Safe Haskell | None |
---|---|
Language | Haskell98 |
A Target
describes that for which code may be intended. Targets are used both during actual
| lowering of LLVM IR to machine code and by some optimization passes which use the target to
| judge costs.
- lookupTarget :: Maybe ShortByteString -> ShortByteString -> IO (Target, ShortByteString)
- data TargetOptions
- data Target
- data TargetMachine
- data TargetLowering
- newtype CPUFeature = CPUFeature ByteString
- withTargetOptions :: (TargetOptions -> IO a) -> IO a
- peekTargetOptions :: TargetOptions -> IO Options
- pokeTargetOptions :: Options -> TargetOptions -> IO ()
- withTargetMachine :: Target -> ShortByteString -> ByteString -> Map CPUFeature Bool -> TargetOptions -> Model -> Model -> Level -> (TargetMachine -> IO a) -> IO a
- withHostTargetMachine :: (TargetMachine -> IO a) -> IO a
- getTargetLowering :: TargetMachine -> IO TargetLowering
- getTargetMachineTriple :: TargetMachine -> IO ShortByteString
- getDefaultTargetTriple :: IO ShortByteString
- getProcessTargetTriple :: IO ShortByteString
- getHostCPUName :: IO ByteString
- getHostCPUFeatures :: IO (Map CPUFeature Bool)
- getTargetMachineDataLayout :: TargetMachine -> IO DataLayout
- initializeNativeTarget :: IO ()
- initializeAllTargets :: IO ()
- data TargetLibraryInfo
- getLibraryFunction :: TargetLibraryInfo -> ShortByteString -> IO (Maybe LibraryFunction)
- getLibraryFunctionName :: TargetLibraryInfo -> LibraryFunction -> IO ShortByteString
- setLibraryFunctionAvailableWithName :: TargetLibraryInfo -> LibraryFunction -> ShortByteString -> IO ()
- withTargetLibraryInfo :: ShortByteString -> (TargetLibraryInfo -> IO a) -> IO a
Documentation
:: Maybe ShortByteString | arch |
-> ShortByteString | "triple" - e.g. x86_64-unknown-linux-gnu |
-> IO (Target, ShortByteString) |
Find a Target
given an architecture and/or a "triple".
| http://llvm.org/doxygen/structllvm_1_1TargetRegistry.html#a3105b45e546c9cc3cf78d0f2ec18ad89
| Be sure to run either initializeAllTargets
or
initializeNativeTarget
before expecting this to succeed,
depending on what target(s) you want to use. May throw
LookupTargetException
if no target is found.
newtype CPUFeature Source #
e.g. an instruction set extension
Eq CPUFeature Source # | |
Ord CPUFeature Source # | |
Read CPUFeature Source # | |
Show CPUFeature Source # | |
(Monad d, DecodeM d ByteString es) => DecodeM d (Map CPUFeature Bool) es Source # | |
EncodeM e ByteString es => EncodeM e (Map CPUFeature Bool) es Source # | |
withTargetOptions :: (TargetOptions -> IO a) -> IO a Source #
bracket creation and destruction of a TargetOptions
object
peekTargetOptions :: TargetOptions -> IO Options Source #
get all target options
pokeTargetOptions :: Options -> TargetOptions -> IO () Source #
set all target options
:: Target | |
-> ShortByteString | triple |
-> ByteString | cpu |
-> Map CPUFeature Bool | features |
-> TargetOptions | |
-> Model | |
-> Model | |
-> Level | |
-> (TargetMachine -> IO a) | |
-> IO a |
bracket creation and destruction of a TargetMachine
withHostTargetMachine :: (TargetMachine -> IO a) -> IO a Source #
Bracket creation and destruction of a TargetMachine
configured for the host
getTargetLowering :: TargetMachine -> IO TargetLowering Source #
get the TargetLowering
of a TargetMachine
getTargetMachineTriple :: TargetMachine -> IO ShortByteString Source #
the target triple corresponding to the target machine
getDefaultTargetTriple :: IO ShortByteString Source #
the default target triple that LLVM has been configured to produce code for
getProcessTargetTriple :: IO ShortByteString Source #
a target triple suitable for loading code into the current process
getHostCPUName :: IO ByteString Source #
the LLVM name for the host CPU
getHostCPUFeatures :: IO (Map CPUFeature Bool) Source #
a space-separated list of LLVM feature names supported by the host CPU
getTargetMachineDataLayout :: TargetMachine -> IO DataLayout Source #
DataLayout
to use for the given TargetMachine
initializeNativeTarget :: IO () Source #
Initialize the native target. This function is called automatically in these Haskell bindings
when creating an ExecutionEngine
which will require it, and so it should
not be necessary to call it separately.
initializeAllTargets :: IO () Source #
Initialize all targets so they can be found by lookupTarget
data TargetLibraryInfo Source #
getLibraryFunction :: TargetLibraryInfo -> ShortByteString -> IO (Maybe LibraryFunction) Source #
Look up a LibraryFunction
by its standard name
getLibraryFunctionName :: TargetLibraryInfo -> LibraryFunction -> IO ShortByteString Source #
Get a the current name to be emitted for a LibraryFunction
setLibraryFunctionAvailableWithName Source #
:: TargetLibraryInfo | |
-> LibraryFunction | |
-> ShortByteString | The function name to be emitted |
-> IO () |
Set the name of the function on the target platform that corresponds to funcName
withTargetLibraryInfo Source #
:: ShortByteString | triple |
-> (TargetLibraryInfo -> IO a) | |
-> IO a |
look up information about the library functions available on a given platform