[project @ 1996-03-19 08:58:34 by partain]

[ghc-hetmet.git] / ghc / compiler / nativeGen / StixInteger.lhs

diff --git a/ghc/compiler/nativeGen/StixInteger.lhs b/ghc/compiler/nativeGen/StixInteger.lhs
index 1051d26..91d68d0 100644 (file)
--- a/ghc/compiler/nativeGen/StixInteger.lhs
+++ b/ghc/compiler/nativeGen/StixInteger.lhs
@@ -5,10 +5,10 @@
 \begin{code}
 #include "HsVersions.h"
 
-module StixInteger ( 
-        gmpTake1Return1, gmpTake2Return1, gmpTake2Return2,
-        gmpCompare, gmpInteger2Int, gmpInt2Integer, gmpString2Integer,
-        encodeFloatingKind, decodeFloatingKind
+module StixInteger (
+       gmpTake1Return1, gmpTake2Return1, gmpTake2Return2,
+       gmpCompare, gmpInteger2Int, gmpInt2Integer, gmpString2Integer,
+       encodeFloatingKind, decodeFloatingKind
     ) where
 
 IMPORT_Trace   -- ToDo: rm debugging
@@ -16,138 +16,193 @@ IMPORT_Trace      -- ToDo: rm debugging
 import AbsCSyn
 import CgCompInfo   ( mIN_MP_INT_SIZE )
 import MachDesc
-import Pretty      
-import AbsPrel     ( PrimOp(..)
+import Pretty
+import PrelInfo            ( PrimOp(..)
                      IF_ATTACK_PRAGMAS(COMMA tagOf_PrimOp)
                          IF_ATTACK_PRAGMAS(COMMA pprPrimOp)
                    )
 import SMRep       ( SMRep(..), SMSpecRepKind, SMUpdateKind(..) )
 import Stix
-import SplitUniq
-import Unique
+import UniqSupply
 import Util
 
 \end{code}
 
 \begin{code}
 
-gmpTake1Return1 
-    :: Target 
-    -> [CAddrMode]         -- result (3 parts)
-    -> FAST_STRING         -- function name
-    -> [CAddrMode]         -- argument (3 parts)
-    -> SUniqSM StixTreeList
+gmpTake1Return1
+    :: Target
+    -> (CAddrMode,CAddrMode,CAddrMode)  -- result (3 parts)
+    -> FAST_STRING                     -- function name
+    -> (CAddrMode, CAddrMode,CAddrMode,CAddrMode)
+                                       -- argument (4 parts)
+    -> UniqSM StixTreeList
 
 argument1 = mpStruct 1 -- out here to avoid CAF (sigh)
 argument2 = mpStruct 2
 result2 = mpStruct 2
 result3 = mpStruct 3
 result4 = mpStruct 4
-init2 = StCall SLIT("mpz_init") VoidKind [result2]
-init3 = StCall SLIT("mpz_init") VoidKind [result3]
-init4 = StCall SLIT("mpz_init") VoidKind [result4]
-
-gmpTake1Return1 target res rtn arg =
-    let        [ar,sr,dr] = map (amodeToStix target) res
-       [liveness, aa,sa,da] = map (amodeToStix target) arg
-       space = mpSpace target 2 1 [sa]
-       oldHp = StIndex PtrKind stgHp (StPrim IntNegOp [space])
+init2 = StCall SLIT("mpz_init") VoidRep [result2]
+init3 = StCall SLIT("mpz_init") VoidRep [result3]
+init4 = StCall SLIT("mpz_init") VoidRep [result4]
+
+-- hacking with Uncle Will:
+#define target_STRICT target@(Target _ _ _ _ _ _ _ _)
+
+gmpTake1Return1 target_STRICT res@(car,csr,cdr) rtn arg@(clive,caa,csa,cda) =
+    let
+       a2stix  = amodeToStix target
+       data_hs = dataHS target
+
+       ar      = a2stix car
+       sr      = a2stix csr
+       dr      = a2stix cdr
+       liveness= a2stix clive
+       aa      = a2stix caa
+       sa      = a2stix csa
+       da      = a2stix cda
+
+       space = mpSpace data_hs 2 1 [sa]
+       oldHp = StIndex PtrRep stgHp (StPrim IntNegOp [space])
        safeHp = saveLoc target Hp
-       save = StAssign PtrKind safeHp oldHp
-       (a1,a2,a3) = toStruct target argument1 (aa,sa,da)
-       mpz_op = StCall rtn VoidKind [result2, argument1]
-       restore = StAssign PtrKind stgHp safeHp
-       (r1,r2,r3) = fromStruct target result2 (ar,sr,dr)
+       save = StAssign PtrRep safeHp oldHp
+       (a1,a2,a3) = toStruct data_hs argument1 (aa,sa,da)
+       mpz_op = StCall rtn VoidRep [result2, argument1]
+       restore = StAssign PtrRep stgHp safeHp
+       (r1,r2,r3) = fromStruct data_hs result2 (ar,sr,dr)
     in
-       heapCheck target liveness space (StInt 0)
-                                                       `thenSUs` \ heap_chk ->
+       heapCheck target liveness space (StInt 0) `thenUs` \ heap_chk ->
 
-       returnSUs (heap_chk . 
+       returnUs (heap_chk .
            (\xs -> a1 : a2 : a3 : save : init2 : mpz_op : r1 : r2 : r3 : restore : xs))
 
-gmpTake2Return1 
-    :: Target 
-    -> [CAddrMode]         -- result (3 parts)
-    -> FAST_STRING         -- function name
-    -> [CAddrMode]         -- arguments (3 parts each)
-    -> SUniqSM StixTreeList
-
-gmpTake2Return1 target res rtn args =
-    let        [ar,sr,dr] = map (amodeToStix target) res
-       [liveness, aa1,sa1,da1, aa2,sa2,da2] = map (amodeToStix target) args
-       space = mpSpace target 3 1 [sa1, sa2]
-       oldHp = StIndex PtrKind stgHp (StPrim IntNegOp [space])
+gmpTake2Return1
+    :: Target
+    -> (CAddrMode,CAddrMode,CAddrMode) -- result (3 parts)
+    -> FAST_STRING                     -- function name
+    -> (CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode)
+                                       -- liveness + 2 arguments (3 parts each)
+    -> UniqSM StixTreeList
+
+gmpTake2Return1 target_STRICT res@(car,csr,cdr) rtn args@(clive, caa1,csa1,cda1, caa2,csa2,cda2) =
+    let
+       a2stix  = amodeToStix target
+       data_hs = dataHS target
+
+       ar      = a2stix car
+       sr      = a2stix csr
+       dr      = a2stix cdr
+       liveness= a2stix clive
+       aa1     = a2stix caa1
+       sa1     = a2stix csa1
+       da1     = a2stix cda1
+       aa2     = a2stix caa2
+       sa2     = a2stix csa2
+       da2     = a2stix cda2
+
+       space = mpSpace data_hs 3 1 [sa1, sa2]
+       oldHp = StIndex PtrRep stgHp (StPrim IntNegOp [space])
        safeHp = saveLoc target Hp
-       save = StAssign PtrKind safeHp oldHp
-       (a1,a2,a3) = toStruct target argument1 (aa1,sa1,da1)
-       (a4,a5,a6) = toStruct target argument2 (aa2,sa2,da2)
-       mpz_op = StCall rtn VoidKind [result3, argument1, argument2]
-       restore = StAssign PtrKind stgHp safeHp
-       (r1,r2,r3) = fromStruct target result3 (ar,sr,dr)
+       save = StAssign PtrRep safeHp oldHp
+       (a1,a2,a3) = toStruct data_hs argument1 (aa1,sa1,da1)
+       (a4,a5,a6) = toStruct data_hs argument2 (aa2,sa2,da2)
+       mpz_op = StCall rtn VoidRep [result3, argument1, argument2]
+       restore = StAssign PtrRep stgHp safeHp
+       (r1,r2,r3) = fromStruct data_hs result3 (ar,sr,dr)
     in
-       heapCheck target liveness space (StInt 0)
-                                                       `thenSUs` \ heap_chk ->
+       heapCheck target liveness space (StInt 0) `thenUs` \ heap_chk ->
 
-       returnSUs (heap_chk .
-           (\xs -> a1 : a2 : a3 : a4 : a5 : a6 
+       returnUs (heap_chk .
+           (\xs -> a1 : a2 : a3 : a4 : a5 : a6
                        : save : init3 : mpz_op : r1 : r2 : r3 : restore : xs))
 
 gmpTake2Return2
-    :: Target 
-    -> [CAddrMode]         -- results (3 parts each)
+    :: Target
+    -> (CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode)
+                           -- 2 results (3 parts each)
     -> FAST_STRING         -- function name
-    -> [CAddrMode]         -- arguments (3 parts each)
-    -> SUniqSM StixTreeList
-
-gmpTake2Return2 target res rtn args =
-    let        [ar1,sr1,dr1, ar2,sr2,dr2] = map (amodeToStix target) res
-       [liveness, aa1,sa1,da1, aa2,sa2,da2] = map (amodeToStix target) args
-       space = StPrim IntMulOp [mpSpace target 2 1 [sa1, sa2], StInt 2]
-       oldHp = StIndex PtrKind stgHp (StPrim IntNegOp [space])
+    -> (CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode)
+                           -- liveness + 2 arguments (3 parts each)
+    -> UniqSM StixTreeList
+
+gmpTake2Return2 target_STRICT res@(car1,csr1,cdr1, car2,csr2,cdr2)
+               rtn args@(clive, caa1,csa1,cda1, caa2,csa2,cda2) =
+    let
+       a2stix  = amodeToStix target
+       data_hs = dataHS target
+
+       ar1     = a2stix car1
+       sr1     = a2stix csr1
+       dr1     = a2stix cdr1
+       ar2     = a2stix car2
+       sr2     = a2stix csr2
+       dr2     = a2stix cdr2
+       liveness= a2stix clive
+       aa1     = a2stix caa1
+       sa1     = a2stix csa1
+       da1     = a2stix cda1
+       aa2     = a2stix caa2
+       sa2     = a2stix csa2
+       da2     = a2stix cda2
+
+       space = StPrim IntMulOp [mpSpace data_hs 2 1 [sa1, sa2], StInt 2]
+       oldHp = StIndex PtrRep stgHp (StPrim IntNegOp [space])
        safeHp = saveLoc target Hp
-       save = StAssign PtrKind safeHp oldHp
-       (a1,a2,a3) = toStruct target argument1 (aa1,sa1,da1)
-       (a4,a5,a6) = toStruct target argument2 (aa2,sa2,da2)
-       mpz_op = StCall rtn VoidKind [result3, result4, argument1, argument2]
-       restore = StAssign PtrKind stgHp safeHp
-       (r1,r2,r3) = fromStruct target result3 (ar1,sr1,dr1)
-       (r4,r5,r6) = fromStruct target result4 (ar2,sr2,dr2)
+       save = StAssign PtrRep safeHp oldHp
+       (a1,a2,a3) = toStruct data_hs argument1 (aa1,sa1,da1)
+       (a4,a5,a6) = toStruct data_hs argument2 (aa2,sa2,da2)
+       mpz_op = StCall rtn VoidRep [result3, result4, argument1, argument2]
+       restore = StAssign PtrRep stgHp safeHp
+       (r1,r2,r3) = fromStruct data_hs result3 (ar1,sr1,dr1)
+       (r4,r5,r6) = fromStruct data_hs result4 (ar2,sr2,dr2)
 
     in
-       heapCheck target liveness space (StInt 0)
-                                                       `thenSUs` \ heap_chk ->
+       heapCheck target liveness space (StInt 0) `thenUs` \ heap_chk ->
 
-       returnSUs (heap_chk .
-           (\xs -> a1 : a2 : a3 : a4 : a5 : a6 
-                       : save : init3 : init4 : mpz_op 
+       returnUs (heap_chk .
+           (\xs -> a1 : a2 : a3 : a4 : a5 : a6
+                       : save : init3 : init4 : mpz_op
                        : r1 : r2 : r3 : r4 : r5 : r6 : restore : xs))
 
 \end{code}
 
-Although gmpCompare doesn't allocate space, it does temporarily use some
-space just beyond the heap pointer.  This is safe, because the enclosing
-routine has already guaranteed that this space will be available.  
-(See ``primOpHeapRequired.'')
+Although gmpCompare doesn't allocate space, it does temporarily use
+some space just beyond the heap pointer.  This is safe, because the
+enclosing routine has already guaranteed that this space will be
+available.  (See ``primOpHeapRequired.'')
 
 \begin{code}
 
-gmpCompare 
-    :: Target 
+gmpCompare
+    :: Target
     -> CAddrMode           -- result (boolean)
-    -> [CAddrMode]         -- arguments (3 parts each)
-    -> SUniqSM StixTreeList
+    -> (CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode)
+                           -- alloc hp + 2 arguments (3 parts each)
+    -> UniqSM StixTreeList
+
+gmpCompare target_STRICT res args@(chp, caa1,csa1,cda1, caa2,csa2,cda2) =
+    let
+       a2stix  = amodeToStix target
+       data_hs = dataHS target
+
+       result  = a2stix res
+       hp      = a2stix chp
+       aa1     = a2stix caa1
+       sa1     = a2stix csa1
+       da1     = a2stix cda1
+       aa2     = a2stix caa2
+       sa2     = a2stix csa2
+       da2     = a2stix cda2
 
-gmpCompare target res args =
-    let        result = amodeToStix target res
-       [hp, aa1,sa1,da1, aa2,sa2,da2] = map (amodeToStix target) args
        argument1 = hp
-       argument2 = StIndex IntKind hp (StInt (toInteger mpIntSize))
-       (a1,a2,a3) = toStruct target argument1 (aa1,sa1,da1)
-       (a4,a5,a6) = toStruct target argument2 (aa2,sa2,da2)
-       mpz_cmp = StCall SLIT("mpz_cmp") IntKind [argument1, argument2]
-       r1 = StAssign IntKind result mpz_cmp
+       argument2 = StIndex IntRep hp (StInt (toInteger mpIntSize))
+       (a1,a2,a3) = toStruct data_hs argument1 (aa1,sa1,da1)
+       (a4,a5,a6) = toStruct data_hs argument2 (aa2,sa2,da2)
+       mpz_cmp = StCall SLIT("mpz_cmp") IntRep [argument1, argument2]
+       r1 = StAssign IntRep result mpz_cmp
     in
-       returnSUs (\xs -> a1 : a2 : a3 : a4 : a5 : a6 : r1 : xs)
+       returnUs (\xs -> a1 : a2 : a3 : a4 : a5 : a6 : r1 : xs)
 
 \end{code}
 
@@ -155,151 +210,198 @@ See the comment above regarding the heap check (or lack thereof).
 
 \begin{code}
 
-gmpInteger2Int 
-    :: Target 
+gmpInteger2Int
+    :: Target
     -> CAddrMode           -- result
-    -> [CAddrMode]         -- argument (3 parts)
-    -> SUniqSM StixTreeList
-
-gmpInteger2Int target res args =
-    let        result = amodeToStix target res
-       [hp, aa,sa,da] = map (amodeToStix target) args
-       (a1,a2,a3) = toStruct target hp (aa,sa,da)
-       mpz_get_si = StCall SLIT("mpz_get_si") IntKind [hp]
-       r1 = StAssign IntKind result mpz_get_si
+    -> (CAddrMode, CAddrMode,CAddrMode,CAddrMode) -- alloc hp + argument (3 parts)
+    -> UniqSM StixTreeList
+
+gmpInteger2Int target_STRICT res args@(chp, caa,csa,cda) =
+    let
+       a2stix  = amodeToStix target
+       data_hs = dataHS target
+
+       result  = a2stix res
+       hp      = a2stix chp
+       aa      = a2stix caa
+       sa      = a2stix csa
+       da      = a2stix cda
+
+       (a1,a2,a3) = toStruct data_hs hp (aa,sa,da)
+       mpz_get_si = StCall SLIT("mpz_get_si") IntRep [hp]
+       r1 = StAssign IntRep result mpz_get_si
     in
-       returnSUs (\xs -> a1 : a2 : a3 : r1 : xs)
+       returnUs (\xs -> a1 : a2 : a3 : r1 : xs)
 
 arrayOfData_info = sStLitLbl SLIT("ArrayOfData_info")
 
-gmpInt2Integer 
-    :: Target 
-    -> [CAddrMode]         -- result (3 parts)
-    -> [CAddrMode]         -- allocated heap, int to convert
-    -> SUniqSM StixTreeList
-
-gmpInt2Integer target res args@[_, n] =
-    getUniqLabelNCG                                    `thenSUs` \ zlbl ->
-    getUniqLabelNCG                                    `thenSUs` \ nlbl ->
-    getUniqLabelNCG                                    `thenSUs` \ jlbl ->
-    let        [ar,sr,dr] = map (amodeToStix target) res
-        [hp, i] = map (amodeToStix target) args
-       h1 = StAssign PtrKind (StInd PtrKind hp) arrayOfData_info
+gmpInt2Integer
+    :: Target
+    -> (CAddrMode, CAddrMode, CAddrMode) -- result (3 parts)
+    -> (CAddrMode, CAddrMode)  -- allocated heap, Int to convert
+    -> UniqSM StixTreeList
+
+gmpInt2Integer target_STRICT res@(car,csr,cdr) args@(chp, n) =
+    getUniqLabelNCG                    `thenUs` \ zlbl ->
+    getUniqLabelNCG                    `thenUs` \ nlbl ->
+    getUniqLabelNCG                    `thenUs` \ jlbl ->
+    let
+       a2stix = amodeToStix target
+
+       ar  = a2stix car
+       sr  = a2stix csr
+       dr  = a2stix cdr
+       hp  = a2stix chp
+       i   = a2stix n
+
+       h1 = StAssign PtrRep (StInd PtrRep hp) arrayOfData_info
        size = varHeaderSize target (DataRep 0) + mIN_MP_INT_SIZE
-       h2 = StAssign IntKind (StInd IntKind (StIndex IntKind hp (StInt 1)))
-                              (StInt (toInteger size))
-        cts = StInd IntKind (StIndex IntKind hp (dataHS target))
-        test1 = StPrim IntEqOp [i, StInt 0]
-        test2 = StPrim IntLtOp [i, StInt 0]
-        cjmp1 = StCondJump zlbl test1
-        cjmp2 = StCondJump nlbl test2
+       h2 = StAssign IntRep (StInd IntRep (StIndex IntRep hp (StInt 1)))
+                             (StInt (toInteger size))
+       cts = StInd IntRep (StIndex IntRep hp (dataHS target))
+       test1 = StPrim IntEqOp [i, StInt 0]
+       test2 = StPrim IntLtOp [i, StInt 0]
+       cjmp1 = StCondJump zlbl test1
+       cjmp2 = StCondJump nlbl test2
        -- positive
-        p1 = StAssign IntKind cts i
-        p2 = StAssign IntKind sr (StInt 1)
-        p3 = StJump (StCLbl jlbl)
+       p1 = StAssign IntRep cts i
+       p2 = StAssign IntRep sr (StInt 1)
+       p3 = StJump (StCLbl jlbl)
        -- negative
-        n0 = StLabel nlbl
-        n1 = StAssign IntKind cts (StPrim IntNegOp [i])
-        n2 = StAssign IntKind sr (StInt (-1))
-        n3 = StJump (StCLbl jlbl)
+       n0 = StLabel nlbl
+       n1 = StAssign IntRep cts (StPrim IntNegOp [i])
+       n2 = StAssign IntRep sr (StInt (-1))
+       n3 = StJump (StCLbl jlbl)
        -- zero
-        z0 = StLabel zlbl
-        z1 = StAssign IntKind sr (StInt 0)
-        -- everybody
-        a0 = StLabel jlbl
-        a1 = StAssign IntKind ar (StInt 1)
-        a2 = StAssign PtrKind dr hp
+       z0 = StLabel zlbl
+       z1 = StAssign IntRep sr (StInt 0)
+       -- everybody
+       a0 = StLabel jlbl
+       a1 = StAssign IntRep ar (StInt 1)
+       a2 = StAssign PtrRep dr hp
     in
-       returnSUs (\xs -> 
+       returnUs (\xs ->
            case n of
-               CLit (MachInt c _) ->
+               CLit (MachInt c _) ->
                    if c == 0 then     h1 : h2 : z1 : a1 : a2 : xs
-                    else if c > 0 then h1 : h2 : p1 : p2 : a1 : a2 : xs
-                    else               h1 : h2 : n1 : n2 : a1 : a2 : xs
-               _                ->    h1 : h2 : cjmp1 : cjmp2 : p1 : p2 : p3 
-                                       : n0 : n1 : n2 : n3 : z0 : z1 
+                   else if c > 0 then h1 : h2 : p1 : p2 : a1 : a2 : xs
+                   else               h1 : h2 : n1 : n2 : a1 : a2 : xs
+               _                ->    h1 : h2 : cjmp1 : cjmp2 : p1 : p2 : p3
+                                       : n0 : n1 : n2 : n3 : z0 : z1
                                        : a0 : a1 : a2 : xs)
 
-gmpString2Integer 
-    :: Target 
-    -> [CAddrMode]         -- result (3 parts)
-    -> [CAddrMode]         -- liveness, string
-    -> SUniqSM StixTreeList
+gmpString2Integer
+    :: Target
+    -> (CAddrMode, CAddrMode, CAddrMode)    -- result (3 parts)
+    -> (CAddrMode, CAddrMode)              -- liveness, string
+    -> UniqSM StixTreeList
+
+gmpString2Integer target_STRICT res@(car,csr,cdr) (liveness, str) =
+    getUniqLabelNCG                                    `thenUs` \ ulbl ->
+    let
+       a2stix  = amodeToStix target
+       data_hs = dataHS target
+
+       ar = a2stix car
+       sr = a2stix csr
+       dr = a2stix cdr
 
-gmpString2Integer target res [liveness, str] =
-    getUniqLabelNCG                                    `thenSUs` \ ulbl ->
-    let        [ar,sr,dr] = map (amodeToStix target) res
        len = case str of
            (CString s) -> _LENGTH_ s
            (CLit (MachStr s)) -> _LENGTH_ s
            _ -> panic "String2Integer"
        space = len `quot` 8 + 17 + mpIntSize +
            varHeaderSize target (DataRep 0) + fixedHeaderSize target
-       oldHp = StIndex PtrKind stgHp (StInt (toInteger (-space)))
+       oldHp = StIndex PtrRep stgHp (StInt (toInteger (-space)))
        safeHp = saveLoc target Hp
-       save = StAssign PtrKind safeHp oldHp
-       result = StIndex IntKind stgHpLim (StInt (toInteger (-mpIntSize)))
-       set_str = StCall SLIT("mpz_init_set_str") IntKind
-           [result, amodeToStix target str, StInt 10]
+       save = StAssign PtrRep safeHp oldHp
+       result = StIndex IntRep stgHpLim (StInt (toInteger (-mpIntSize)))
+       set_str = StCall SLIT("mpz_init_set_str") IntRep
+           [result, a2stix str, StInt 10]
        test = StPrim IntEqOp [set_str, StInt 0]
        cjmp = StCondJump ulbl test
-       abort = StCall SLIT("abort") VoidKind []
+       abort = StCall SLIT("abort") VoidRep []
        join = StLabel ulbl
-       restore = StAssign PtrKind stgHp safeHp
-       (a1,a2,a3) = fromStruct target result (ar,sr,dr)
+       restore = StAssign PtrRep stgHp safeHp
+       (a1,a2,a3) = fromStruct data_hs result (ar,sr,dr)
     in
        macroCode target HEAP_CHK [liveness, mkIntCLit space, mkIntCLit_0]
-                                                       `thenSUs` \ heap_chk ->
+                                                       `thenUs` \ heap_chk ->
 
-       returnSUs (heap_chk .
+       returnUs (heap_chk .
            (\xs -> save : cjmp : abort : join : a1 : a2 : a3 : restore : xs))
 
 mkIntCLit_0 = mkIntCLit 0 -- out here to avoid CAF (sigh)
 
-encodeFloatingKind 
-    :: PrimKind 
-    -> Target 
-    -> [CAddrMode]     -- result
-    -> [CAddrMode]     -- heap pointer for result, integer argument (3 parts), exponent
-    -> SUniqSM StixTreeList
-
-encodeFloatingKind pk target [res] args =
-    let        result = amodeToStix target res
-       [hp, aa,sa,da, expon] = map (amodeToStix target) args
-        pk' = if sizeof target FloatKind == sizeof target DoubleKind then DoubleKind
-              else pk
-       (a1,a2,a3) = toStruct target hp (aa,sa,da)
+encodeFloatingKind
+    :: PrimRep
+    -> Target
+    -> CAddrMode       -- result
+    -> (CAddrMode,CAddrMode,CAddrMode,CAddrMode,CAddrMode)
+               -- heap pointer for result, integer argument (3 parts), exponent
+    -> UniqSM StixTreeList
+
+encodeFloatingKind pk target_STRICT res args@(chp, caa,csa,cda, cexpon) =
+    let
+       a2stix  = amodeToStix target
+       size_of = sizeof target
+       data_hs = dataHS target
+
+       result  = a2stix res
+       hp      = a2stix chp
+       aa      = a2stix caa
+       sa      = a2stix csa
+       da      = a2stix cda
+       expon   = a2stix cexpon
+
+       pk' = if size_of FloatRep == size_of DoubleRep
+             then DoubleRep
+             else pk
+       (a1,a2,a3) = toStruct data_hs hp (aa,sa,da)
        fn = case pk' of
-           FloatKind -> SLIT("__encodeFloat")
-           DoubleKind -> SLIT("__encodeDouble")
+           FloatRep -> SLIT("__encodeFloat")
+           DoubleRep -> SLIT("__encodeDouble")
            _ -> panic "encodeFloatingKind"
        encode = StCall fn pk' [hp, expon]
        r1 = StAssign pk' result encode
     in
-       returnSUs (\xs -> a1 : a2 : a3 : r1 : xs)
-
-decodeFloatingKind 
-    :: PrimKind 
-    -> Target 
-    -> [CAddrMode]         -- exponent result, integer result (3 parts)
-    -> [CAddrMode]         -- heap pointer for exponent, floating argument
-    -> SUniqSM StixTreeList
-
-decodeFloatingKind pk target res args =
-    let        [exponr,ar,sr,dr] = map (amodeToStix target) res
-        [hp, arg] = map (amodeToStix target) args
-        pk' = if sizeof target FloatKind == sizeof target DoubleKind then DoubleKind
-              else pk
-        setup = StAssign PtrKind mpData_mantissa (StIndex IntKind hp (StInt 1))
+       returnUs (\xs -> a1 : a2 : a3 : r1 : xs)
+
+decodeFloatingKind
+    :: PrimRep
+    -> Target
+    -> (CAddrMode, CAddrMode, CAddrMode, CAddrMode)
+                       -- exponent result, integer result (3 parts)
+    -> (CAddrMode, CAddrMode)
+                       -- heap pointer for exponent, floating argument
+    -> UniqSM StixTreeList
+
+decodeFloatingKind pk target_STRICT res@(cexponr,car,csr,cdr) args@(chp, carg) =
+    let
+       a2stix  = amodeToStix target
+       size_of = sizeof target
+       data_hs = dataHS target
+
+       exponr  = a2stix cexponr
+       ar      = a2stix car
+       sr      = a2stix csr
+       dr      = a2stix cdr
+       hp      = a2stix chp
+       arg     = a2stix carg
+
+       pk' = if size_of FloatRep == size_of DoubleRep
+             then DoubleRep
+             else pk
+       setup = StAssign PtrRep mpData_mantissa (StIndex IntRep hp (StInt 1))
        fn = case pk' of
-           FloatKind -> SLIT("__decodeFloat")
-           DoubleKind -> SLIT("__decodeDouble")
+           FloatRep -> SLIT("__decodeFloat")
+           DoubleRep -> SLIT("__decodeDouble")
            _ -> panic "decodeFloatingKind"
-       decode = StCall fn VoidKind [mantissa, hp, arg]
-       (a1,a2,a3) = fromStruct target mantissa (ar,sr,dr)
-       a4 = StAssign IntKind exponr (StInd IntKind hp)
+       decode = StCall fn VoidRep [mantissa, hp, arg]
+       (a1,a2,a3) = fromStruct data_hs mantissa (ar,sr,dr)
+       a4 = StAssign IntRep exponr (StInd IntRep hp)
     in
-       returnSUs (\xs -> setup : decode : a1 : a2 : a3 : a4 : xs)
+       returnUs (\xs -> setup : decode : a1 : a2 : a3 : a4 : xs)
 
 mantissa = mpStruct 1 -- out here to avoid CAF (sigh)
 mpData_mantissa = mpData mantissa
@@ -312,23 +414,23 @@ Support for the Gnu GMP multi-precision package.
 mpIntSize = 3 :: Int
 
 mpAlloc, mpSize, mpData :: StixTree -> StixTree
-mpAlloc base = StInd IntKind base
-mpSize base = StInd IntKind (StIndex IntKind base (StInt 1))
-mpData base = StInd PtrKind (StIndex IntKind base (StInt 2))
+mpAlloc base = StInd IntRep base
+mpSize base = StInd IntRep (StIndex IntRep base (StInt 1))
+mpData base = StInd PtrRep (StIndex IntRep base (StInt 2))
 
-mpSpace 
-    :: Target
+mpSpace
+    :: StixTree                -- dataHs from Target
     -> Int             -- gmp structures needed
     -> Int             -- number of results
     -> [StixTree]      -- sizes to add for estimating result size
     -> StixTree        -- total space
 
-mpSpace target gmp res sizes = 
+mpSpace data_hs gmp res sizes =
     foldr sum (StPrim IntAddOp [fixed, hdrs]) sizes
   where
     sum x y = StPrim IntAddOp [StPrim IntAbsOp [x], y]
     fixed = StInt (toInteger (17 * res + gmp * mpIntSize))
-    hdrs = StPrim IntMulOp [dataHS target, StInt (toInteger res)]
+    hdrs = StPrim IntMulOp [data_hs, StInt (toInteger res)]
 
 \end{code}
 
@@ -338,39 +440,36 @@ HpLim are our temporaries.)  Note that you must have performed a heap check
 which includes the space needed for these temporaries before you use them.
 
 \begin{code}
-
 mpStruct :: Int -> StixTree
-mpStruct n = StIndex IntKind stgHpLim (StInt (toInteger (-(n * mpIntSize))))
+mpStruct n = StIndex IntRep stgHpLim (StInt (toInteger (-(n * mpIntSize))))
 
-toStruct 
-    :: Target
-    -> StixTree 
-    -> (StixTree, StixTree, StixTree) 
-    -> (StixTree, StixTree, StixTree) 
+toStruct
+    :: StixTree                -- dataHS, from Target
+    -> StixTree
+    -> (StixTree, StixTree, StixTree)
+    -> (StixTree, StixTree, StixTree)
 
-toStruct target str (alloc,size,arr) =
+toStruct data_hs str (alloc,size,arr) =
     let
-       f1 = StAssign IntKind (mpAlloc str) alloc
-       f2 = StAssign IntKind (mpSize str) size
-       f3 = StAssign PtrKind (mpData str) (StIndex PtrKind arr (dataHS target))
+       f1 = StAssign IntRep (mpAlloc str) alloc
+       f2 = StAssign IntRep (mpSize str) size
+       f3 = StAssign PtrRep (mpData str) (StIndex PtrRep arr data_hs)
     in
        (f1, f2, f3)
 
-fromStruct 
-    :: Target
-    -> StixTree 
-    -> (StixTree, StixTree, StixTree) 
-    -> (StixTree, StixTree, StixTree) 
+fromStruct
+    :: StixTree                -- dataHS, from Target
+    -> StixTree
+    -> (StixTree, StixTree, StixTree)
+    -> (StixTree, StixTree, StixTree)
 
-fromStruct target str (alloc,size,arr) =
+fromStruct data_hs str (alloc,size,arr) =
     let
-       e1 = StAssign IntKind alloc (mpAlloc str)
-       e2 = StAssign IntKind size (mpSize str)
-       e3 = StAssign PtrKind arr (StIndex PtrKind (mpData str) 
-                                                  (StPrim IntNegOp [dataHS target]))
+       e1 = StAssign IntRep alloc (mpAlloc str)
+       e2 = StAssign IntRep size (mpSize str)
+       e3 = StAssign PtrRep arr (StIndex PtrRep (mpData str)
+                                                  (StPrim IntNegOp [data_hs]))
     in
        (e1, e2, e3)
-
-
 \end{code}