#include "haskell2c.h"
#ifdef PROFILE
static SInfo mkpackProfInfo = {"Pack","Pack.mkPacked","Prelude.Packed a"};
static SInfo rdpackProfInfo = {"Pack","Pack.rdPacked","Prelude.Int"};
static SInfo szpackProfInfo = {"Pack","Pack.sizePacked","Prelude.Int"};
static SInfo jnpackProfInfo = {"Pack","Pack.joinPacked","Prelude.Packed a"};
static SInfo offsetProfInfo = {"Pack","Pack.offset","Prelude.Packed a"};
#endif
/*#define WORDSIZE 32 /*(sizeof(unsigned)*8)*/
#define mask(x) (unsigned)((unsigned)(0xffffffff)>>(WORDSIZE-x))
/* -------------------------------------------------------------------
------------------------------------------------------------------- */
/* mkPacked :: Int -> Int -> Packed a */
C_HEADER(mkPacked) {
unsigned size, tmp, value;
NodePtr nodeptr, nretVal;
/* collect arguments */
nodeptr = C_GETARG1(1);
IND_REMOVE(nodeptr);
size = (unsigned)GET_INT_VALUE(nodeptr);
nodeptr = C_GETARG1(2);
IND_REMOVE(nodeptr);
value = (unsigned)GET_INT_VALUE(nodeptr);
size &= mask(16); /* truncate size to fit storage field */
value &= mask((size>32?32:size)); /* truncate value to required size */
/* construct return value */
if (size<=8) {
value |= (size << 8);
nretVal = C_ALLOC(1+EXTRA);
nretVal[0] = CONSTR(value,0,0);
} else {
tmp = (size+31)/32;
nretVal = C_ALLOC(1+EXTRA+2);
nretVal[0] = CONSTR(0,2,1);
nretVal[1+EXTRA] = C_ALLOC(1+EXTRA+tmp);
nretVal[1+EXTRA][0] = CONSTRW(tmp,0)
for (int i=0; i<tmp; i++)
nretVal[1+EXTRA][1+i+EXTRA] = 0;
nretVal[1+EXTRA][tmp+EXTRA] |= value;
nretVal[2+EXTRA] = ((32-(size%32)) << 16) | size;
}
INIT_PROFINFO(nretVal,&mkpackProfInfo);
C_RETURN(nretVal);
}
/* rdPacked :: Int -> Packed a -> Int */
C_HEADER(rdPacked) {
unsigned start, size, tmp, tmpsize, tmpval, wordpos, bitpos;
unsigned value=0;
NodePtr nodeptr, nretVal;
nodeptr = C_GETARG1(1);
IND_REMOVE(nodeptr);
size = (unsigned)GET_INT_VALUE(nodeptr);
if (size==0) { /*fprintf (stderr,"rdPacked 0\n");*/
value = 0;
} else {
nodeptr = C_GETARG1(2);
IND_REMOVE(nodeptr);
if (CONINFO_SIZE(GET_CONINFO(nodeptr)) == 1+EXTRA) {
tmp = GET_CONSTR(nodeptr);
tmpsize = tmp >> 8;
tmpval = tmp & mask(8);
if (size>tmpsize) size=tmpsize;
value = tmpval >> (tmpsize-size);
} else {
NodePtr ptr = GET_POINTER_ARG1(nodeptr,1);
tmp = GET_VALUE_ARG1(nodeptr,2);
tmpsize = tmp & mask(16);
if (size>tmpsize) size=tmpsize;
start = tmp >> 16;
value = getval(ptr,start,size);
}
}
nretVal = nhc_mkInt(value);
INIT_PROFINFO(nretVal,&rdpackProfInfo);
C_RETURN(nretVal);
}
unsigned getval (ptr, start, size)
NodePtr ptr;
unsigned start, size; {
unsigned wordpos, bitpos, value;
wordpos = (start+31)/32;
bitpos = start % 32;
if (bitpos + size > 32) {
value = (ptr[1+EXTRA+wordpos] & mask(32-bitpos))
<< (bitpos+size-32);
value |= (ptr[1+EXTRA+wordpos+1] >> (64-size-bitpos))
& mask(bitpos+size-32);
} else {
value = (ptr[1+EXTRA+wordpos] >> (32-bitpos-size)) & mask(size);
}
return value;
}
/* joinPacked :: Packed a -> Packed b -> Packed c */
C_HEADER(joinPacked) {
NodePtr nodeptr1, nodeptr2, nretVal;
unsigned tmp, size, value;
unsigned start1, start2, size1, size2, value1, value2;
nodeptr1 = C_GETARG1(1);
IND_REMOVE(nodeptr1);
if (CONINFO_SIZE(GET_CONINFO(nodeptr1)) == 1+EXTRA) {
tmp = GET_CONSTR(nodeptr1);
size1 = tmp>>8;
value1 = tmp&mask(size1);
} else {
tmp = GET_VALUE_ARG1(nodeptr1,2);
size1 = tmp&mask(16);
start1 = tmp>>16;
if (size1 <= 32) {
value1 = getval(GET_POINTER_ARG1(nodeptr1,1),start1,size1);
}
}
nodeptr2 = C_GETARG1(2);
IND_REMOVE(nodeptr2);
if (CONINFO_SIZE(GET_CONINFO(nodeptr2)) == 1+EXTRA) {
tmp = GET_CONSTR(nodeptr2);
size2 = tmp>>8;
value2 = tmp&mask(size2);
} else {
tmp = GET_VALUE_ARG1(nodeptr2,2);
size2 = tmp&mask(16);
start2 = tmp>>16;
if (size2 <= 32) {
value2 = getval(GET_POINTER_ARG1(nodeptr2,1),start2,size2);
}
}
size = size1+size2;
if (size <= 8) {
value = value2 | (value1 << size2);
value |= (size << 8);
nretVal = C_ALLOC(1+EXTRA);
nretVal[0] = CONSTR(value,0,0);
} else if (size <= 32) {
value = value2 | (value1 << size2);
nretVal = C_ALLOC(1+EXTRA+2);
nretVal[0] = CONSTR(0,2,1);
nretVal[1+EXTRA] = C_ALLOC(1+EXTRA+1);
nretVal[1+EXTRA][0] = CONSTRW(1,0)
nretVal[1+EXTRA][1+EXTRA] = value;
nretVal[2+EXTRA] = ((32-size) << 16) | size;
} else {
tmp = (size+31)/32;
nretVal = C_ALLOC(1+EXTRA+2);
nretVal[0] = CONSTR(0,2,1);
nretVal[1+EXTRA] = C_ALLOC(1+EXTRA+tmp);
nretVal[1+EXTRA][0] = CONSTRW(tmp,0)
for (int i=0; i<tmp; i++)
nretVal[1+EXTRA][1+i+EXTRA] = 0;
nretVal[1+EXTRA][tmp+EXTRA] |= value;
nretVal[2+EXTRA] = ((32-(size%32)) << 16) | size;
}
INIT_PROFINFO(nretVal,&jnpackProfInfo);
C_RETURN(nretVal);
}
/* sizePacked :: Packed a -> Int */
C_HEADER(sizePacked) {
unsigned tmp;
NodePtr nodeptr, nretVal;
nodeptr = C_GETARG1(1);
IND_REMOVE(nodeptr);
if (CONINFO_SIZE(GET_CONINFO(nodeptr)) == 1+EXTRA) {
tmp = GET_CONSTR(nodeptr);
nretVal = nhc_mkInt(tmp>>8);
} else {
tmp = GET_VALUE_ARG1(nodeptr,2);
nretVal = nhc_mkInt(tmp&mask(16));
}
INIT_PROFINFO(nretVal,&szpackProfInfo);
C_RETURN(nretVal);
}
/* offset :: Int -> Packed a -> Packed b */
C_HEADER(offset) {
NodePtr nodeptr, nretVal;
unsigned tmp, add, size;
nodeptr = C_GETARG1(1);
IND_REMOVE(nodeptr);
add = (unsigned)GET_INT_VALUE(nodeptr);
nodeptr = C_GETARG1(2);
IND_REMOVE(nodeptr);
if (CONINFO_SIZE(GET_CONINFO(nodeptr)) == 1+EXTRA) {
unsigned value;
tmp = GET_CONSTR(nodeptr);
size = (tmp>>8);
size = (add>=size ? 0 : size-add);
value = (tmp & mask(size)) | (size<<8);
nretVal = C_ALLOC(1+EXTRA)
nretVal[0] = CONSTR(value,0,0);
} else {
tmp = GET_VALUE_ARG1(nodeptr,2);
size = (tmp & mask(16));
if (add>=size) {
nretVal = C_ALLOC(1+EXTRA)
nretVal[0] = CONSTR(0,0,0);
} else {
unsigned start;
start = (tmp & ~(mask(16))) + (add<<16);
size -= add;
nretVal = C_ALLOC(1+EXTRA+2)
nretVal[0] = CONSTR(0,2,1);
nretVal[1+EXTRA] = GET_POINTER_ARG1(nodeptr,1);
nretVal[2+EXTRA] = (start | size);
}
}
INIT_PROFINFO(nretVal,&offsetProfInfo);
C_RETURN(nretVal);
}
/* primAlignPackedLo :: Packed a -> Packed a */
/* primAlignPackedHi :: Packed a -> Packed a */
C_HEADER(primAlignPackedLo) {
unsigned tmp;
NodePtr nodeptr, nretVal;
nodeptr = C_GETARG1(1);
IND_REMOVE(nodeptr);
if (CONINFO_SIZE(GET_CONINFO(nodeptr)) == 1+EXTRA) {
tmp = GET_CONSTR(nodeptr);
tmp &= mask(8);
tmp |= 8<<8;
nretVal = C_ALLOC(1+EXTRA);
nretVal[0] = CONSTR(tmp,0,0);
INIT_PROFINFO(nretVal,&packProfInfo);
} else {
tmp = GET_VALUE_ARG1(nodeptr,2);
nretVal = C_ALLOC(1+EXTRA+2);
nretVal[0] = CONSTR(0,2,1);
nretVal[1+EXTRA] = GET_POINTER_ARG1(nodeptr,1);
nretVal[2+EXTRA] = (tmp...) | (tmp & mask(16));
}
C_RETURN(nretVal);
}
/* primPutPacked :: Handle -> Packed a -> Int */
/* -- Assumes that Packed a is aligned. */
C_HEADER(primPutPacked) {
int n, err; unsigned ptr; short offset=0;
FileDesc *a;
NodePtr nodeptr;
nodeptr = C_GETARG1(1);
IND_REMOVE(nodeptr);
UPDATE_PROFINFO(nodeptr)
a = derefForeignObj((ForeignObj*)(GET_INT_VALUE(nodeptr)));
nodeptr = C_GETARG1(3);
IND_REMOVE(nodeptr);
ptr = (unsigned)GET_INT_VALUE(nodeptr);
offset = (ptr & IdxMask) >>3; /* alignment=> idx `elem` [0,8,16,24] */
ptr = ptr >> PtrShift;
err = fwrite((char*)(&binSpace[ptr])+offset, 1, n, a->fp);
C_RETURN(nhc_mkInt(err));
}
/* primGetPacked :: Handle -> Packed a */
C_HEADER(primGetNBytes) {
unsigned r;
FileDesc *a;
NodePtr nodeptr, nretVal;
nodeptr = C_GETARG1(1);
IND_REMOVE(nodeptr);
UPDATE_PROFINFO(nodeptr)
a = derefForeignObj((ForeignObj*)(GET_INT_VALUE(nodeptr)));
err = fread((char*)&r, sizeof(int), 1, a->fp);
err = fread((char*)(&binSpace[binPtr])+offset, 1, n, a->fp);
ptr = (binPtr << PtrShift) | ((unsigned)bitIdx & IdxMask);
/* calculate new internal position in binspace */
binPtr += (offset+err) /4;
bitIdx = ((offset+err)%4) <<3;
C_RETURN(nhc_mkInt(ptr));
}
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