{-# LANGUAGE TemplateHaskell #-} module STD.Vector.TH where import Data.Char import Data.List import Data.Monoid import Foreign.C.Types import Foreign.Ptr import Language.Haskell.TH import Language.Haskell.TH.Syntax import FFICXX.Runtime.CodeGen.Cxx import FFICXX.Runtime.TH import STD.Vector.Template import STD.VectorIterator.Template t_newVector :: Type -> String -> Q Exp t_newVector :: Type -> String -> Q Exp t_newVector Type typ1 String suffix = (Type, String, String -> String, Type -> Q Type) -> Q Exp forall types. (types, String, String -> String, types -> Q Type) -> Q Exp mkTFunc (Type typ1, String suffix, \ String n -> String "Vector_new" String -> String -> String forall a. Semigroup a => a -> a -> a <> String n, Type -> Q Type forall {m :: * -> *} {p}. Quote m => p -> m Type tyf) where tyf :: p -> m Type tyf p _ = let tp1 :: m Type tp1 = Type -> m Type forall a. a -> m a forall (f :: * -> *) a. Applicative f => a -> f a pure Type typ1 in [t| IO (Vector $( tp1 )) |] t_begin :: Type -> String -> Q Exp t_begin :: Type -> String -> Q Exp t_begin Type typ1 String suffix = (Type, String, String -> String, Type -> Q Type) -> Q Exp forall types. (types, String, String -> String, types -> Q Type) -> Q Exp mkTFunc (Type typ1, String suffix, \ String n -> String "Vector_begin" String -> String -> String forall a. Semigroup a => a -> a -> a <> String n, Type -> Q Type forall {m :: * -> *} {p}. Quote m => p -> m Type tyf) where tyf :: p -> m Type tyf p _ = let tp1 :: m Type tp1 = Type -> m Type forall a. a -> m a forall (f :: * -> *) a. Applicative f => a -> f a pure Type typ1 in [t| Vector $( tp1 ) -> IO (VectorIterator $( tp1 )) |] t_end :: Type -> String -> Q Exp t_end :: Type -> String -> Q Exp t_end Type typ1 String suffix = (Type, String, String -> String, Type -> Q Type) -> Q Exp forall types. (types, String, String -> String, types -> Q Type) -> Q Exp mkTFunc (Type typ1, String suffix, \ String n -> String "Vector_end" String -> String -> String forall a. Semigroup a => a -> a -> a <> String n, Type -> Q Type forall {m :: * -> *} {p}. Quote m => p -> m Type tyf) where tyf :: p -> m Type tyf p _ = let tp1 :: m Type tp1 = Type -> m Type forall a. a -> m a forall (f :: * -> *) a. Applicative f => a -> f a pure Type typ1 in [t| Vector $( tp1 ) -> IO (VectorIterator $( tp1 )) |] t_push_back :: Type -> String -> Q Exp t_push_back :: Type -> String -> Q Exp t_push_back Type typ1 String suffix = (Type, String, String -> String, Type -> Q Type) -> Q Exp forall types. (types, String, String -> String, types -> Q Type) -> Q Exp mkTFunc (Type typ1, String suffix, \ String n -> String "Vector_push_back" String -> String -> String forall a. Semigroup a => a -> a -> a <> String n, Type -> Q Type forall {m :: * -> *} {p}. Quote m => p -> m Type tyf) where tyf :: p -> m Type tyf p _ = let tp1 :: m Type tp1 = Type -> m Type forall a. a -> m a forall (f :: * -> *) a. Applicative f => a -> f a pure Type typ1 in [t| Vector $( tp1 ) -> $( tp1 ) -> IO () |] t_pop_back :: Type -> String -> Q Exp t_pop_back :: Type -> String -> Q Exp t_pop_back Type typ1 String suffix = (Type, String, String -> String, Type -> Q Type) -> Q Exp forall types. (types, String, String -> String, types -> Q Type) -> Q Exp mkTFunc (Type typ1, String suffix, \ String n -> String "Vector_pop_back" String -> String -> String forall a. Semigroup a => a -> a -> a <> String n, Type -> Q Type forall {m :: * -> *} {p}. Quote m => p -> m Type tyf) where tyf :: p -> m Type tyf p _ = let tp1 :: m Type tp1 = Type -> m Type forall a. a -> m a forall (f :: * -> *) a. Applicative f => a -> f a pure Type typ1 in [t| Vector $( tp1 ) -> IO () |] t_at :: Type -> String -> Q Exp t_at :: Type -> String -> Q Exp t_at Type typ1 String suffix = (Type, String, String -> String, Type -> Q Type) -> Q Exp forall types. (types, String, String -> String, types -> Q Type) -> Q Exp mkTFunc (Type typ1, String suffix, \ String n -> String "Vector_at" String -> String -> String forall a. Semigroup a => a -> a -> a <> String n, Type -> Q Type forall {m :: * -> *} {p}. Quote m => p -> m Type tyf) where tyf :: p -> m Type tyf p _ = let tp1 :: m Type tp1 = Type -> m Type forall a. a -> m a forall (f :: * -> *) a. Applicative f => a -> f a pure Type typ1 in [t| Vector $( tp1 ) -> CInt -> IO $( tp1 ) |] t_size :: Type -> String -> Q Exp t_size :: Type -> String -> Q Exp t_size Type typ1 String suffix = (Type, String, String -> String, Type -> Q Type) -> Q Exp forall types. (types, String, String -> String, types -> Q Type) -> Q Exp mkTFunc (Type typ1, String suffix, \ String n -> String "Vector_size" String -> String -> String forall a. Semigroup a => a -> a -> a <> String n, Type -> Q Type forall {m :: * -> *} {p}. Quote m => p -> m Type tyf) where tyf :: p -> m Type tyf p _ = let tp1 :: m Type tp1 = Type -> m Type forall a. a -> m a forall (f :: * -> *) a. Applicative f => a -> f a pure Type typ1 in [t| Vector $( tp1 ) -> IO CInt |] t_deleteVector :: Type -> String -> Q Exp t_deleteVector :: Type -> String -> Q Exp t_deleteVector Type typ1 String suffix = (Type, String, String -> String, Type -> Q Type) -> Q Exp forall types. (types, String, String -> String, types -> Q Type) -> Q Exp mkTFunc (Type typ1, String suffix, \ String n -> String "Vector_delete" String -> String -> String forall a. Semigroup a => a -> a -> a <> String n, Type -> Q Type forall {m :: * -> *} {p}. Quote m => p -> m Type tyf) where tyf :: p -> m Type tyf p _ = let tp1 :: m Type tp1 = Type -> m Type forall a. a -> m a forall (f :: * -> *) a. Applicative f => a -> f a pure Type typ1 in [t| Vector $( tp1 ) -> IO () |] genVectorInstanceFor :: IsCPrimitive -> (Q Type, TemplateParamInfo) -> Q [Dec] genVectorInstanceFor :: IsCPrimitive -> (Q Type, TemplateParamInfo) -> Q [Dec] genVectorInstanceFor IsCPrimitive isCprim (Q Type qtyp1, TemplateParamInfo param1) = do let params :: [String] params = (TemplateParamInfo -> String) -> [TemplateParamInfo] -> [String] forall a b. (a -> b) -> [a] -> [b] map TemplateParamInfo -> String tpinfoSuffix [TemplateParamInfo param1] let suffix :: String suffix = (TemplateParamInfo -> String) -> [TemplateParamInfo] -> String forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b] concatMap (\ TemplateParamInfo x -> String "_" String -> String -> String forall a. [a] -> [a] -> [a] ++ TemplateParamInfo -> String tpinfoSuffix TemplateParamInfo x) [TemplateParamInfo param1] String callmod_ <- (Loc -> String) -> Q Loc -> Q String forall a b. (a -> b) -> Q a -> Q b forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b fmap Loc -> String loc_module Q Loc location let callmod :: String callmod = String -> String dot2_ String callmod_ Type typ1 <- Q Type qtyp1 Dec f1 <- String -> (Type -> String -> Q Exp) -> Type -> String -> Q Dec forall types. String -> (types -> String -> Q Exp) -> types -> String -> Q Dec mkNew String "newVector" Type -> String -> Q Exp t_newVector Type typ1 String suffix Dec f2 <- String -> (Type -> String -> Q Exp) -> Type -> String -> Q Dec forall types. String -> (types -> String -> Q Exp) -> types -> String -> Q Dec mkMember String "begin" Type -> String -> Q Exp t_begin Type typ1 String suffix Dec f3 <- String -> (Type -> String -> Q Exp) -> Type -> String -> Q Dec forall types. String -> (types -> String -> Q Exp) -> types -> String -> Q Dec mkMember String "end" Type -> String -> Q Exp t_end Type typ1 String suffix Dec f4 <- String -> (Type -> String -> Q Exp) -> Type -> String -> Q Dec forall types. String -> (types -> String -> Q Exp) -> types -> String -> Q Dec mkMember String "push_back" Type -> String -> Q Exp t_push_back Type typ1 String suffix Dec f5 <- String -> (Type -> String -> Q Exp) -> Type -> String -> Q Dec forall types. String -> (types -> String -> Q Exp) -> types -> String -> Q Dec mkMember String "pop_back" Type -> String -> Q Exp t_pop_back Type typ1 String suffix Dec f6 <- String -> (Type -> String -> Q Exp) -> Type -> String -> Q Dec forall types. String -> (types -> String -> Q Exp) -> types -> String -> Q Dec mkMember String "at" Type -> String -> Q Exp t_at Type typ1 String suffix Dec f7 <- String -> (Type -> String -> Q Exp) -> Type -> String -> Q Dec forall types. String -> (types -> String -> Q Exp) -> types -> String -> Q Dec mkMember String "size" Type -> String -> Q Exp t_size Type typ1 String suffix Dec f8 <- String -> (Type -> String -> Q Exp) -> Type -> String -> Q Dec forall types. String -> (types -> String -> Q Exp) -> types -> String -> Q Dec mkDelete String "deleteVector" Type -> String -> Q Exp t_deleteVector Type typ1 String suffix Q () -> Q () addModFinalizer (ForeignSrcLang -> String -> Q () addForeignSource ForeignSrcLang LangCxx (String "\n#include \"MacroPatternMatch.h\"\n\n\n#include \"vector\"\n\n\n#define Vector_new(callmod, tp1) \\\nextern \"C\" {\\\nvoid* Vector_new_##tp1 ( );}\\\ninline void* Vector_new_##tp1 ( ) {\\\nreturn static_cast<void*>(new std::vector<tp1>());\\\n}\\\nauto a_##callmod##_Vector_new_##tp1=Vector_new_##tp1;\n\n\n#define Vector_begin(callmod, tp1) \\\nextern \"C\" {\\\nvoid* Vector_begin_##tp1 ( void* p );}\\\ninline void* Vector_begin_##tp1 ( void* p ) {\\\nstd::vector<tp1>::iterator* r=new std::vector<tp1>::iterator((static_cast<std::vector<tp1>*>(p))->begin());return static_cast<void*>(r);\\\n}\\\nauto a_##callmod##_Vector_begin_##tp1=Vector_begin_##tp1;\n\n\n#define Vector_end(callmod, tp1) \\\nextern \"C\" {\\\nvoid* Vector_end_##tp1 ( void* p );}\\\ninline void* Vector_end_##tp1 ( void* p ) {\\\nstd::vector<tp1>::iterator* r=new std::vector<tp1>::iterator((static_cast<std::vector<tp1>*>(p))->end());return static_cast<void*>(r);\\\n}\\\nauto a_##callmod##_Vector_end_##tp1=Vector_end_##tp1;\n\n\n#define Vector_push_back(callmod, tp1) \\\nextern \"C\" {\\\nvoid Vector_push_back_##tp1 ( void* p, tp1##_p x );}\\\ninline void Vector_push_back_##tp1 ( void* p, tp1##_p x ) {\\\n(static_cast<std::vector<tp1>*>(p))->push_back(*(from_nonconst_to_nonconst<tp1, tp1##_t>(x)));\\\n}\\\nauto a_##callmod##_Vector_push_back_##tp1=Vector_push_back_##tp1;\n\n\n#define Vector_pop_back(callmod, tp1) \\\nextern \"C\" {\\\nvoid Vector_pop_back_##tp1 ( void* p );}\\\ninline void Vector_pop_back_##tp1 ( void* p ) {\\\n(static_cast<std::vector<tp1>*>(p))->pop_back();\\\n}\\\nauto a_##callmod##_Vector_pop_back_##tp1=Vector_pop_back_##tp1;\n\n\n#define Vector_at(callmod, tp1) \\\nextern \"C\" {\\\ntp1##_p Vector_at_##tp1 ( void* p, int n );}\\\ninline tp1##_p Vector_at_##tp1 ( void* p, int n ) {\\\nreturn from_nonconst_to_nonconst<tp1##_t, tp1>((tp1*)&((static_cast<std::vector<tp1>*>(p))->at(n)));\\\n}\\\nauto a_##callmod##_Vector_at_##tp1=Vector_at_##tp1;\n\n\n#define Vector_size(callmod, tp1) \\\nextern \"C\" {\\\nint Vector_size_##tp1 ( void* p );}\\\ninline int Vector_size_##tp1 ( void* p ) {\\\nreturn (static_cast<std::vector<tp1>*>(p))->size();\\\n}\\\nauto a_##callmod##_Vector_size_##tp1=Vector_size_##tp1;\n\n\n#define Vector_delete(callmod, tp1) \\\nextern \"C\" {\\\nvoid Vector_delete_##tp1 ( void* p );}\\\ninline void Vector_delete_##tp1 ( void* p ) {\\\ndelete static_cast<std::vector<tp1>*>(p);\\\n}\\\nauto a_##callmod##_Vector_delete_##tp1=Vector_delete_##tp1;\n\n\n#define Vector_new_s(callmod, tp1) \\\nextern \"C\" {\\\nvoid* Vector_new_##tp1 ( );}\\\ninline void* Vector_new_##tp1 ( ) {\\\nreturn static_cast<void*>(new std::vector<tp1>());\\\n}\\\nauto a_##callmod##_Vector_new_##tp1=Vector_new_##tp1;\n\n\n#define Vector_begin_s(callmod, tp1) \\\nextern \"C\" {\\\nvoid* Vector_begin_##tp1 ( void* p );}\\\ninline void* Vector_begin_##tp1 ( void* p ) {\\\nstd::vector<tp1>::iterator* r=new std::vector<tp1>::iterator((static_cast<std::vector<tp1>*>(p))->begin());return static_cast<void*>(r);\\\n}\\\nauto a_##callmod##_Vector_begin_##tp1=Vector_begin_##tp1;\n\n\n#define Vector_end_s(callmod, tp1) \\\nextern \"C\" {\\\nvoid* Vector_end_##tp1 ( void* p );}\\\ninline void* Vector_end_##tp1 ( void* p ) {\\\nstd::vector<tp1>::iterator* r=new std::vector<tp1>::iterator((static_cast<std::vector<tp1>*>(p))->end());return static_cast<void*>(r);\\\n}\\\nauto a_##callmod##_Vector_end_##tp1=Vector_end_##tp1;\n\n\n#define Vector_push_back_s(callmod, tp1) \\\nextern \"C\" {\\\nvoid Vector_push_back_##tp1 ( void* p, tp1 x );}\\\ninline void Vector_push_back_##tp1 ( void* p, tp1 x ) {\\\n(static_cast<std::vector<tp1>*>(p))->push_back(x);\\\n}\\\nauto a_##callmod##_Vector_push_back_##tp1=Vector_push_back_##tp1;\n\n\n#define Vector_pop_back_s(callmod, tp1) \\\nextern \"C\" {\\\nvoid Vector_pop_back_##tp1 ( void* p );}\\\ninline void Vector_pop_back_##tp1 ( void* p ) {\\\n(static_cast<std::vector<tp1>*>(p))->pop_back();\\\n}\\\nauto a_##callmod##_Vector_pop_back_##tp1=Vector_pop_back_##tp1;\n\n\n#define Vector_at_s(callmod, tp1) \\\nextern \"C\" {\\\ntp1 Vector_at_##tp1 ( void* p, int n );}\\\ninline tp1 Vector_at_##tp1 ( void* p, int n ) {\\\nreturn (static_cast<std::vector<tp1>*>(p))->at(n);\\\n}\\\nauto a_##callmod##_Vector_at_##tp1=Vector_at_##tp1;\n\n\n#define Vector_size_s(callmod, tp1) \\\nextern \"C\" {\\\nint Vector_size_##tp1 ( void* p );}\\\ninline int Vector_size_##tp1 ( void* p ) {\\\nreturn (static_cast<std::vector<tp1>*>(p))->size();\\\n}\\\nauto a_##callmod##_Vector_size_##tp1=Vector_size_##tp1;\n\n\n#define Vector_delete_s(callmod, tp1) \\\nextern \"C\" {\\\nvoid Vector_delete_##tp1 ( void* p );}\\\ninline void Vector_delete_##tp1 ( void* p ) {\\\ndelete static_cast<std::vector<tp1>*>(p);\\\n}\\\nauto a_##callmod##_Vector_delete_##tp1=Vector_delete_##tp1;\n\n\n#define Vector_instance(callmod, tp1) \\\nVector_new(callmod, tp1)\\\nVector_begin(callmod, tp1)\\\nVector_end(callmod, tp1)\\\nVector_push_back(callmod, tp1)\\\nVector_pop_back(callmod, tp1)\\\nVector_at(callmod, tp1)\\\nVector_size(callmod, tp1)\\\nVector_delete(callmod, tp1)\n\n\n#define Vector_instance_s(callmod, tp1) \\\nVector_new_s(callmod, tp1)\\\nVector_begin_s(callmod, tp1)\\\nVector_end_s(callmod, tp1)\\\nVector_push_back_s(callmod, tp1)\\\nVector_pop_back_s(callmod, tp1)\\\nVector_at_s(callmod, tp1)\\\nVector_size_s(callmod, tp1)\\\nVector_delete_s(callmod, tp1)\n\n" String -> String -> String forall a. [a] -> [a] -> [a] ++ let headers :: [HeaderName] headers = (TemplateParamInfo -> [HeaderName]) -> [TemplateParamInfo] -> [HeaderName] forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b] concatMap TemplateParamInfo -> [HeaderName] tpinfoCxxHeaders [TemplateParamInfo param1] f :: HeaderName -> String f HeaderName x = CMacro Identity -> String renderCMacro (HeaderName -> CMacro Identity forall (f :: * -> *). HeaderName -> CMacro f Include HeaderName x) in (HeaderName -> String) -> [HeaderName] -> String forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b] concatMap HeaderName -> String f [HeaderName] headers String -> String -> String forall a. [a] -> [a] -> [a] ++ let nss :: [Namespace] nss = (TemplateParamInfo -> [Namespace]) -> [TemplateParamInfo] -> [Namespace] forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b] concatMap TemplateParamInfo -> [Namespace] tpinfoCxxNamespaces [TemplateParamInfo param1] f :: Namespace -> String f Namespace x = CStatement Identity -> String renderCStmt (Namespace -> CStatement Identity forall (f :: * -> *). Namespace -> CStatement f UsingNamespace Namespace x) in (Namespace -> String) -> [Namespace] -> String forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b] concatMap Namespace -> String f [Namespace] nss String -> String -> String forall a. [a] -> [a] -> [a] ++ String "Vector_instance" String -> String -> String forall a. [a] -> [a] -> [a] ++ (case IsCPrimitive isCprim of IsCPrimitive CPrim -> String "_s" IsCPrimitive NonCPrim -> String "") String -> String -> String forall a. [a] -> [a] -> [a] ++ String "(" String -> String -> String forall a. [a] -> [a] -> [a] ++ String -> [String] -> String forall a. [a] -> [[a]] -> [a] intercalate String ", " (String callmod String -> [String] -> [String] forall a. a -> [a] -> [a] : [String] params) String -> String -> String forall a. [a] -> [a] -> [a] ++ String ")\n")) let lst :: [Dec] lst = [Dec f1, Dec f2, Dec f3, Dec f4, Dec f5, Dec f6, Dec f7, Dec f8] [Dec] -> Q [Dec] forall a. a -> Q a forall (f :: * -> *) a. Applicative f => a -> f a pure [Cxt -> Type -> [Dec] -> Dec mkInstance [] (Type -> Type -> Type AppT (String -> Type con String "IVector") Type typ1) [Dec] lst]