05896fc4bc52c117d281eac9c621c6c3a0b14f9f9eed5e42cce5e1c4485c7623"
|
||||
|
||||
packages:
|
||||
- .
|
||||
|
@ -12,4 +19,4 @@ nix:
|
|||
enable: true
|
||||
packages: [llvm_15, clang_15, libxml2]
|
||||
system-ghc: true
|
||||
install-ghc: true
|
||||
install-ghc: false
|
||||
|
|
Reference in New Issue