Add greater than and less than for integers
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@ -54,6 +54,8 @@ I recommend using VSCodium, which is preconfigured to have syntax highlighting a
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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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- http://learnyouahaskell.com/making-our-own-types-and-typeclasses (for help defining types)
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- https://llvm.org/docs/LangRef.html (LLVM documentation)
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- https://hackage.haskell.org/package/llvm-hs-pure-9.0.0/docs/ (llvm-hs documentation)
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### Tools
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@ -1 +1,5 @@
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printInt(5*(3-2)+-4-4);
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printInt(5*(3-2)+-4-4);
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printBool(true);
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printBool(false);
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printBool(5 * 3 > 5 + 9);
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printBool(5*(3-2)+-4-4 < -3);
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@ -16,7 +16,9 @@ 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.IntegerPredicate (IntegerPredicate (SGE, SGT, SLE, SLT))
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import LLVM.AST.Type
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import LLVM.AST.Type qualified as AST
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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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@ -87,6 +89,13 @@ statementToLLVM (T.PrintInt e) = mdo
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formatStr <- getString "%d\n"
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_ <- call (FunctionType i32 [ptr] True) printf [(formatStr, []), (val, [])]
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pure val
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statementToLLVM (T.PrintBool e) = mdo
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val <- boolExprToLLVM e
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val32 <- zext val i32
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printf <- getOperand "printf"
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formatStr <- getString "%d\n"
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_ <- call (FunctionType i32 [ptr] True) printf [(formatStr, []), (val32, [])]
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pure val
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intExprToLLVM ::
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( MonadIRBuilder m,
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@ -95,7 +104,7 @@ intExprToLLVM ::
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) =>
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T.Int ->
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m Operand
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intExprToLLVM (T.Int prim) = pure $ primToLLVM prim
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intExprToLLVM (T.Int prim) = pure $ int32 $ fromIntegral prim
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intExprToLLVM (T.IntArith T.Add a b) = mdo
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lhs <- intExprToLLVM a
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rhs <- intExprToLLVM b
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@ -113,8 +122,31 @@ intExprToLLVM (T.IntArith T.Div a b) = mdo
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rhs <- intExprToLLVM 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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boolExprToLLVM ::
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( MonadIRBuilder m,
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MonadModuleBuilder m,
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MonadState Env m
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) =>
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T.Bool ->
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m Operand
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boolExprToLLVM (T.Bool prim) =
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if prim then pure $ bit 1 else pure $ bit 0
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boolExprToLLVM (T.IntOrdCmp T.GT a b) = mdo
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lhs <- intExprToLLVM a
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rhs <- intExprToLLVM b
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icmp SGT lhs rhs
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boolExprToLLVM (T.IntOrdCmp T.GTE a b) = mdo
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lhs <- intExprToLLVM a
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rhs <- intExprToLLVM b
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icmp SGE lhs rhs
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boolExprToLLVM (T.IntOrdCmp T.LT a b) = mdo
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lhs <- intExprToLLVM a
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rhs <- intExprToLLVM b
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icmp SLT lhs rhs
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boolExprToLLVM (T.IntOrdCmp T.LTE a b) = mdo
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lhs <- intExprToLLVM a
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rhs <- intExprToLLVM b
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icmp SLE lhs rhs
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llvmGen :: [T.Statement] -> IO ByteString
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llvmGen expr = do
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