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cmpscdct.c
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cmpscdct.c
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/* CMPSCDCT.C (C) Copyright "Fish" (David B. Trout), 2012-2014 */
/* Compression Call Get Dictionary Entry functions */
/* */
/* Released under "The Q Public License Version 1" */
/* (http://www.hercules-390.org/herclic.html) as modifications to */
/* Hercules. */
#include "hstdinc.h" // (MUST be first #include in EVERY source file)
#define _CMPSCDCT_C_
#define _HENGINE_DLL_
#if !defined( NOT_HERC ) // (building Hercules?)
#include "hercules.h"
#include "opcode.h"
#include "inline.h"
#endif
#include "cmpsc.h" // (Master header)
#ifdef FEATURE_CMPSC
///////////////////////////////////////////////////////////////////////////////
// GetDCT: fetch 8-byte dictionary entry as a 64-bit unsigned integer
U64 (CMPSC_FASTCALL ARCH_DEP( GetDCT ))( U16 index, DCTBLK* pDCTBLK )
{
register U16 pagenum = INDEX_TO_PAGENUM( index );
register U16 pageidx = INDEX_TO_PAGEIDX( index );
if (!pDCTBLK->maddr[ pagenum ])
{
pDCTBLK->maddr[ pagenum ] = MADDR
(
pDCTBLK->pDict + PAGENUM_TO_BYTES( pagenum ),
pDCTBLK->arn,
pDCTBLK->regs,
ACCTYPE_READ,
pDCTBLK->pkey
);
}
return CSWAP64(*(U64*)(uintptr_t)(&pDCTBLK->maddr[ pagenum ][ pageidx ]));
}
///////////////////////////////////////////////////////////////////////////////
// GetECE: Extract EXPANSION Character Entry into portable ECE structure
//
// Returns: TRUE/FALSE (success/data exception)
U8 (CMPSC_FASTCALL ARCH_DEP( GetECE ))( U16 index, ECEBLK* pECEBLK )
{
register U64 ece;
register ECE* pECE = pECEBLK->pECE;
if (pECEBLK->ece[ index ].cached)
{
*pECE = pECEBLK->ece[ index ];
return TRUE;
}
ece = ARCH_DEP( GetDCT )( index, pECEBLK->pDCTBLK );
if (!(pECE->psl = ECE_U8R( 0, 3 )))
{
if (!(pECE->csl = ECE_U8R( 5, 3 )))
return FALSE;
pECE->ec_dw = CSWAP64( ece << 8 );
}
else if (pECE->psl > 5)
return FALSE;
else
{
if ((pECE->pptr = ECE_U16R( 3, 13 )) > pECEBLK->max_index)
return FALSE;
pECE->ofst = (U8)(ece);
pECE->ec_dw = CSWAP64( ece << 16 );
pECE->csl = 0;
}
pECE->cached = TRUE;
pECEBLK->ece[ index ] = *pECE;
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
// GetCCE: Extract COMPRESSION Character Entry into portable CCE structure
//
// Returns: TRUE/FALSE (success/data exception)
U8 (CMPSC_FASTCALL ARCH_DEP( GetCCE ))( U16 index, CCEBLK* pCCEBLK )
{
register U64 cce;
register CCE* pCCE = pCCEBLK->pCCE;
if (pCCEBLK->cce[ index ].cached)
{
*pCCE = pCCEBLK->cce[ index ];
return TRUE;
}
cce = ARCH_DEP( GetDCT )( index, pCCEBLK->pDCTBLK );
pCCE->mc = FALSE;
if (!(pCCE->cct = CCE_U8R( 0, 3 ))) // (no children)
{
if ((pCCE->act = CCE_U8R( 8, 3 )) > 5)
return FALSE;
if (pCCE->act)
pCCE->ec_dw = CSWAP64( cce << 24 );
pCCE->cached = TRUE;
pCCEBLK->cce[ index ] = *pCCE;
return TRUE;
}
if (pCCE->cct == 1) // (only one child)
{
register U8 wrk;
if ((pCCE->act = CCE_U8R( 8, 3 )) > 4)
return FALSE;
wrk = (pCCE->act << 3);
pCCE->cc[0] = CCE_U8R( 24 + wrk, 8 );
if (pCCE->act)
pCCE->ec_dw = CSWAP64( cce << 24 );
pCCE->cptr = CCE_U16R( 11, 13 );
pCCE->ecb = CCE_U16L( 3, 1 );
}
else // (many children)
{
register U8 wrk; // (max cct)
if (!(pCCE->act = CCE_U8R( 10, 1 ))) // (act == 0)
wrk = 5;
else // (act == 1)
{
wrk = 4;
pCCE->ec[0] = CCE_U8R( 24, 8 );
}
if (pCCE->cct > (wrk + 1)) // (data exception?)
return FALSE;
if (pCCE->cct == (wrk + 1)) // (more children?)
{
pCCE->mc = TRUE; // (set flag)
pCCE->cct = wrk; // (fix cct)
}
wrk = (pCCE->act << 3); // (cc start bit - 24)
pCCE->cc_dw = CSWAP64( cce << (24 + wrk) );
pCCE->cptr = CCE_U16R( 11, 13 );
pCCE->ecb = CCE_U16L( 3, 5 );
pCCE->yy = CCE_U16L( 8, 2 );
}
pCCE->cached = TRUE;
pCCEBLK->cce[ index ] = *pCCE;
return (pCCE->cptr > pCCEBLK->max_index) ? FALSE : TRUE;
}
///////////////////////////////////////////////////////////////////////////////
// GetSD0: Extract Format-0 Sibling Descriptor into portable SDE structure
//
// Returns: TRUE/FALSE (success/data exception)
U8 (CMPSC_FASTCALL ARCH_DEP( GetSD0 ))( U16 index, SDEBLK* pSDEBLK )
{
register U64 sd1;
register SDE* pSDE = pSDEBLK->pSDE;
if (pSDEBLK->sde[ index ].cached)
{
*pSDE = pSDEBLK->sde[ index ];
return TRUE;
}
sd1 = ARCH_DEP( GetDCT )( index, pSDEBLK->pDCTBLK );
pSDE->ms = FALSE;
if (!(pSDE->sct = SD1_U8R( 0, 3 )) || pSDE->sct >= 7)
{
pSDE->sct = 7;
pSDE->ms = TRUE;
}
// Examine child bits for children 1 to 5
pSDE->ecb = SD1_U16L( 3, 5 );
// If children exist append examine child bits for
// children 6 and 7 which are in the parent CCE so
// they're all in one place (makes things easier).
//
// Note: this only applies for the FIRST sibling
// of the parent. Examine child bits for children
// 6 and 7 do not exist for subsequent siblings
// of parent and thus must ALWAYS be examined.
if (pSDEBLK->pCCE) // (first sibling of parent?)
{
if (pSDEBLK->pCCE->cct > 1)
pSDE->ecb |= pSDEBLK->pCCE->yy >> 5;
}
else // (force child to ALWAYS be examined)
{
pSDE->ecb |= 0xFFFF >> 5;
}
pSDE->sc_dw = CSWAP64( sd1 << 8 );
pSDE->cached = TRUE;
pSDEBLK->sde[ index ] = *pSDE;
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
// GetSD1: Extract Format-1 Sibling Descriptor into portable SDE structure
//
// Returns: TRUE/FALSE (success/data exception)
U8 (CMPSC_FASTCALL ARCH_DEP( GetSD1 ))( U16 index, SDEBLK* pSDEBLK )
{
register U64 sd1;
register SDE* pSDE = pSDEBLK->pSDE;
if (pSDEBLK->sde[ index ].cached)
{
*pSDE = pSDEBLK->sde[ index ];
return TRUE;
}
sd1 = ARCH_DEP( GetDCT )( index, pSDEBLK->pDCTBLK );
pSDE->ms = FALSE;
if (!(pSDE->sct = SD1_U8R( 0, 4 )) || pSDE->sct >= 15)
{
pSDE->sct = 14;
pSDE->ms = TRUE;
}
// Examine child bits for children 1 to 12
pSDE->ecb = SD1_U16L( 4, 12 );
// If children exist append examine child bits for
// children 13 and 14 which are in the parent CCE
// so they are all in one place (simpler testing).
//
// Note: this only applies for the FIRST sibling
// of the parent. Examine child bits for children
// 13 and 14 do not exist for subsequent siblings
// of parent and thus must ALWAYS be examined.
if (pSDEBLK->pCCE) // (first sibling of parent?)
{
if (pSDEBLK->pCCE->cct > 1)
pSDE->ecb |= pSDEBLK->pCCE->yy >> 12;
}
else // (force child to ALWAYS be examined)
{
pSDE->ecb |= 0xFFFF >> 12;
}
sd1 <<= 16; // (first 6 bytes)
if (pSDE->sct <= 6)
pSDE->sc_dw = CSWAP64( sd1 ); // (only 6 bytes)
else
{
register U64 sd2 = ARCH_DEP( GetDCT )( index, pSDEBLK->pDCTBLK2 );
sd1 |= sd2 >> (64-16); // (append 2 more)
pSDE->sc_dw= CSWAP64( sd1 ); // (store first 8)
sd2 <<= 16; // (next 6 bytes)
pSDE->sc_dw2 = CSWAP64( sd2 ); // (store next 6)
}
pSDE->cached = TRUE;
pSDEBLK->sde[ index ] = *pSDE;
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
#endif /* FEATURE_CMPSC */
#ifndef _GEN_ARCH
#ifdef _ARCH_NUM_1
#define _GEN_ARCH _ARCH_NUM_1
#include "cmpscdct.c"
#endif /* #ifdef _ARCH_NUM_1 */
#ifdef _ARCH_NUM_2
#undef _GEN_ARCH
#define _GEN_ARCH _ARCH_NUM_2
#include "cmpscdct.c"
#endif /* #ifdef _ARCH_NUM_2 */
#endif /* #ifndef _GEN_ARCH */