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/*
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Copyright ( c ) 2016 - 2018 Chung , Hyung - Hwan . All rights reserved .
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Redistribution and use in source and binary forms , with or without
modification , are permitted provided that the following conditions
are met :
1. Redistributions of source code must retain the above copyright
notice , this list of conditions and the following disclaimer .
2. Redistributions in binary form must reproduce the above copyright
notice , this list of conditions and the following disclaimer in the
documentation and / or other materials provided with the distribution .
THIS SOFTWARE IS PROVIDED BY THE AUTHOR " AS IS " AND ANY EXPRESS OR
IMPLIED WARRANTIES , INCLUDING , BUT NOT LIMITED TO , THE IMPLIED WARRANTIES
OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED .
IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT , INDIRECT ,
INCIDENTAL , SPECIAL , EXEMPLARY , OR CONSEQUENTIAL DAMAGES ( INCLUDING , BUT
NOT LIMITED TO , PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES ; LOSS OF USE ,
DATA , OR PROFITS ; OR BUSINESS INTERRUPTION ) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY , WHETHER IN CONTRACT , STRICT LIABILITY , OR TORT
( INCLUDING NEGLIGENCE OR OTHERWISE ) ARISING IN ANY WAY OUT OF THE USE OF
THIS SOFTWARE , EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE .
*/
# include "hcl-prv.h"
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# if defined(HCL_PROFILE_VM)
# include <sys/time.h>
# include <sys/resource.h> /* getrusage */
# endif
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static struct
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{
hcl_oow_t len ;
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hcl_ooch_t ptr [ 20 ] ;
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int syncode ;
hcl_oow_t offset ;
} syminfo [ ] =
{
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{ 3 , { ' a ' , ' n ' , ' d ' } , HCL_SYNCODE_AND , HCL_OFFSETOF ( hcl_t , _and ) } ,
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{ 5 , { ' b ' , ' r ' , ' e ' , ' a ' , ' k ' } , HCL_SYNCODE_BREAK , HCL_OFFSETOF ( hcl_t , _break ) } ,
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{ 5 , { ' c ' , ' a ' , ' t ' , ' c ' , ' h ' } , HCL_SYNCODE_CATCH , HCL_OFFSETOF ( hcl_t , _catch ) } ,
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{ 5 , { ' c ' , ' l ' , ' a ' , ' s ' , ' s ' } , HCL_SYNCODE_CLASS , HCL_OFFSETOF ( hcl_t , _class ) } ,
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{ 8 , { ' c ' , ' o ' , ' n ' , ' t ' , ' i ' , ' n ' , ' u ' , ' e ' } , HCL_SYNCODE_CONTINUE , HCL_OFFSETOF ( hcl_t , _continue ) } ,
{ 8 , { ' d ' , ' e ' , ' f ' , ' c ' , ' l ' , ' a ' , ' s ' , ' s ' } , HCL_SYNCODE_DEFCLASS , HCL_OFFSETOF ( hcl_t , _defclass ) } ,
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{ 5 , { ' d ' , ' e ' , ' f ' , ' u ' , ' n ' } , HCL_SYNCODE_DEFUN , HCL_OFFSETOF ( hcl_t , _defun ) } ,
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{ 2 , { ' d ' , ' o ' } , HCL_SYNCODE_DO , HCL_OFFSETOF ( hcl_t , _do ) } ,
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{ 4 , { ' e ' , ' l ' , ' i ' , ' f ' } , HCL_SYNCODE_ELIF , HCL_OFFSETOF ( hcl_t , _elif ) } ,
{ 4 , { ' e ' , ' l ' , ' s ' , ' e ' } , HCL_SYNCODE_ELSE , HCL_OFFSETOF ( hcl_t , _else ) } ,
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{ 3 , { ' f ' , ' u ' , ' n ' } , HCL_SYNCODE_LAMBDA , HCL_OFFSETOF ( hcl_t , _fun ) } , /* same syncode as lambda */
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{ 2 , { ' i ' , ' f ' } , HCL_SYNCODE_IF , HCL_OFFSETOF ( hcl_t , _if ) } ,
{ 6 , { ' l ' , ' a ' , ' m ' , ' b ' , ' d ' , ' a ' } , HCL_SYNCODE_LAMBDA , HCL_OFFSETOF ( hcl_t , _lambda ) } ,
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{ 2 , { ' o ' , ' r ' } , HCL_SYNCODE_OR , HCL_OFFSETOF ( hcl_t , _or ) } ,
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{ 4 , { ' p ' , ' l ' , ' u ' , ' s ' } , HCL_SYNCODE_PLUS , HCL_OFFSETOF ( hcl_t , _plus ) } ,
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{ 6 , { ' r ' , ' e ' , ' t ' , ' u ' , ' r ' , ' n ' } , HCL_SYNCODE_RETURN , HCL_OFFSETOF ( hcl_t , _return ) } ,
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{ 16 , { ' r ' , ' e ' , ' t ' , ' u ' , ' r ' , ' n ' , ' - ' , ' f ' , ' r ' , ' o ' , ' m ' , ' - ' , ' h ' , ' o ' , ' m ' , ' e ' } ,
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HCL_SYNCODE_RETURN_FROM_HOME , HCL_OFFSETOF ( hcl_t , _return_from_home ) } ,
{ 3 , { ' s ' , ' e ' , ' t ' } , HCL_SYNCODE_SET , HCL_OFFSETOF ( hcl_t , _set ) } ,
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{ 5 , { ' s ' , ' e ' , ' t ' , ' - ' , ' r ' } , HCL_SYNCODE_SET_R , HCL_OFFSETOF ( hcl_t , _set_r ) } ,
{ 5 , { ' t ' , ' h ' , ' r ' , ' o ' , ' w ' } , HCL_SYNCODE_THROW , HCL_OFFSETOF ( hcl_t , _throw ) } ,
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{ 3 , { ' t ' , ' r ' , ' y ' } , HCL_SYNCODE_TRY , HCL_OFFSETOF ( hcl_t , _try_ ) } ,
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{ 5 , { ' u ' , ' n ' , ' t ' , ' i ' , ' l ' } , HCL_SYNCODE_UNTIL , HCL_OFFSETOF ( hcl_t , _until ) } ,
{ 5 , { ' w ' , ' h ' , ' i ' , ' l ' , ' e ' } , HCL_SYNCODE_WHILE , HCL_OFFSETOF ( hcl_t , _while ) }
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} ;
/* ========================================================================= */
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static void compact_symbol_table ( hcl_t * hcl , hcl_oop_t _nil )
{
hcl_oop_char_t symbol ;
hcl_oow_t i , x , y , z ;
hcl_oow_t bucket_size , index ;
hcl_ooi_t tally ;
# if defined(HCL_SUPPORT_GC_DURING_IGNITION)
if ( ! hcl - > symtab ) return ; /* symbol table has not been created */
# endif
/* the symbol table doesn't allow more data items than HCL_SMOOI_MAX.
* so hcl - > symtab - > tally must always be a small integer */
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HCL_ASSERT ( hcl , HCL_OOP_IS_SMOOI ( hcl - > symtab - > tally ) ) ;
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tally = HCL_OOP_TO_SMOOI ( hcl - > symtab - > tally ) ;
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HCL_ASSERT ( hcl , tally > = 0 ) ; /* it must not be less than 0 */
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if ( tally < = 0 ) return ;
/* NOTE: in theory, the bucket size can be greater than HCL_SMOOI_MAX
* as it is an internal header field and is of an unsigned type */
bucket_size = HCL_OBJ_GET_SIZE ( hcl - > symtab - > bucket ) ;
for ( index = 0 ; index < bucket_size ; )
{
if ( HCL_OBJ_GET_FLAGS_MOVED ( hcl - > symtab - > bucket - > slot [ index ] ) )
{
index + + ;
continue ;
}
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HCL_ASSERT ( hcl , hcl - > symtab - > bucket - > slot [ index ] ! = _nil ) ;
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for ( i = 0 , x = index , y = index ; i < bucket_size ; i + + )
{
y = ( y + 1 ) % bucket_size ;
/* done if the slot at the current hash index is _nil */
if ( hcl - > symtab - > bucket - > slot [ y ] = = _nil ) break ;
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/* get the natural hash index for the data in the slot
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* at the current hash index */
symbol = ( hcl_oop_char_t ) hcl - > symtab - > bucket - > slot [ y ] ;
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HCL_ASSERT ( hcl , HCL_IS_SYMBOL ( hcl , symbol ) ) ;
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z = hcl_hash_oochars ( symbol - > slot , HCL_OBJ_GET_SIZE ( symbol ) ) % bucket_size ;
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/* move an element if necessary */
if ( ( y > x & & ( z < = x | | z > y ) ) | |
( y < x & & ( z < = x & & z > y ) ) )
{
hcl - > symtab - > bucket - > slot [ x ] = hcl - > symtab - > bucket - > slot [ y ] ;
x = y ;
}
}
hcl - > symtab - > bucket - > slot [ x ] = _nil ;
tally - - ;
}
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HCL_ASSERT ( hcl , tally > = 0 ) ;
HCL_ASSERT ( hcl , tally < = HCL_SMOOI_MAX ) ;
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hcl - > symtab - > tally = HCL_SMOOI_TO_OOP ( tally ) ;
}
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hcl_oow_t hcl_getobjpayloadbytes ( hcl_t * hcl , hcl_oop_t oop )
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{
hcl_oow_t nbytes_aligned ;
if ( HCL_OBJ_GET_FLAGS_TRAILER ( oop ) )
{
hcl_oow_t nbytes ;
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/* only an OOP object can have the trailer.
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*
* | _flags |
* | _size | < - - if it ' s 3
* | _class |
* | X |
* | X |
* | X |
* | Y | < - - it may exist if EXTRA is set in _flags .
* | Z | < - - if TRAILER is set , it is the number of bytes in the trailer
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* | | | | |
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*/
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HCL_ASSERT ( hcl , HCL_OBJ_GET_FLAGS_TYPE ( oop ) = = HCL_OBJ_TYPE_OOP ) ;
HCL_ASSERT ( hcl , HCL_OBJ_GET_FLAGS_UNIT ( oop ) = = HCL_SIZEOF ( hcl_oow_t ) ) ;
HCL_ASSERT ( hcl , HCL_OBJ_GET_FLAGS_EXTRA ( oop ) = = 0 ) ; /* no 'extra' for an OOP object */
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nbytes = HCL_OBJ_BYTESOF ( oop ) + HCL_SIZEOF ( hcl_oow_t ) + HCL_OBJ_GET_TRAILER_SIZE ( oop ) ;
nbytes_aligned = HCL_ALIGN ( nbytes , HCL_SIZEOF ( hcl_oop_t ) ) ;
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}
else
{
/* calculate the payload size in bytes */
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nbytes_aligned = HCL_ALIGN ( HCL_OBJ_BYTESOF ( oop ) , HCL_SIZEOF ( hcl_oop_t ) ) ;
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}
return nbytes_aligned ;
}
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/* ----------------------------------------------------------------------- */
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#if 0
static HCL_INLINE void gc_ms_mark ( hcl_t * hcl , hcl_oop_t oop )
{
hcl_oow_t i , sz ;
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# if defined(HCL_SUPPORT_GC_DURING_IGNITION)
if ( ! oop ) return ;
# endif
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if ( ! HCL_OOP_IS_POINTER ( oop ) ) return ;
if ( HCL_OBJ_GET_FLAGS_MOVED ( oop ) ) return ; /* already marked */
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HCL_OBJ_SET_FLAGS_MOVED ( oop , 1 ) ; /* mark */
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/*gc_ms_mark (hcl, (hcl_oop_t)HCL_OBJ_GET_CLASS(oop));*/ /* TODO: remove recursion */
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if ( HCL_OBJ_GET_FLAGS_TYPE ( oop ) = = HCL_OBJ_TYPE_OOP )
{
hcl_oow_t size , i ;
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/* is it really better to use a flag bit in the header to
* determine that it is an instance of process ? */
if ( HCL_UNLIKELY ( HCL_OBJ_GET_FLAGS_PROC ( oop ) ) )
{
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/* the stack in a process object doesn't need to be
* scanned in full . the slots above the stack pointer
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* are garbages . */
size = HCL_PROCESS_NAMED_INSTVARS + HCL_OOP_TO_SMOOI ( ( ( hcl_oop_process_t ) oop ) - > sp ) + 1 ;
HCL_ASSERT ( hcl , size < = HCL_OBJ_GET_SIZE ( oop ) ) ;
}
else
{
size = HCL_OBJ_GET_SIZE ( oop ) ;
}
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for ( i = 0 ; i < size ; i + + )
{
hcl_oop_t tmp = HCL_OBJ_GET_OOP_VAL ( oop , i ) ;
if ( HCL_OOP_IS_POINTER ( tmp ) ) gc_ms_mark ( hcl , tmp ) ; /* TODO: no resursion */
}
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}
}
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# else
static HCL_INLINE void gc_ms_mark_object ( hcl_t * hcl , hcl_oop_t oop )
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{
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# if defined(HCL_SUPPORT_GC_DURING_IGNITION)
if ( ! oop ) return ;
# endif
if ( ! HCL_OOP_IS_POINTER ( oop ) | | HCL_OBJ_GET_FLAGS_MOVED ( oop ) ) return ; /* non-pointer or already marked */
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HCL_OBJ_SET_FLAGS_MOVED ( oop , 1 ) ; /* mark */
HCL_ASSERT ( hcl , hcl - > gci . stack . len < hcl - > gci . stack . capa ) ;
hcl - > gci . stack . ptr [ hcl - > gci . stack . len + + ] = oop ; /* push */
if ( hcl - > gci . stack . len > hcl - > gci . stack . max ) hcl - > gci . stack . max = hcl - > gci . stack . len ;
}
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static HCL_INLINE void gc_ms_scan_stack ( hcl_t * hcl )
{
hcl_oop_t oop ;
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while ( hcl - > gci . stack . len > 0 )
{
oop = hcl - > gci . stack . ptr [ - - hcl - > gci . stack . len ] ;
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gc_ms_mark_object ( hcl , ( hcl_oop_t ) HCL_OBJ_GET_CLASS ( oop ) ) ;
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if ( HCL_OBJ_GET_FLAGS_TYPE ( oop ) = = HCL_OBJ_TYPE_OOP )
{
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hcl_ooi_t i , ll ;
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/* is it really better to use a flag bit in the header to
* determine that it is an instance of process ? */
/* if (HCL_UNLIKELY(HCL_OBJ_GET_FLAGS_PROC(oop))) */
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if ( HCL_OBJ_GET_FLAGS_BRAND ( oop ) = = HCL_BRAND_PROCESS )
{
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hcl_oop_process_t proc ;
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/* the stack in a process object doesn't need to be
* scanned in full . the slots above the stack pointer
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* are garbages . */
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proc = ( hcl_oop_process_t ) oop ;
/* the fixed part */
ll = HCL_PROCESS_NAMED_INSTVARS ;
for ( i = 0 ; i < ll ; i + + ) gc_ms_mark_object ( hcl , HCL_OBJ_GET_OOP_VAL ( oop , i ) ) ;
/* stack */
ll = HCL_OOP_TO_SMOOI ( proc - > sp ) ;
HCL_ASSERT ( hcl , ll < ( hcl_ooi_t ) ( HCL_OBJ_GET_SIZE ( oop ) - HCL_PROCESS_NAMED_INSTVARS ) ) ;
for ( i = 0 ; i < = ll ; i + + ) gc_ms_mark_object ( hcl , proc - > slot [ i ] ) ;
/* exception stack */
ll = HCL_OOP_TO_SMOOI ( proc - > exsp ) ;
HCL_ASSERT ( hcl , ll < ( hcl_ooi_t ) ( HCL_OBJ_GET_SIZE ( oop ) - HCL_PROCESS_NAMED_INSTVARS ) ) ;
for ( i = HCL_OOP_TO_SMOOI ( proc - > st ) + 1 ; i < = ll ; i + + ) gc_ms_mark_object ( hcl , proc - > slot [ i ] ) ;
/* class stack */
ll = HCL_OOP_TO_SMOOI ( proc - > clsp ) ;
HCL_ASSERT ( hcl , ll < ( hcl_ooi_t ) ( HCL_OBJ_GET_SIZE ( oop ) - HCL_PROCESS_NAMED_INSTVARS ) ) ;
for ( i = HCL_OOP_TO_SMOOI ( proc - > exst ) + 1 ; i < = ll ; i + + ) gc_ms_mark_object ( hcl , proc - > slot [ i ] ) ;
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}
else
{
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ll = HCL_OBJ_GET_SIZE ( oop ) ;
for ( i = 0 ; i < ll ; i + + ) gc_ms_mark_object ( hcl , HCL_OBJ_GET_OOP_VAL ( oop , i ) ) ;
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}
}
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}
}
static HCL_INLINE void gc_ms_mark ( hcl_t * hcl , hcl_oop_t oop )
{
gc_ms_mark_object ( hcl , oop ) ;
gc_ms_scan_stack ( hcl ) ;
}
# endif
static HCL_INLINE void gc_ms_mark_roots ( hcl_t * hcl )
{
hcl_oow_t i ;
# if defined(ENABLE_GCFIN)
hcl_oow_t gcfin_count ;
# endif
hcl_cb_t * cb ;
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# if defined(HCL_PROFILE_VM)
struct rusage ru ;
hcl_ntime_t rut ;
getrusage ( RUSAGE_SELF , & ru ) ;
HCL_INIT_NTIME ( & rut , ru . ru_utime . tv_sec , HCL_USEC_TO_NSEC ( ru . ru_utime . tv_usec ) ) ;
# endif
if ( hcl - > processor & & hcl - > processor - > active )
{
HCL_ASSERT ( hcl , ( hcl_oop_t ) hcl - > processor ! = hcl - > _nil ) ;
HCL_ASSERT ( hcl , ( hcl_oop_t ) hcl - > processor - > active ! = hcl - > _nil ) ;
/* commit the stack pointer to the active process because
* gc needs the correct stack pointer for a process object */
hcl - > processor - > active - > sp = HCL_SMOOI_TO_OOP ( hcl - > sp ) ;
}
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gc_ms_mark ( hcl , hcl - > _undef ) ;
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gc_ms_mark ( hcl , hcl - > _nil ) ;
gc_ms_mark ( hcl , hcl - > _true ) ;
gc_ms_mark ( hcl , hcl - > _false ) ;
for ( i = 0 ; i < HCL_COUNTOF ( syminfo ) ; i + + )
{
gc_ms_mark ( hcl , * ( hcl_oop_t * ) ( ( hcl_uint8_t * ) hcl + syminfo [ i ] . offset ) ) ;
}
gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > sysdic ) ;
gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > processor ) ;
gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > nil_process ) ;
for ( i = 0 ; i < hcl - > code . lit . len ; i + + )
{
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/* the literal array ia a NGC object. but the literal objects
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* pointed by the elements of this array must be gabage - collected . */
gc_ms_mark ( hcl , ( ( hcl_oop_oop_t ) hcl - > code . lit . arr ) - > slot [ i ] ) ;
}
gc_ms_mark ( hcl , hcl - > p . e ) ;
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for ( i = 0 ; i < hcl - > sem_list_count ; i + + )
{
gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > sem_list [ i ] ) ;
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}
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for ( i = 0 ; i < hcl - > sem_heap_count ; i + + )
{
gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > sem_heap [ i ] ) ;
}
for ( i = 0 ; i < hcl - > sem_io_tuple_count ; i + + )
{
if ( hcl - > sem_io_tuple [ i ] . sem [ HCL_SEMAPHORE_IO_TYPE_INPUT ] )
gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > sem_io_tuple [ i ] . sem [ HCL_SEMAPHORE_IO_TYPE_INPUT ] ) ;
if ( hcl - > sem_io_tuple [ i ] . sem [ HCL_SEMAPHORE_IO_TYPE_OUTPUT ] )
gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > sem_io_tuple [ i ] . sem [ HCL_SEMAPHORE_IO_TYPE_OUTPUT ] ) ;
}
# if defined(ENABLE_GCFIN)
gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > sem_gcfin ) ;
# endif
for ( i = 0 ; i < hcl - > proc_map_capa ; i + + )
{
gc_ms_mark ( hcl , hcl - > proc_map [ i ] ) ;
}
for ( i = 0 ; i < hcl - > volat_count ; i + + )
{
gc_ms_mark ( hcl , * hcl - > volat_stack [ i ] ) ;
}
if ( hcl - > initial_context ) gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > initial_context ) ;
if ( hcl - > active_context ) gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > active_context ) ;
if ( hcl - > initial_function ) gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > initial_function ) ;
if ( hcl - > active_function ) gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > active_function ) ;
if ( hcl - > last_retv ) gc_ms_mark ( hcl , hcl - > last_retv ) ;
/*hcl_rbt_walk (&hcl->modtab, call_module_gc, hcl); */
for ( cb = hcl - > cblist ; cb ; cb = cb - > next )
{
if ( cb - > gc ) cb - > gc ( hcl ) ;
}
# if defined(ENABLE_GCFIN)
gcfin_count = move_finalizable_objects ( hcl ) ; /* mark finalizable objects */
# endif
if ( hcl - > symtab )
{
compact_symbol_table ( hcl , hcl - > _nil ) ; /* delete symbol table entries that are not marked */
#if 0
gc_ms_mark ( hcl , ( hcl_oop_t ) hcl - > symtab ) ; /* mark the symbol table */
# else
HCL_OBJ_SET_FLAGS_MOVED ( hcl - > symtab , 1 ) ; /* mark */
HCL_OBJ_SET_FLAGS_MOVED ( hcl - > symtab - > bucket , 1 ) ; /* mark */
# endif
}
# if defined(ENABLE_GCFIN)
if ( gcfin_count > 0 ) hcl - > sem_gcfin_sigreq = 1 ;
# endif
if ( hcl - > active_function ) hcl - > active_code = HCL_FUNCTION_GET_CODE_BYTE ( hcl - > active_function ) ; /* update hcl->active_code */
# if defined(HCL_PROFILE_VM)
getrusage ( RUSAGE_SELF , & ru ) ;
HCL_SUB_NTIME_SNS ( & rut , & rut , ru . ru_utime . tv_sec , HCL_USEC_TO_NSEC ( ru . ru_utime . tv_usec ) ) ;
HCL_SUB_NTIME ( & hcl - > gci . stat . mark , & hcl - > gci . stat . mark , & rut ) ; /* do subtraction because rut is negative */
# endif
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}
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void hcl_gc_ms_sweep_lazy ( hcl_t * hcl , hcl_oow_t allocsize )
{
hcl_gchdr_t * curr , * next , * prev ;
hcl_oop_t obj ;
hcl_oow_t freed_size ;
# if defined(HCL_PROFILE_VM)
struct rusage ru ;
hcl_ntime_t rut ;
getrusage ( RUSAGE_SELF , & ru ) ;
HCL_INIT_NTIME ( & rut , ru . ru_utime . tv_sec , HCL_USEC_TO_NSEC ( ru . ru_utime . tv_usec ) ) ;
# endif
if ( ! hcl - > gci . ls . curr ) goto done ;
freed_size = 0 ;
prev = hcl - > gci . ls . prev ;
curr = hcl - > gci . ls . curr ;
while ( curr )
{
next = curr - > next ;
obj = ( hcl_oop_t ) ( curr + 1 ) ;
if ( HCL_OBJ_GET_FLAGS_MOVED ( obj ) ) /* if marked */
{
HCL_OBJ_SET_FLAGS_MOVED ( obj , 0 ) ; /* unmark */
prev = curr ;
}
else
{
hcl_oow_t objsize ;
if ( prev ) prev - > next = next ;
else hcl - > gci . b = next ;
objsize = HCL_SIZEOF ( hcl_obj_t ) + hcl_getobjpayloadbytes ( hcl , obj ) ;
freed_size + = objsize ;
hcl - > gci . bsz - = objsize ;
hcl_freeheapmem ( hcl , hcl - > heap , curr ) ; /* destroy */
/*if (freed_size > allocsize)*/ /* TODO: can it secure large enough space? */
if ( objsize = = allocsize )
{
hcl - > gci . ls . prev = prev ;
hcl - > gci . ls . curr = next ; /* let the next lazy sweeping begin at this point */
goto done ;
}
}
curr = next ;
}
hcl - > gci . ls . curr = HCL_NULL ;
done :
# if defined(HCL_PROFILE_VM)
getrusage ( RUSAGE_SELF , & ru ) ;
HCL_SUB_NTIME_SNS ( & rut , & rut , ru . ru_utime . tv_sec , HCL_USEC_TO_NSEC ( ru . ru_utime . tv_usec ) ) ;
HCL_SUB_NTIME ( & hcl - > gci . stat . sweep , & hcl - > gci . stat . sweep , & rut ) ; /* do subtraction because rut is negative */
# endif
return ;
}
static HCL_INLINE void gc_ms_sweep ( hcl_t * hcl )
{
hcl_gchdr_t * curr , * next , * prev ;
hcl_oop_t obj ;
# if defined(HCL_PROFILE_VM)
struct rusage ru ;
hcl_ntime_t rut ;
getrusage ( RUSAGE_SELF , & ru ) ;
HCL_INIT_NTIME ( & rut , ru . ru_utime . tv_sec , HCL_USEC_TO_NSEC ( ru . ru_utime . tv_usec ) ) ;
# endif
prev = HCL_NULL ;
curr = hcl - > gci . b ;
while ( curr )
{
next = curr - > next ;
obj = ( hcl_oop_t ) ( curr + 1 ) ;
if ( HCL_OBJ_GET_FLAGS_MOVED ( obj ) ) /* if marked */
{
HCL_OBJ_SET_FLAGS_MOVED ( obj , 0 ) ; /* unmark */
prev = curr ;
}
else
{
if ( prev ) prev - > next = next ;
else hcl - > gci . b = next ;
hcl - > gci . bsz - = HCL_SIZEOF ( hcl_obj_t ) + hcl_getobjpayloadbytes ( hcl , obj ) ;
hcl_freeheapmem ( hcl , hcl - > heap , curr ) ; /* destroy */
}
curr = next ;
}
hcl - > gci . ls . curr = HCL_NULL ;
# if defined(HCL_PROFILE_VM)
getrusage ( RUSAGE_SELF , & ru ) ;
HCL_SUB_NTIME_SNS ( & rut , & rut , ru . ru_utime . tv_sec , HCL_USEC_TO_NSEC ( ru . ru_utime . tv_usec ) ) ;
HCL_SUB_NTIME ( & hcl - > gci . stat . sweep , & hcl - > gci . stat . sweep , & rut ) ; /* do subtraction because rut is negative */
# endif
}
void hcl_gc ( hcl_t * hcl , int full )
{
if ( hcl - > gci . lazy_sweep ) hcl_gc_ms_sweep_lazy ( hcl , HCL_TYPE_MAX ( hcl_oow_t ) ) ;
HCL_LOG1 ( hcl , HCL_LOG_GC | HCL_LOG_INFO , " Starting GC (mark-sweep) - gci.bsz = %zu \n " , hcl - > gci . bsz ) ;
hcl - > gci . stack . len = 0 ;
/*hcl->gci.stack.max = 0;*/
gc_ms_mark_roots ( hcl ) ;
if ( ! full & & hcl - > gci . lazy_sweep )
{
/* set the lazy sweeping point to the head of the allocated blocks.
* hawk_allocbytes ( ) updates hcl - > gci . ls . prev if it is called while
* hcl - > gci . ls . curr stays at hcl - > gci . b */
hcl - > gci . ls . prev = HCL_NULL ;
hcl - > gci . ls . curr = hcl - > gci . b ;
}
else
{
gc_ms_sweep ( hcl ) ;
}
HCL_LOG2 ( hcl , HCL_LOG_GC | HCL_LOG_INFO , " Finished GC (mark-sweep) - gci.bsz = %zu, gci.stack.max %zu \n " , hcl - > gci . bsz , hcl - > gci . stack . max ) ;
}
hcl_oop_t hcl_moveoop ( hcl_t * hcl , hcl_oop_t oop )
{
if ( oop ) gc_ms_mark ( hcl , oop ) ;
return oop ;
}
#if 0
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void hcl_gc ( hcl_t * hcl )
{
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/*
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* move a referenced object to the new heap .
* inspect the fields of the moved object in the new heap .
* move objects pointed to by the fields to the new heap .
* finally perform some tricky symbol table clean - up .
*/
hcl_uint8_t * ptr ;
hcl_heap_t * tmp ;
hcl_oop_t old_nil ;
hcl_oow_t i ;
hcl_cb_t * cb ;
if ( hcl - > active_context )
{
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HCL_ASSERT ( hcl , ( hcl_oop_t ) hcl - > processor ! = hcl - > _nil ) ;
HCL_ASSERT ( hcl , ( hcl_oop_t ) hcl - > processor - > active ! = hcl - > _nil ) ;
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HCL_ASSERT ( hcl , HCL_IS_PROCESS ( hcl , hcl - > processor - > active ) ) ;
/* commit the stack pointer to the active process */
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hcl - > processor - > active - > sp = HCL_SMOOI_TO_OOP ( hcl - > sp ) ;
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/* commit the instruction pointer to the active context */
2016-09-28 14:40:37 +00:00
hcl - > active_context - > ip = HCL_SMOOI_TO_OOP ( hcl - > ip ) ;
}
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HCL_LOG4 ( hcl , HCL_LOG_GC | HCL_LOG_INFO ,
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" Starting GC curheap base %p ptr %p newheap base %p ptr %p \n " ,
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hcl - > curheap - > base , hcl - > curheap - > ptr , hcl - > newheap - > base , hcl - > newheap - > ptr ) ;
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/* TODO: allocate common objects like _nil and the root dictionary
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* in the permanant heap . minimize moving around */
old_nil = hcl - > _nil ;
/* move _nil and the root object table */
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hcl - > _undef = hcl_moveoop ( hcl , hcl - > _undef ) ;
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hcl - > _nil = hcl_moveoop ( hcl , hcl - > _nil ) ;
hcl - > _true = hcl_moveoop ( hcl , hcl - > _true ) ;
hcl - > _false = hcl_moveoop ( hcl , hcl - > _false ) ;
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for ( i = 0 ; i < HCL_COUNTOF ( syminfo ) ; i + + )
{
hcl_oop_t tmp ;
tmp = * ( hcl_oop_t * ) ( ( hcl_uint8_t * ) hcl + syminfo [ i ] . offset ) ;
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tmp = hcl_moveoop ( hcl , tmp ) ;
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* ( hcl_oop_t * ) ( ( hcl_uint8_t * ) hcl + syminfo [ i ] . offset ) = tmp ;
}
2018-02-22 07:41:03 +00:00
hcl - > sysdic = ( hcl_oop_dic_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > sysdic ) ;
hcl - > processor = ( hcl_oop_process_scheduler_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > processor ) ;
hcl - > nil_process = ( hcl_oop_process_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > nil_process ) ;
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for ( i = 0 ; i < hcl - > code . lit . len ; i + + )
{
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/* the literal array ia a NGC object. but the literal objects
2018-02-07 07:35:30 +00:00
* pointed by the elements of this array must be gabage - collected . */
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( ( hcl_oop_oop_t ) hcl - > code . lit . arr ) - > slot [ i ] =
2018-02-22 07:41:03 +00:00
hcl_moveoop ( hcl , ( ( hcl_oop_oop_t ) hcl - > code . lit . arr ) - > slot [ i ] ) ;
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}
2020-10-04 18:21:05 +00:00
hcl - > p . e = hcl_moveoop ( hcl , hcl - > p . e ) ;
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for ( i = 0 ; i < hcl - > sem_list_count ; i + + )
{
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hcl - > sem_list [ i ] = ( hcl_oop_semaphore_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > sem_list [ i ] ) ;
2016-09-28 14:40:37 +00:00
}
for ( i = 0 ; i < hcl - > sem_heap_count ; i + + )
{
2018-02-22 07:41:03 +00:00
hcl - > sem_heap [ i ] = ( hcl_oop_semaphore_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > sem_heap [ i ] ) ;
2016-09-28 14:40:37 +00:00
}
2020-10-15 12:57:05 +00:00
for ( i = 0 ; i < hcl - > sem_io_tuple_count ; i + + )
{
if ( hcl - > sem_io_tuple [ i ] . sem [ HCL_SEMAPHORE_IO_TYPE_INPUT ] )
hcl - > sem_io_tuple [ i ] . sem [ HCL_SEMAPHORE_IO_TYPE_INPUT ] = ( hcl_oop_semaphore_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > sem_io_tuple [ i ] . sem [ HCL_SEMAPHORE_IO_TYPE_INPUT ] ) ;
if ( hcl - > sem_io_tuple [ i ] . sem [ HCL_SEMAPHORE_IO_TYPE_OUTPUT ] )
hcl - > sem_io_tuple [ i ] . sem [ HCL_SEMAPHORE_IO_TYPE_OUTPUT ] = ( hcl_oop_semaphore_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > sem_io_tuple [ i ] . sem [ HCL_SEMAPHORE_IO_TYPE_OUTPUT ] ) ;
}
# if defined(ENABLE_GCFIN)
hcl - > sem_gcfin = ( hcl_oop_semaphore_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > sem_gcfin ) ;
# endif
for ( i = 0 ; i < hcl - > proc_map_capa ; i + + )
{
hcl - > proc_map [ i ] = hcl_moveoop ( hcl , hcl - > proc_map [ i ] ) ;
}
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for ( i = 0 ; i < hcl - > volat_count ; i + + )
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{
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* hcl - > volat_stack [ i ] = hcl_moveoop ( hcl , * hcl - > volat_stack [ i ] ) ;
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}
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if ( hcl - > initial_context )
2018-02-22 07:41:03 +00:00
hcl - > initial_context = ( hcl_oop_context_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > initial_context ) ;
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if ( hcl - > active_context )
2018-02-22 07:41:03 +00:00
hcl - > active_context = ( hcl_oop_context_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > active_context ) ;
2020-10-04 18:21:05 +00:00
if ( hcl - > initial_function )
hcl - > initial_function = ( hcl_oop_function_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > initial_function ) ;
2020-10-04 19:07:21 +00:00
if ( hcl - > active_function )
hcl - > active_function = ( hcl_oop_function_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > active_function ) ;
2018-02-22 07:41:03 +00:00
if ( hcl - > last_retv ) hcl - > last_retv = hcl_moveoop ( hcl , hcl - > last_retv ) ;
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for ( cb = hcl - > cblist ; cb ; cb = cb - > next )
{
if ( cb - > gc ) cb - > gc ( hcl ) ;
}
/* scan the new heap to move referenced objects */
ptr = ( hcl_uint8_t * ) HCL_ALIGN ( ( hcl_uintptr_t ) hcl - > newheap - > base , HCL_SIZEOF ( hcl_oop_t ) ) ;
ptr = scan_new_heap ( hcl , ptr ) ;
/* traverse the symbol table for unreferenced symbols.
* if the symbol has not moved to the new heap , the symbol
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* is not referenced by any other objects than the symbol
2016-09-28 14:40:37 +00:00
* table itself */
compact_symbol_table ( hcl , old_nil ) ;
/* move the symbol table itself */
2020-10-04 18:21:05 +00:00
hcl - > symtab = ( hcl_oop_dic_t ) hcl_moveoop ( hcl , ( hcl_oop_t ) hcl - > symtab ) ;
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/* scan the new heap again from the end position of
2023-11-09 15:03:03 +00:00
* the previous scan to move referenced objects by
2016-09-28 14:40:37 +00:00
* the symbol table . */
ptr = scan_new_heap ( hcl , ptr ) ;
/* the contents of the current heap is not needed any more.
* reset the upper bound to the base . don ' t forget to align the heap
* pointer to the OOP size . See hcl_makeheap ( ) also */
hcl - > curheap - > ptr = ( hcl_uint8_t * ) HCL_ALIGN ( ( ( hcl_uintptr_t ) hcl - > curheap - > base ) , HCL_SIZEOF ( hcl_oop_t ) ) ;
/* swap the current heap and old heap */
tmp = hcl - > curheap ;
hcl - > curheap = hcl - > newheap ;
hcl - > newheap = tmp ;
/*
2016-10-04 17:56:28 +00:00
if ( hcl - > symtab & & HCL_LOG_ENABLED ( hcl , HCL_LOG_GC | HCL_LOG_DEBUG ) )
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{
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hcl_oow_t index ;
hcl_oop_oop_t buc ;
HCL_LOG0 ( hcl , HCL_LOG_GC | HCL_LOG_DEBUG , " --------- SURVIVING SYMBOLS IN GC ---------- \n " ) ;
buc = ( hcl_oop_oop_t ) hcl - > symtab - > bucket ;
for ( index = 0 ; index < HCL_OBJ_GET_SIZE ( buc ) ; index + + )
{
2023-11-09 15:03:03 +00:00
if ( ( hcl_oop_t ) buc - > slot [ index ] ! = hcl - > _nil )
2016-10-04 17:56:28 +00:00
{
HCL_LOG1 ( hcl , HCL_LOG_GC | HCL_LOG_DEBUG , " \t %O \n " , buc - > slot [ index ] ) ;
}
}
HCL_LOG0 ( hcl , HCL_LOG_GC | HCL_LOG_DEBUG , " -------------------------------------------- \n " ) ;
2016-09-28 14:40:37 +00:00
}
*/
2016-10-04 17:56:28 +00:00
2020-10-04 18:21:05 +00:00
if ( hcl - > active_function ) hcl - > active_code = HCL_FUNCTION_GET_CODE_BYTE ( hcl - > active_function ) ; /* update hcl->active_code */
2016-10-04 17:56:28 +00:00
/* TODO: include some gc statstics like number of live objects, gc performance, etc */
2023-11-09 15:03:03 +00:00
HCL_LOG4 ( hcl , HCL_LOG_GC | HCL_LOG_INFO ,
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" Finished GC curheap base %p ptr %p newheap base %p ptr %p \n " ,
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hcl - > curheap - > base , hcl - > curheap - > ptr , hcl - > newheap - > base , hcl - > newheap - > ptr ) ;
2016-09-28 14:40:37 +00:00
}
2020-12-31 17:48:47 +00:00
# endif
2016-09-28 14:40:37 +00:00
2020-12-31 17:48:47 +00:00
void hcl_pushvolat ( hcl_t * hcl , hcl_oop_t * oop_ptr )
2016-09-28 14:40:37 +00:00
{
/* if you have too many temporaries pushed, something must be wrong.
* change your code not to exceede the stack limit */
2020-12-31 17:48:47 +00:00
HCL_ASSERT ( hcl , hcl - > volat_count < HCL_COUNTOF ( hcl - > volat_stack ) ) ;
hcl - > volat_stack [ hcl - > volat_count + + ] = oop_ptr ;
2016-09-28 14:40:37 +00:00
}
2020-12-31 17:48:47 +00:00
void hcl_popvolat ( hcl_t * hcl )
2016-09-28 14:40:37 +00:00
{
2020-12-31 17:48:47 +00:00
HCL_ASSERT ( hcl , hcl - > volat_count > 0 ) ;
hcl - > volat_count - - ;
2016-09-28 14:40:37 +00:00
}
2020-12-31 17:48:47 +00:00
void hcl_popvolats ( hcl_t * hcl , hcl_oow_t count )
2016-09-28 14:40:37 +00:00
{
2020-12-31 17:48:47 +00:00
HCL_ASSERT ( hcl , hcl - > volat_count > = count ) ;
hcl - > volat_count - = count ;
2016-09-28 14:40:37 +00:00
}
hcl_oop_t hcl_shallowcopy ( hcl_t * hcl , hcl_oop_t oop )
{
if ( HCL_OOP_IS_POINTER ( oop ) & & HCL_OBJ_GET_FLAGS_BRAND ( oop ) ! = HCL_BRAND_SYMBOL )
{
hcl_oop_t z ;
hcl_oow_t total_bytes ;
2020-12-31 17:48:47 +00:00
total_bytes = HCL_SIZEOF ( hcl_obj_t ) + hcl_getobjpayloadbytes ( hcl , oop ) ;
2016-09-28 14:40:37 +00:00
2020-12-31 17:48:47 +00:00
hcl_pushvolat ( hcl , & oop ) ;
2023-12-22 02:53:29 +00:00
z = ( hcl_oop_t ) hcl_allocbytes ( hcl , total_bytes ) ;
2020-12-31 17:48:47 +00:00
hcl_popvolat ( hcl ) ;
2016-09-28 14:40:37 +00:00
HCL_MEMCPY ( z , oop , total_bytes ) ;
return z ;
}
return oop ;
}
/* ========================================================================= */
2024-02-26 04:34:09 +00:00
static struct
{
const char * name ;
2024-03-02 05:59:27 +00:00
hcl_oow_t c_offset ; /* class offset */
hcl_oow_t sc_offset ; /* superclass offset */
hcl_oow_t nivars ;
hcl_oow_t ncvars ;
} kctab [ ] = {
{ " Apex " ,
HCL_OFFSETOF ( hcl_t , class_apex ) ,
HCL_TYPE_MAX ( hcl_oow_t ) ,
0 , 0 } ,
{ " Object " ,
HCL_OFFSETOF ( hcl_t , class_object ) ,
HCL_OFFSETOF ( hcl_t , class_apex ) ,
0 , 0 } ,
{ " UndefinedObject " ,
HCL_OFFSETOF ( hcl_t , class_undefobj ) ,
HCL_OFFSETOF ( hcl_t , class_apex ) ,
0 , 0 } ,
{ " Class " ,
HCL_OFFSETOF ( hcl_t , class_class ) ,
HCL_OFFSETOF ( hcl_t , class_object ) ,
HCL_CLASS_NAMED_INSTVARS , 0 } ,
{ " String " ,
HCL_OFFSETOF ( hcl_t , class_string ) ,
HCL_OFFSETOF ( hcl_t , class_object ) ,
0 , 0 } ,
{ " Symbol " ,
HCL_OFFSETOF ( hcl_t , class_symbol ) ,
HCL_OFFSETOF ( hcl_t , class_string ) ,
0 , 0 } ,
{ " Boolean " ,
HCL_OFFSETOF ( hcl_t , class_boolean ) ,
HCL_OFFSETOF ( hcl_t , class_object ) ,
0 , 0 } ,
{ " True " ,
HCL_OFFSETOF ( hcl_t , class_true ) ,
HCL_OFFSETOF ( hcl_t , class_boolean ) ,
0 , 0 } ,
{ " False " ,
HCL_OFFSETOF ( hcl_t , class_false ) ,
HCL_OFFSETOF ( hcl_t , class_boolean ) ,
0 , 0 } ,
{ " System " ,
HCL_OFFSETOF ( hcl_t , class_system ) ,
HCL_OFFSETOF ( hcl_t , class_object ) ,
0 , 0 } ,
2024-02-26 04:34:09 +00:00
} ;
2024-03-02 05:59:27 +00:00
#if 0
/*
* Apex . . . . . . . . . . . . . . . . . . . . . .
* ^ ^ ^ : . . . . . . .
* | | | v v :
* | | + - - - - - - - - - - - - - - - - - - - Class . . . . .
* | | ^ ^
* | + - - - - - - - - NilObject . . . . . . : :
* | ^ . . . . . . . . nil :
* Object . . . . . . . . . . . . . . . . . . . . . . . . . . . :
* ^
* |
*
* The class hierarchy is roughly as follows :
*
* Apex
* Class
* NilObject
* Object
* Collection
* IndexedCollection
* FixedSizedCollection
* Array
* ByteArray
* String
* Symbol
* Set
* Dictionary
* SystemDictionary
* SymbolSet
* Magnitude
* Association
* Character
* Number
* Integer
* SmallInteger
* LargeInteger
* LargePositiveInteger
* LargeNegativeInteger
*
* Apex has no instance variables .
*
*/
struct kernel_class_info_t
{
const hcl_bch_t * name ;
int class_flags ;
int class_num_classvars ;
int class_spec_named_instvars ;
int class_spec_flags ;
int class_spec_indexed_type ;
hcl_oow_t offset ;
} ;
typedef struct kernel_class_info_t kernel_class_info_t ;
static kernel_class_info_t kernel_classes [ ] =
{
/* --------------------------------------------------------------
* Apex - proto - object with 1 class variable .
* UndefinedObject - class for the nil object .
* Object - top of all ordinary objects .
* String
* Symbol
* Array
* ByteArray
* SymbolSet
* Character
* SmallIntger
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
{ " Apex " ,
0 ,
0 ,
0 ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _apex ) } ,
{ " UndefinedObject " ,
0 ,
0 ,
0 ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _undefined_object ) } ,
# define KCI_CLASS 2 /* index to the Class entry in this table */
{ " Class " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
HCL_CLASS_NAMED_INSTVARS ,
HCL_CLASS_SPEC_FLAG_INDEXED | HCL_CLASS_SPEC_FLAG_UNCOPYABLE ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _class ) } ,
{ " Interface " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
HCL_INTERFACE_NAMED_INSTVARS ,
HCL_CLASS_SPEC_FLAG_INDEXED | HCL_CLASS_SPEC_FLAG_UNCOPYABLE ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _interface ) } ,
{ " Object " ,
0 ,
0 ,
0 ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _object ) } ,
{ " String " ,
0 ,
0 ,
0 ,
HCL_CLASS_SPEC_FLAG_INDEXED ,
HCL_OBJ_TYPE_CHAR ,
HCL_OFFSETOF ( hcl_t , _string ) } ,
{ " Symbol " ,
HCL_CLASS_SELFSPEC_FLAG_FINAL | HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
0 ,
HCL_CLASS_SPEC_FLAG_INDEXED | HCL_CLASS_SPEC_FLAG_IMMUTABLE ,
HCL_OBJ_TYPE_CHAR ,
HCL_OFFSETOF ( hcl_t , _symbol ) } ,
{ " Array " ,
0 ,
0 ,
0 ,
HCL_CLASS_SPEC_FLAG_INDEXED ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _array ) } ,
{ " ByteArray " ,
0 ,
0 ,
0 ,
HCL_CLASS_SPEC_FLAG_INDEXED ,
HCL_OBJ_TYPE_BYTE ,
HCL_OFFSETOF ( hcl_t , _byte_array ) } ,
{ " SymbolTable " ,
0 ,
0 ,
HCL_DIC_NAMED_INSTVARS ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _symbol_table ) } ,
{ " Dictionary " ,
0 ,
0 ,
HCL_DIC_NAMED_INSTVARS ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _dictionary ) } ,
{ " Association " ,
0 ,
0 ,
HCL_ASSOCIATION_NAMED_INSTVARS ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _association ) } ,
{ " Namespace " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
HCL_NSDIC_NAMED_INSTVARS ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _namespace ) } ,
{ " PoolDictionary " ,
0 ,
0 ,
HCL_DIC_NAMED_INSTVARS ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _pool_dictionary ) } ,
{ " MethodDictionary " ,
0 ,
0 ,
HCL_DIC_NAMED_INSTVARS ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _method_dictionary ) } ,
{ " CompiledMethod " ,
0 ,
0 ,
HCL_METHOD_NAMED_INSTVARS ,
HCL_CLASS_SPEC_FLAG_INDEXED ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _method ) } ,
{ " MethodSignature " ,
0 ,
0 ,
HCL_METHSIG_NAMED_INSTVARS ,
HCL_CLASS_SPEC_FLAG_INDEXED ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _methsig ) } ,
{ " CompiledBlock " ,
0 ,
0 ,
HCL_BLOCK_NAMED_INSTVARS ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _block ) } ,
{ " MethodContext " ,
HCL_CLASS_SELFSPEC_FLAG_FINAL | HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
HCL_CONTEXT_NAMED_INSTVARS ,
HCL_CLASS_SPEC_FLAG_INDEXED ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _method_context ) } ,
{ " BlockContext "
HCL_CLASS_SELFSPEC_FLAG_FINAL | HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
HCL_CONTEXT_NAMED_INSTVARS ,
HCL_CLASS_SPEC_FLAG_INDEXED ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _block_context ) } ,
{ " Process " ,
HCL_CLASS_SELFSPEC_FLAG_FINAL | HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
HCL_PROCESS_NAMED_INSTVARS ,
HCL_CLASS_SPEC_FLAG_INDEXED | HCL_CLASS_SPEC_FLAG_UNCOPYABLE ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _process ) } ,
{ " Semaphore " ,
0 ,
0 ,
HCL_SEMAPHORE_NAMED_INSTVARS ,
HCL_CLASS_SPEC_FLAG_UNCOPYABLE ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _semaphore ) } ,
{ " SemaphoreGroup " ,
0 ,
0 ,
HCL_SEMAPHORE_GROUP_NAMED_INSTVARS ,
HCL_CLASS_SPEC_FLAG_UNCOPYABLE ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _semaphore_group ) } ,
{ " ProcessScheduler " .
HCL_CLASS_SELFSPEC_FLAG_FINAL | HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
HCL_PROCESS_SCHEDULER_NAMED_INSTVARS ,
HCL_CLASS_SPEC_FLAG_UNCOPYABLE ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _process_scheduler ) } ,
{ " Error " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
0 ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _error_class ) } ,
{ " True " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED | HCL_CLASS_SELFSPEC_FLAG_FINAL ,
0 ,
0 ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _true_class ) } ,
{ " False " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED | HCL_CLASS_SELFSPEC_FLAG_FINAL ,
0 ,
0 ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _false_class ) } ,
/* TOOD: what is a proper spec for Character and SmallInteger?
* If the fixed part is 0 , its instance must be an object of 0 payload fields .
* Does this make sense ? */
{ " Character " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
0 ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _character ) } ,
{ " SmallInteger " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
0 ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _small_integer ) } ,
{ " LargePositiveInteger " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
0 ,
HCL_CLASS_SPEC_FLAG_INDEXED | HCL_CLASS_SPEC_FLAG_IMMUTABLE ,
HCL_OBJ_TYPE_LIWORD ,
HCL_OFFSETOF ( hcl_t , _large_positive_integer ) } ,
{ " LargeNegativeInteger " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
0 ,
HCL_CLASS_SPEC_FLAG_INDEXED | HCL_CLASS_SPEC_FLAG_IMMUTABLE ,
HCL_OBJ_TYPE_LIWORD ,
HCL_OFFSETOF ( hcl_t , _large_negative_integer ) } ,
{ " FixedPointDecimal " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
HCL_FPDEC_NAMED_INSTVARS ,
HCL_CLASS_SPEC_FLAG_IMMUTABLE ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _fixed_point_decimal ) } ,
{ " SmallPointer " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
0 ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _small_pointer ) } ,
{ " LargePointer " ,
HCL_CLASS_SELFSPEC_FLAG_LIMITED ,
0 ,
1 , /* #word(1) */
HCL_CLASS_SPEC_FLAG_IMMUTABLE | HCL_CLASS_SPEC_FLAG_INDEXED ,
HCL_OBJ_TYPE_WORD ,
HCL_OFFSETOF ( hcl_t , _large_pointer ) } ,
{ " System " ,
0 ,
5 , /* asyncsg, gcfin_sem, gcfin_should_exit, ossig_pid, shr */
0 ,
0 ,
HCL_OBJ_TYPE_OOP ,
HCL_OFFSETOF ( hcl_t , _system ) }
} ;
static hcl_oow_t move_finalizable_objects ( hcl_t * hcl ) ;
/* -----------------------------------------------------------------------
* BOOTSTRAPPER
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
static hcl_oop_class_t alloc_kernel_class ( hcl_t * hcl , int class_flags , hcl_oow_t num_classvars , hcl_oow_t spec )
{
hcl_oop_class_t c ;
hcl_ooi_t cspec ;
c = ( hcl_oop_class_t ) hcl_allocoopobj ( hcl , HCL_CLASS_NAMED_INSTVARS + num_classvars ) ;
if ( ! c ) return HCL_NULL ;
HCL_OBJ_SET_FLAGS_KERNEL ( c , HCL_OBJ_FLAGS_KERNEL_IMMATURE ) ;
cspec = kernel_classes [ KCI_CLASS ] . class_spec_flags ;
if ( HCL_CLASS_SPEC_IS_IMMUTABLE ( cspec ) ) HCL_OBJ_SET_FLAGS_RDONLY ( c , 1 ) ; /* just for completeness of code. will never be true as it's not defined in the kernel class info table */
if ( HCL_CLASS_SPEC_IS_UNCOPYABLE ( cspec ) ) HCL_OBJ_SET_FLAGS_UNCOPYABLE ( c , 1 ) ; /* class itself is uncopyable */
HCL_OBJ_SET_CLASS ( c , ( hcl_oop_t ) hcl - > _class ) ;
c - > spec = HCL_SHCLI_TO_OOP ( spec ) ;
c - > selfspec = HCL_SHCLI_TO_OOP ( HCL_CLASS_SELFSPEC_MAKE ( num_classvars , 0 , class_flags ) ) ;
return c ;
}
static int ignite_1 ( hcl_t * hcl )
{
hcl_oow_t i ;
/*
* Create fundamental class objects with some fields mis - initialized yet .
* Such fields include ' superclass ' , ' subclasses ' , ' name ' , etc .
*/
HCL_ASSERT ( hcl , hcl - > _nil ! = HCL_NULL ) ;
HCL_ASSERT ( hcl , HCL_OBJ_GET_CLASS ( hcl - > _nil ) = = HCL_NULL ) ;
HCL_ASSERT ( hcl , hcl - > _class = = HCL_NULL ) ;
/* --------------------------------------------------------------
* Class
* The instance of Class can have indexed instance variables
* which are actually class variables .
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
hcl - > _class = alloc_kernel_class (
hcl , kernel_classes [ KCI_CLASS ] . class_flags ,
kernel_classes [ KCI_CLASS ] . class_num_classvars ,
HCL_CLASS_SPEC_MAKE ( kernel_classes [ KCI_CLASS ] . class_spec_named_instvars ,
kernel_classes [ KCI_CLASS ] . class_spec_flags ,
kernel_classes [ KCI_CLASS ] . class_spec_indexed_type ) ) ;
if ( ! hcl - > _class ) return - 1 ;
HCL_ASSERT ( hcl , HCL_OBJ_GET_CLASS ( hcl - > _class ) = = HCL_NULL ) ;
HCL_OBJ_SET_CLASS ( hcl - > _class , ( hcl_oop_t ) hcl - > _class ) ;
for ( i = 0 ; i < HCL_COUNTOF ( kernel_classes ) ; i + + )
{
hcl_oop_class_t tmp ;
if ( i = = KCI_CLASS ) continue ; /* skip Class as it's created above */
tmp = alloc_kernel_class (
hcl , kernel_classes [ i ] . class_flags ,
kernel_classes [ i ] . class_num_classvars ,
HCL_CLASS_SPEC_MAKE ( kernel_classes [ i ] . class_spec_named_instvars ,
kernel_classes [ i ] . class_spec_flags ,
kernel_classes [ i ] . class_spec_indexed_type ) ) ;
if ( ! tmp ) return - 1 ;
* ( hcl_oop_class_t * ) ( ( hcl_uint8_t * ) hcl + kernel_classes [ i ] . offset ) = tmp ;
}
HCL_OBJ_SET_CLASS ( hcl - > _nil , ( hcl_oop_t ) hcl - > _undefined_object ) ;
/* an instance of a method class stores byte codes in the trailer space.
* unlike other classes with trailer size set , the size of the trailer
* space is not really determined by the traailer size set in the class .
* the compiler determines the actual size of the trailer space depending
* on the byte codes generated . i should set the following fields to avoid
* confusion at the GC phase . */
hcl - > _method - > trsize = HCL_SHCLI_TO_OOP ( 0 ) ;
hcl - > _method - > trgc = HCL_SMPTR_TO_OOP ( 0 ) ;
return 0 ;
}
static int ignite_2 ( hcl_t * hcl )
{
hcl_oop_t tmp ;
int old_igniting = hcl - > igniting ;
/* Create 'true' and 'false objects */
hcl - > _true = hcl_instantiate ( hcl , hcl - > _true_class , HCL_NULL , 0 ) ;
hcl - > _false = hcl_instantiate ( hcl , hcl - > _false_class , HCL_NULL , 0 ) ;
if ( HCL_UNLIKELY ( ! hcl - > _true ) | | HCL_UNLIKELY ( ! hcl - > _false ) ) return - 1 ;
/* Prevent the object instations in the permspace.
*
* 1. The symbol table is big and it may resize after ignition .
* the resizing operation will migrate the obejct out of the
* permspace . The space taken by the symbol table and the
* system dictionary is wasted . I ' d rather allocate these
* in the normal space .
*
* 2. For compact_symbol_table ( ) to work properly , hcl_gc ( ) must not
* scan the symbol table before it executes compact_symbol_table ( ) .
* since hcl_gc ( ) scans the entire perspace , it naturally gets to
* hcl - > symtab , which causes problems in compact_symbol_table ( ) .
* I may reserve a special space for only the symbol table
* to overcome this issue .
*
* For now , let ' s just allocate the symbol table and the system dictionary
* in the normal space */
hcl - > igniting = 0 ;
/* Create the symbol table */
tmp = hcl_instantiate ( hcl , hcl - > _symbol_table , HCL_NULL , 0 ) ;
if ( HCL_UNLIKELY ( ! tmp ) ) return - 1 ;
hcl - > symtab = ( hcl_oop_dic_t ) tmp ;
hcl - > symtab - > tally = HCL_SHCLI_TO_OOP ( 0 ) ;
/* It's important to assign the result of hcl_instantiate() to a temporary
* variable first and then assign it to hcl - > symtab - > bucket .
* The pointer ' hcl - > symtab ; can change in hcl_instantiate ( ) and the
* target address of assignment may get set before hcl_instantiate ( )
* is called . */
tmp = hcl_instantiate ( hcl , hcl - > _array , HCL_NULL , hcl - > option . dfl_symtab_size ) ;
if ( ! tmp ) return - 1 ;
hcl - > symtab - > bucket = ( hcl_oop_oop_t ) tmp ;
/* Create the system dictionary */
tmp = ( hcl_oop_t ) hcl_makensdic ( hcl , hcl - > _namespace , hcl - > option . dfl_sysdic_size ) ;
if ( ! tmp ) return - 1 ;
hcl - > sysdic = ( hcl_oop_nsdic_t ) tmp ;
hcl - > igniting = old_igniting ; /* back to the permspace */
/* Create a nil process used to simplify nil check in GC.
* only accessible by VM . not exported via the global dictionary . */
tmp = ( hcl_oop_t ) hcl_instantiate ( hcl , hcl - > _process , HCL_NULL , 0 ) ;
if ( ! tmp ) return - 1 ;
hcl - > nil_process = ( hcl_oop_process_t ) tmp ;
hcl - > nil_process - > sp = HCL_SHCLI_TO_OOP ( - 1 ) ;
hcl - > nil_process - > id = HCL_SHCLI_TO_OOP ( - 1 ) ;
hcl - > nil_process - > perr = HCL_ERROR_TO_OOP ( HCL_ENOERR ) ;
hcl - > nil_process - > perrmsg = hcl - > _nil ;
/* Create a process scheduler */
tmp = ( hcl_oop_t ) hcl_instantiate ( hcl , hcl - > _process_scheduler , HCL_NULL , 0 ) ;
if ( ! tmp ) return - 1 ;
hcl - > processor = ( hcl_oop_process_scheduler_t ) tmp ;
hcl - > processor - > active = hcl - > nil_process ;
hcl - > processor - > total_count = HCL_SHCLI_TO_OOP ( 0 ) ;
hcl - > processor - > runnable . count = HCL_SHCLI_TO_OOP ( 0 ) ;
hcl - > processor - > suspended . count = HCL_SHCLI_TO_OOP ( 0 ) ;
return 0 ;
}
static int ignite_3 ( hcl_t * hcl )
{
/* Register kernel classes manually created so far to the system dictionary */
static hcl_ooch_t str_processor [ ] = { ' P ' , ' r ' , ' o ' , ' c ' , ' e ' , ' s ' , ' s ' , ' o ' , ' r ' } ;
static hcl_ooch_t str_dicnew [ ] = { ' n ' , ' e ' , ' w ' , ' : ' } ;
static hcl_ooch_t str_dicputassoc [ ] = { ' _ ' , ' _ ' , ' p ' , ' u ' , ' t ' , ' _ ' , ' a ' , ' s ' , ' s ' , ' o ' , ' c ' , ' : ' } ;
static hcl_ooch_t str_does_not_understand [ ] = { ' d ' , ' o ' , ' e ' , ' s ' , ' N ' , ' o ' , ' t ' , ' U ' , ' n ' , ' d ' , ' e ' , ' r ' , ' s ' , ' t ' , ' a ' , ' n ' , ' d ' , ' : ' } ;
static hcl_ooch_t str_primitive_failed [ ] = { ' p ' , ' r ' , ' i ' , ' m ' , ' i ' , ' t ' , ' i ' , ' v ' , ' e ' , ' F ' , ' a ' , ' i ' , ' l ' , ' e ' , ' d ' } ;
static hcl_ooch_t str_unwindto_return [ ] = { ' u ' , ' n ' , ' w ' , ' i ' , ' n ' , ' d ' , ' T ' , ' o ' , ' : ' , ' r ' , ' e ' , ' t ' , ' u ' , ' r ' , ' n ' , ' : ' } ;
hcl_oow_t i ;
hcl_oop_t sym ;
hcl_oop_class_t cls ;
for ( i = 0 ; i < HCL_COUNTOF ( kernel_classes ) ; i + + )
{
sym = hcl_makesymbol ( hcl , kernel_classes [ i ] . name , kernel_classes [ i ] . len ) ;
if ( ! sym ) return - 1 ;
cls = * ( hcl_oop_class_t * ) ( ( hcl_uint8_t * ) hcl + kernel_classes [ i ] . offset ) ;
HCL_STORE_OOP ( hcl , ( hcl_oop_t * ) & cls - > name , sym ) ;
HCL_STORE_OOP ( hcl , ( hcl_oop_t * ) & cls - > nsup , ( hcl_oop_t ) hcl - > sysdic ) ;
if ( ! hcl_putatsysdic ( hcl , sym , ( hcl_oop_t ) cls ) ) return - 1 ;
}
/* Attach the system dictionary to the nsdic field of the System class */
HCL_STORE_OOP ( hcl , ( hcl_oop_t * ) & hcl - > _system - > nsdic , ( hcl_oop_t ) hcl - > sysdic ) ;
/* Set the name field of the system dictionary */
HCL_STORE_OOP ( hcl , ( hcl_oop_t * ) & hcl - > sysdic - > name , ( hcl_oop_t ) hcl - > _system - > name ) ;
/* Set the owning class field of the system dictionary, it's circular here */
HCL_STORE_OOP ( hcl , ( hcl_oop_t * ) & hcl - > sysdic - > nsup , ( hcl_oop_t ) hcl - > _system ) ;
/* Make the process scheduler avaialble as the global name 'Processor' */
sym = hcl_makesymbol ( hcl , str_processor , HCL_COUNTOF ( str_processor ) ) ;
if ( ! sym ) return - 1 ;
if ( ! hcl_putatsysdic ( hcl , sym , ( hcl_oop_t ) hcl - > processor ) ) return - 1 ;
sym = hcl_makesymbol ( hcl , str_dicnew , HCL_COUNTOF ( str_dicnew ) ) ;
if ( ! sym ) return - 1 ;
hcl - > dicnewsym = ( hcl_oop_char_t ) sym ;
sym = hcl_makesymbol ( hcl , str_dicputassoc , HCL_COUNTOF ( str_dicputassoc ) ) ;
if ( ! sym ) return - 1 ;
hcl - > dicputassocsym = ( hcl_oop_char_t ) sym ;
sym = hcl_makesymbol ( hcl , str_does_not_understand , HCL_COUNTOF ( str_does_not_understand ) ) ;
if ( ! sym ) return - 1 ;
hcl - > does_not_understand_sym = ( hcl_oop_char_t ) sym ;
sym = hcl_makesymbol ( hcl , str_primitive_failed , HCL_COUNTOF ( str_primitive_failed ) ) ;
if ( ! sym ) return - 1 ;
hcl - > primitive_failed_sym = ( hcl_oop_char_t ) sym ;
sym = hcl_makesymbol ( hcl , str_unwindto_return , HCL_COUNTOF ( str_unwindto_return ) ) ;
if ( ! sym ) return - 1 ;
hcl - > unwindto_return_sym = ( hcl_oop_char_t ) sym ;
return 0 ;
}
struct hcl_class_t
{
HCL_OBJ_HEADER ;
hcl_oop_t mdic ; /* method dictionary. nil or a dictionary object */
hcl_oop_t superclass ;
hcl_oop_t nivars ; /* smooi. */
hcl_oop_t ncvars ; /* smooi. */
hcl_oop_t nivars_super ; /* smooi */
hcl_oop_char_t ivarnames ;
hcl_oop_char_t cvarnames ;
/* indexed part afterwards - not included in HCL_CLASS_NAMED_INSTVARS */
hcl_oop_t cvar [ 1 ] ; /* class variables. */
} ;
# endif
static int make_kernel_classes ( hcl_t * hcl )
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{
hcl_oop_class_t c ;
hcl_oow_t i ;
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/* make_kernel_classes() creates a chain of classes for initial bootstrapping.
* when the objects are loaded from an image file , this function is skipped */
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#if 0
/* create class objects */
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for ( i = 0 ; i < HCL_COUNTOF ( kctab ) ; i + + )
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{
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if ( kctab [ i ] . c_offset > = HCL_SIZEOF ( * hcl ) ) continue ;
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c = ( hcl_oop_class_t ) hcl_makeclass ( hcl , hcl - > _nil , nivars , ncvars , " ivars_str " , " cvars_str " ) ;
if ( HCL_UNLIKELY ( ! c ) ) return - 1 ;
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* ( hcl_oop_class_t * ) ( ( hcl_uint8_t * ) hcl + kctab [ i ] . c_offset ) = c ;
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}
/* update the superclass field */
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for ( i = 0 ; i < HCL_COUNTOF ( kctab ) ; i + + )
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{
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if ( kctab [ i ] . sc_offset > = HCL_SIZEOF ( * hcl ) ) continue ;
c = * ( hcl_oop_class_t * ) ( ( hcl_uint8_t * ) hcl + kctab [ i ] . c_offset ) ;
c - > superclass = * ( hcl_oop_t * ) ( ( hcl_uint8_t * ) hcl + kctab [ i ] . sc_offset ) ;
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}
# endif
return 0 ;
}
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int hcl_ignite ( hcl_t * hcl , hcl_oow_t heapsize )
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{
hcl_oow_t i ;
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if ( ! hcl - > heap )
{
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hcl - > heap = hcl_makeheap ( hcl , heapsize ) ;
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if ( HCL_UNLIKELY ( ! hcl - > heap ) ) return - 1 ;
}
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if ( ! hcl - > _undef )
{
hcl - > _undef = hcl_makeundef ( hcl ) ;
if ( HCL_UNLIKELY ( ! hcl - > _undef ) ) return - 1 ;
}
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if ( ! hcl - > _nil )
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{
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hcl - > _nil = hcl_makenil ( hcl ) ;
if ( HCL_UNLIKELY ( ! hcl - > _nil ) ) return - 1 ;
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}
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if ( ! hcl - > _true )
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{
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hcl - > _true = hcl_maketrue ( hcl ) ;
if ( HCL_UNLIKELY ( ! hcl - > _true ) ) return - 1 ;
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}
if ( ! hcl - > _false )
{
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hcl - > _false = hcl_makefalse ( hcl ) ;
if ( HCL_UNLIKELY ( ! hcl - > _false ) ) return - 1 ;
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}
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if ( ! hcl - > symtab )
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{
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hcl - > symtab = ( hcl_oop_dic_t ) hcl_makedic ( hcl , hcl - > option . dfl_symtab_size ) ;
if ( HCL_UNLIKELY ( ! hcl - > symtab ) ) return - 1 ;
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}
if ( ! hcl - > sysdic )
{
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hcl - > sysdic = ( hcl_oop_dic_t ) hcl_makedic ( hcl , hcl - > option . dfl_sysdic_size ) ;
if ( HCL_UNLIKELY ( ! hcl - > sysdic ) ) return - 1 ;
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}
/* symbol table available now. symbols can be created */
for ( i = 0 ; i < HCL_COUNTOF ( syminfo ) ; i + + )
{
hcl_oop_t tmp ;
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tmp = hcl_makesymbol ( hcl , syminfo [ i ] . ptr , syminfo [ i ] . len ) ;
if ( HCL_UNLIKELY ( ! tmp ) ) return - 1 ;
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HCL_OBJ_SET_FLAGS_SYNCODE ( tmp , syminfo [ i ] . syncode ) ;
* ( hcl_oop_t * ) ( ( hcl_uint8_t * ) hcl + syminfo [ i ] . offset ) = tmp ;
}
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if ( ! hcl - > nil_process )
{
/* Create a nil process used to simplify nil check in GC.
* only accessible by VM . not exported via the global dictionary . */
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hcl - > nil_process = ( hcl_oop_process_t ) hcl_allocoopobj ( hcl , HCL_BRAND_PROCESS , HCL_PROCESS_NAMED_INSTVARS ) ;
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if ( HCL_UNLIKELY ( ! hcl - > nil_process ) ) return - 1 ;
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/* unusable stack */
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hcl - > nil_process - > sp = HCL_SMOOI_TO_OOP ( - 1 ) ;
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hcl - > nil_process - > st = HCL_SMOOI_TO_OOP ( - 1 ) ;
/* unusable exception stack */
hcl - > nil_process - > exsp = HCL_SMOOI_TO_OOP ( - 1 ) ;
hcl - > nil_process - > exst = HCL_SMOOI_TO_OOP ( - 1 ) ;
/* unusable class stack */
hcl - > nil_process - > clsp = HCL_SMOOI_TO_OOP ( - 1 ) ;
hcl - > nil_process - > clst = HCL_SMOOI_TO_OOP ( - 1 ) ;
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}
if ( ! hcl - > processor )
{
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hcl - > processor = ( hcl_oop_process_scheduler_t ) hcl_allocoopobj ( hcl , HCL_BRAND_PROCESS_SCHEDULER , HCL_PROCESS_SCHEDULER_NAMED_INSTVARS ) ;
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if ( HCL_UNLIKELY ( ! hcl - > processor ) ) return - 1 ;
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hcl - > processor - > active = hcl - > nil_process ;
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hcl - > processor - > total_count = HCL_SMOOI_TO_OOP ( 0 ) ;
hcl - > processor - > runnable . count = HCL_SMOOI_TO_OOP ( 0 ) ;
hcl - > processor - > suspended . count = HCL_SMOOI_TO_OOP ( 0 ) ;
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/* commit the sp field of the initial active context to hcl->sp */
hcl - > sp = HCL_OOP_TO_SMOOI ( hcl - > processor - > active - > sp ) ;
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}
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if ( make_kernel_classes ( hcl ) < = - 1 ) return - 1 ;
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/* TODO: move this initialization to hcl_init? */
if ( hcl_brewcode ( hcl , & hcl - > code ) < = - 1 ) return - 1 ;
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hcl - > p . e = hcl - > _nil ;
return 0 ;
}
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int hcl_getsyncodebyoocs_noseterr ( hcl_t * hcl , const hcl_oocs_t * name )
{
hcl_oow_t i ;
for ( i = 0 ; i < HCL_COUNTOF ( syminfo ) ; i + + )
{
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if ( hcl_comp_oochars ( syminfo [ i ] . ptr , syminfo [ i ] . len , name - > ptr , name - > len ) = = 0 )
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return syminfo [ i ] . syncode ;
}
return 0 ; /* 0 indicates no syntax code found */
}
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int hcl_getsyncode_noseterr ( hcl_t * hcl , const hcl_ooch_t * ptr , const hcl_oow_t len )
{
hcl_oow_t i ;
for ( i = 0 ; i < HCL_COUNTOF ( syminfo ) ; i + + )
{
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if ( hcl_comp_oochars ( syminfo [ i ] . ptr , syminfo [ i ] . len , ptr , len ) = = 0 )
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return syminfo [ i ] . syncode ;
}
return 0 ; /* 0 indicates no syntax code found */
}
const hcl_ooch_t * hcl_getsyncodename_noseterr ( hcl_t * hcl , hcl_syncode_t syncode )
{
hcl_oow_t i ;
for ( i = 0 ; i < HCL_COUNTOF ( syminfo ) ; i + + )
{
if ( syncode = = syminfo [ i ] . syncode ) return syminfo [ i ] . ptr ;
}
return HCL_NULL ;
}