Generate a call to _divide_by_zero_error on RiscV
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5
TODO
5
TODO
@ -21,11 +21,6 @@
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there more variables the allocation will fail with out of bounds runtime
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error. Implement spill over.
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# Prarsing and abstract syntax tree
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- Parse signed hexadecimal numbers.
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# Other
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- Type analysis.
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- Generate a call to _divide_by_zero_error on RiscV.
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@ -15,9 +15,10 @@ module Language.Elna.Frontend.AST
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import Data.Char (chr)
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import Data.Int (Int32)
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import Data.List (intercalate)
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import Data.Word (Word8, Word32)
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import Data.Word (Word8)
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import Language.Elna.Location (Identifier(..), showArrayType)
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import Numeric (showHex)
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import Data.Bifunctor (Bifunctor(bimap))
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newtype Program = Program [Declaration]
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deriving Eq
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@ -57,13 +58,14 @@ showParameters parameters =
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data TypeExpression
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= NamedType Identifier
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| ArrayType Word32 TypeExpression
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| ArrayType Literal TypeExpression
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deriving Eq
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instance Show TypeExpression
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where
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show (NamedType typeName) = show typeName
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show (ArrayType elementCount typeName) = showArrayType elementCount typeName
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show (ArrayType elementCount typeName) =
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showArrayType elementCount typeName
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data Statement
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= EmptyStatement
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@ -96,18 +98,59 @@ data VariableDeclaration =
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deriving Eq
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data Literal
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= IntegerLiteral Int32
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= DecimalLiteral Int32
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| HexadecimalLiteral Int32
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| CharacterLiteral Word8
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deriving Eq
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instance Show Literal
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where
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show (IntegerLiteral integer) = show integer
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show (DecimalLiteral integer) = show integer
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show (HexadecimalLiteral integer) = '0' : 'x' : showHex integer ""
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show (CharacterLiteral character) =
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'\'' : chr (fromEnum character) : ['\'']
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instance Ord Literal
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where
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compare x y = compare (int32Literal x) (int32Literal y)
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instance Num Literal
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where
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x + y = DecimalLiteral $ int32Literal x + int32Literal y
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x * y = DecimalLiteral $ int32Literal x * int32Literal y
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abs (DecimalLiteral x) = DecimalLiteral $ abs x
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abs (HexadecimalLiteral x) = HexadecimalLiteral $ abs x
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abs (CharacterLiteral x) = CharacterLiteral $ abs x
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negate (DecimalLiteral x) = DecimalLiteral $ negate x
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negate (HexadecimalLiteral x) = HexadecimalLiteral $ negate x
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negate (CharacterLiteral x) = CharacterLiteral $ negate x
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signum (DecimalLiteral x) = DecimalLiteral $ signum x
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signum (HexadecimalLiteral x) = HexadecimalLiteral $ signum x
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signum (CharacterLiteral x) = CharacterLiteral $ signum x
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fromInteger = DecimalLiteral . fromInteger
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instance Real Literal
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where
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toRational (DecimalLiteral integer) = toRational integer
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toRational (HexadecimalLiteral integer) = toRational integer
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toRational (CharacterLiteral integer) = toRational integer
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instance Enum Literal
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where
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toEnum = DecimalLiteral . fromIntegral
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fromEnum = fromEnum . int32Literal
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instance Integral Literal
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where
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toInteger = toInteger . int32Literal
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quotRem x y = bimap DecimalLiteral DecimalLiteral
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$ quotRem (int32Literal x) (int32Literal y)
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int32Literal :: Literal -> Int32
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int32Literal (DecimalLiteral integer) = integer
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int32Literal (HexadecimalLiteral integer) = integer
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int32Literal (CharacterLiteral integer) = fromIntegral integer
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instance Show VariableDeclaration
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where
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show (VariableDeclaration identifier typeExpression) =
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@ -134,7 +134,7 @@ dataType environmentSymbolTable (AST.NamedType baseType) = do
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| otherwise -> NameAnalysis $ throwE $ UnexpectedTypeInfoError baseInfo
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_ -> NameAnalysis $ throwE $ UndefinedTypeError baseType
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dataType environmentSymbolTable (AST.ArrayType arraySize baseType) =
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dataType environmentSymbolTable baseType <&> ArrayType arraySize
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dataType environmentSymbolTable baseType <&> ArrayType (fromIntegral arraySize)
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checkSymbol :: SymbolTable -> Identifier -> NameAnalysis ()
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checkSymbol globalTable identifier
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@ -46,8 +46,8 @@ type Parser = Parsec Void Text
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literalP :: Parser Literal
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literalP
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= HexadecimalLiteral <$> (string "0x" *> lexeme Lexer.hexadecimal)
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<|> IntegerLiteral <$> Lexer.signed space integerP
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= HexadecimalLiteral <$> Lexer.signed space hexadecimalP
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<|> DecimalLiteral <$> Lexer.signed space decimalP
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<|> CharacterLiteral <$> lexeme charP
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where
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charP = fromIntegral . fromEnum
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@ -141,8 +141,11 @@ commaP = void $ symbol ","
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semicolonP :: Parser ()
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semicolonP = void $ symbol ";"
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integerP :: Integral a => Parser a
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integerP = lexeme Lexer.decimal
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decimalP :: Integral a => Parser a
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decimalP = lexeme Lexer.decimal
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hexadecimalP :: Integral a => Parser a
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hexadecimalP = string "0x" *> lexeme Lexer.hexadecimal
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identifierP :: Parser Identifier
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identifierP =
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@ -166,7 +169,7 @@ typeExpressionP = arrayTypeExpression
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<?> "type expression"
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where
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arrayTypeExpression = ArrayType
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<$> (symbol "array" *> bracketsP integerP)
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<$> (symbol "array" *> bracketsP literalP)
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<*> (symbol "of" *> typeExpressionP)
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procedureDeclarationP :: Parser Declaration
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@ -267,6 +267,6 @@ expression localTable = \case
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)
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literal :: AST.Literal -> Operand Variable
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literal (AST.IntegerLiteral integer) = IntOperand integer
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literal (AST.DecimalLiteral integer) = IntOperand integer
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literal (AST.HexadecimalLiteral integer) = IntOperand integer
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literal (AST.CharacterLiteral character) = IntOperand $ fromIntegral character
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@ -53,6 +53,6 @@ instance Hashable Identifier
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where
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hashWithSalt salt (Identifier identifier) = hashWithSalt salt identifier
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showArrayType :: Show a => Word32 -> a -> String
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showArrayType :: (Show a, Show b) => a -> b -> String
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showArrayType elementCount typeName = concat
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["array[", show elementCount, "] of ", show typeName]
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@ -234,20 +234,31 @@ quadruple (DivisionQuadruple operand1 operand2 (Store register))
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, IntOperand immediateOperand2 <- operand2 =
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let statements2 = lui immediateOperand2 register
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Store operandRegister1 = variableOperand1
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in pure $ Vector.snoc statements2
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$ Instruction
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$ RiscV.BaseInstruction RiscV.Op
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operationInstruction
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| immediateOperand2 == 0 =
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RiscV.CallInstruction "_divide_by_zero_error"
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| otherwise = RiscV.BaseInstruction RiscV.Op
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$ RiscV.R register RiscV.DIV operandRegister1 register
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$ RiscV.Funct7 0b0000001
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in pure $ Vector.snoc statements2
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$ Instruction operationInstruction
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| IntOperand immediateOperand1 <- operand1
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, VariableOperand variableOperand2 <- operand2 =
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, VariableOperand variableOperand2 <- operand2 = do
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let statements1 = lui immediateOperand1 register
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Store operandRegister2 = variableOperand2
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in pure $ Vector.snoc statements1
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$ Instruction
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divisionInstruction = Instruction
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$ RiscV.BaseInstruction RiscV.Op
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$ RiscV.R register RiscV.DIV register operandRegister2
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$ RiscV.Funct7 0b0000001
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$ RiscV.R register RiscV.DIV register operandRegister2 (RiscV.Funct7 0b0000001)
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branchLabel <- createLabel
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let branchInstruction = Instruction
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$ RiscV.RelocatableInstruction RiscV.Branch
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$ RiscV.RBranch branchLabel RiscV.BNE RiscV.Zero operandRegister2
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pure $ mappend statements1 $ Vector.fromList
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[ branchInstruction
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, Instruction (RiscV.CallInstruction "_divide_by_zero_error")
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, JumpLabel branchLabel []
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, divisionInstruction
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]
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quadruple (LabelQuadruple (Label label)) = pure $ Vector.singleton $ JumpLabel label mempty
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quadruple (GoToQuadruple label) = pure $ Vector.singleton $ unconditionalJal label
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quadruple (EqualQuadruple operand1 operand2 goToLabel)
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1
tests/expectations/printi_negative_hex.txt
Normal file
1
tests/expectations/printi_negative_hex.txt
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@ -0,0 +1 @@
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-129
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tests/expectations/printi_signed_hex.txt
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1
tests/expectations/printi_signed_hex.txt
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@ -0,0 +1 @@
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129
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3
tests/vm/printi_negative_hex.elna
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3
tests/vm/printi_negative_hex.elna
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@ -0,0 +1,3 @@
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proc main() {
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printi(-0x81);
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}
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3
tests/vm/printi_signed_hex.elna
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3
tests/vm/printi_signed_hex.elna
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@ -0,0 +1,3 @@
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proc main() {
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printi(+0x81);
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}
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