module LLVM.AST.Constant where
import LLVM.Prelude
import Data.Bits ((.|.), (.&.), complement, testBit, shiftL)
import LLVM.AST.Type
import LLVM.AST.Name
import LLVM.AST.FloatingPointPredicate (FloatingPointPredicate)
import LLVM.AST.IntegerPredicate (IntegerPredicate)
import qualified LLVM.AST.Float as F
data Constant
= Int { integerBits :: Word32, integerValue :: Integer }
| Float { floatValue :: F.SomeFloat }
| Null { constantType :: Type }
| Struct { structName :: Maybe Name, isPacked :: Bool, memberValues :: [ Constant ] }
| Array { memberType :: Type, memberValues :: [ Constant ] }
| Vector { memberValues :: [ Constant ] }
| Undef { constantType :: Type }
| BlockAddress { blockAddressFunction :: Name, blockAddressBlock :: Name }
| GlobalReference Type Name
| TokenNone
| Add {
nsw :: Bool,
nuw :: Bool,
operand0 :: Constant,
operand1 :: Constant
}
| FAdd {
operand0 :: Constant,
operand1 :: Constant
}
| Sub {
nsw :: Bool,
nuw :: Bool,
operand0 :: Constant,
operand1 :: Constant
}
| FSub {
operand0 :: Constant,
operand1 :: Constant
}
| Mul {
nsw :: Bool,
nuw :: Bool,
operand0 :: Constant,
operand1 :: Constant
}
| FMul {
operand0 :: Constant,
operand1 :: Constant
}
| UDiv {
exact :: Bool,
operand0 :: Constant,
operand1 :: Constant
}
| SDiv {
exact :: Bool,
operand0 :: Constant,
operand1 :: Constant
}
| FDiv {
operand0 :: Constant,
operand1 :: Constant
}
| URem {
operand0 :: Constant,
operand1 :: Constant
}
| SRem {
operand0 :: Constant,
operand1 :: Constant
}
| FRem {
operand0 :: Constant,
operand1 :: Constant
}
| Shl {
nsw :: Bool,
nuw :: Bool,
operand0 :: Constant,
operand1 :: Constant
}
| LShr {
exact :: Bool,
operand0 :: Constant,
operand1 :: Constant
}
| AShr {
exact :: Bool,
operand0 :: Constant,
operand1 :: Constant
}
| And {
operand0 :: Constant,
operand1 :: Constant
}
| Or {
operand0 :: Constant,
operand1 :: Constant
}
| Xor {
operand0 :: Constant,
operand1 :: Constant
}
| GetElementPtr {
inBounds :: Bool,
address :: Constant,
indices :: [Constant]
}
| Trunc {
operand0 :: Constant,
type' :: Type
}
| ZExt {
operand0 :: Constant,
type' :: Type
}
| SExt {
operand0 :: Constant,
type' :: Type
}
| FPToUI {
operand0 :: Constant,
type' :: Type
}
| FPToSI {
operand0 :: Constant,
type' :: Type
}
| UIToFP {
operand0 :: Constant,
type' :: Type
}
| SIToFP {
operand0 :: Constant,
type' :: Type
}
| FPTrunc {
operand0 :: Constant,
type' :: Type
}
| FPExt {
operand0 :: Constant,
type' :: Type
}
| PtrToInt {
operand0 :: Constant,
type' :: Type
}
| IntToPtr {
operand0 :: Constant,
type' :: Type
}
| BitCast {
operand0 :: Constant,
type' :: Type
}
| AddrSpaceCast {
operand0 :: Constant,
type' :: Type
}
| ICmp {
iPredicate :: IntegerPredicate,
operand0 :: Constant,
operand1 :: Constant
}
| FCmp {
fpPredicate :: FloatingPointPredicate,
operand0 :: Constant,
operand1 :: Constant
}
| Select {
condition' :: Constant,
trueValue :: Constant,
falseValue :: Constant
}
| ExtractElement {
vector :: Constant,
index :: Constant
}
| InsertElement {
vector :: Constant,
element :: Constant,
index :: Constant
}
| ShuffleVector {
operand0 :: Constant,
operand1 :: Constant,
mask :: Constant
}
| ExtractValue {
aggregate :: Constant,
indices' :: [Word32]
}
| InsertValue {
aggregate :: Constant,
element :: Constant,
indices' :: [Word32]
}
deriving (Eq, Ord, Read, Show, Typeable, Data)
signedIntegerValue :: Constant -> Integer
signedIntegerValue (Int nBits' bits) =
let nBits = fromIntegral nBits'
in
if bits `testBit` (nBits - 1) then bits .|. (-1 `shiftL` nBits) else bits
signedIntegerValue _ = error "signedIntegerValue is only defined for Int"
unsignedIntegerValue :: Constant -> Integer
unsignedIntegerValue (Int nBits bits) =
bits .&. (complement (-1 `shiftL` (fromIntegral nBits)))
unsignedIntegerValue _ = error "unsignedIntegerValue is only defined for Int"