config1.cdb

用于DSP中的图像矫正.原理是伽马矫正.可以参照灰度与伽马值的对应表

		_cinitString,	_cinitSeg,	_midPlace, \
		_pinitString,	_pinitSeg,	_midPlace, \
		_dataString,	_dataSeg,	_midPlace, \
		_constString,	_constSeg,	_midPlace, \
		_switchString,	_switchSeg,	_midPlace, \
		_cioString,	_cioSeg,	_midPlace, \
		_textString,	_textSeg,	_midPlace, \
		_frtString,	_frtSeg,	_midPlace, \
		_biosString,	_biosSeg,	_midPlace, \
		_biosNORPTBString, _biosNORPTBSeg, _midPlace, \
		_stackString,	_stackSeg,	_midPlace"} else {if (self.REUSE == 0 && self.USERCMD == 1) {"10\0,	_argsString,	_argsSeg,	_midPlace, \
		_sysdataString,	_sysdataSeg,	_thirdPlace, \
		_trcinitString,	_trcinitSeg,	_midPlace, \
		_gblinitString,	_gblinitSeg,	_midPlace, \
		_memObjString,	_memObjSeg,	_midPlace, \
		_sysinitString,	_initSeg,	_sysinitPlace, \
		_sysregsString,	_regsSeg,	_midPlace, \
		_biosString,	_biosSeg,	_midPlace, \
		_biosNORPTBString, _biosNORPTBSeg, _midPlace, \
		_stackString,	_stackSeg,	_midPlace"} else {if (self.REUSE == 1 && self.USERCMD == 0) {"19\0,	_argsString,	_argsSeg,	_midPlace, \
		_sysdataString,	_sysdataSeg,	_thirdPlace, \
		_trcinitString,	_trcinitSeg,	_midPlace, \
		_gblinitString,	_gblinitSeg,	_midPlace, \
		_memObjString,	_memObjSeg,	_midPlace, \
		_sysregsString,	_regsSeg,	_midPlace, \
		_bssString,	_bssSeg,	_firstPlace, \
		_farString,	_farSeg,	_secondPlace, \
		_cinitString,	_cinitSeg,	_midPlace, \
		_pinitString,	_pinitSeg,	_midPlace, \
		_dataString,	_dataSeg,	_midPlace, \
		_constString,	_constSeg,	_midPlace, \
		_switchString,	_switchSeg,	_midPlace, \
		_cioString,	_cioSeg,	_midPlace, \
		_textString,	_textSeg,	_midPlace, \
		_frtString,	_frtSeg,	_midPlace, \
		_biosString,	_biosSeg,	_midPlace, \
		_biosNORPTBString, _biosNORPTBSeg, _midPlace, \
		_stackString,	_stackSeg,	_midPlace"} else {"9\0,	_argsString,	_argsSeg,	_midPlace, \
		_sysdataString,	_sysdataSeg,	_thirdPlace, \
		_trcinitString,	_trcinitSeg,	_midPlace, \
		_gblinitString,	_gblinitSeg,	_midPlace, \
		_memObjString,	_memObjSeg,	_midPlace, \
		_sysregsString,	_regsSeg,	_midPlace, \
		_biosString,	_biosSeg,	_midPlace, \
		_biosNORPTBString, _biosNORPTBSeg, _midPlace, \
		_stackString,	_stackSeg,	_midPlace"}}}} else {if (self.REUSE == 0 && self.USERCMD == 0) {"19\0,	_argsString,	_argsSeg,	_midPlace, \
		_sysdataString,	_sysdataSeg,	_thirdPlace, \
		_trcinitString,	_trcinitSeg,	_midPlace, \
		_gblinitString,	_gblinitSeg,	_midPlace, \
		_memObjString,	_memObjSeg,	_midPlace, \
		_sysinitString,	_initSeg,	_sysinitPlace, \
		_sysregsString,	_regsSeg,	_midPlace, \
		_bssString,	_bssSeg,	_firstPlace, \
		_farString,	_farSeg,	_secondPlace, \
		_cinitString,	_cinitSeg,	_midPlace, \
		_pinitString,	_pinitSeg,	_midPlace, \
		_dataString,	_dataSeg,	_midPlace, \
		_constString,	_constSeg,	_midPlace, \
		_switchString,	_switchSeg,	_midPlace, \
		_cioString,	_cioSeg,	_midPlace, \
		_textString,	_textSeg,	_midPlace, \
		_frtString,	_frtSeg,	_midPlace, \
		_biosString,	_biosSeg,	_midPlace, \
		_stackString,	_stackSeg,	_midPlace"} else {if (self.REUSE == 0 && self.USERCMD == 1) {"9\0,	_argsString,	_argsSeg,	_midPlace, \
		_sysdataString,	_sysdataSeg,	_thirdPlace, \
		_trcinitString,	_trcinitSeg,	_midPlace, \
		_gblinitString,	_gblinitSeg,	_midPlace, \
		_memObjString,	_memObjSeg,	_midPlace, \
		_sysinitString,	_initSeg,	_sysinitPlace, \
		_sysregsString,	_regsSeg,	_midPlace, \
		_biosString,	_biosSeg,	_midPlace, \
		_stackString,	_stackSeg,	_midPlace"} else {if (self.REUSE == 1 && self.USERCMD == 0) {"18\0,	_argsString,	_argsSeg,	_midPlace, \
		_sysdataString,	_sysdataSeg,	_thirdPlace, \
		_trcinitString,	_trcinitSeg,	_midPlace, \
		_gblinitString,	_gblinitSeg,	_midPlace, \
		_memObjString,	_memObjSeg,	_midPlace, \
		_sysregsString,	_regsSeg,	_midPlace, \
		_bssString,	_bssSeg,	_firstPlace, \
		_farString,	_farSeg,	_secondPlace, \
		_cinitString,	_cinitSeg,	_midPlace, \
		_pinitString,	_pinitSeg,	_midPlace, \
		_dataString,	_dataSeg,	_midPlace, \
		_constString,	_constSeg,	_midPlace, \
		_switchString,	_switchSeg,	_midPlace, \
		_cioString,	_cioSeg,	_midPlace, \
		_textString,	_textSeg,	_midPlace, \
		_frtString,	_frtSeg,	_midPlace, \
		_biosString,	_biosSeg,	_midPlace, \
		_stackString,	_stackSeg,	_midPlace"} else {"8\0,	_argsString,	_argsSeg,	_midPlace, \
		_sysdataString,	_sysdataSeg,	_thirdPlace, \
		_trcinitString,	_trcinitSeg,	_midPlace, \
		_gblinitString,	_gblinitSeg,	_midPlace, \
		_memObjString,	_memObjSeg,	_midPlace, \
		_sysregsString,	_regsSeg,	_midPlace, \
		_biosString,	_biosSeg,	_midPlace, \
		_stackString,	_stackSeg,	_midPlace"}}}})
    prop _firstPlace :: 0
    prop _secondPlace :: 0 + 1
    prop _thirdPlace :: 0 + 2
    prop _midPlace :: (0x7ffff / 2)
    prop _sysinitPlace :: (0x7ffff / 2)
    prop _argsString :: ("%8t .args: fill=0 {%12t\n *(.args)\n . += 0x%1x;%8t\n }\0, _argsSize")
    prop _bssString :: ("%8t .bss:     {}")
    prop _farString :: ("%8t .far:     {}")
    prop _cinitString :: (if (self.ENABLELOADSEG == 1) {if (MEM.CINITSEG == MEM.LOADCINITSEG) {"%8t .cinit:    {}"} else {"%8t .cinit:   {} load > %1s, run\0, _loadcinitSeg"}} else {"%8t .cinit:    {}"})
    prop _pinitString :: (if (self.ENABLELOADSEG == 1) {if (MEM.PINITSEG == MEM.LOADPINITSEG) {"%8t .pinit:   {}"} else {"%8t .pinit:   {} load > %1s, run\0, _loadpinitSeg"}} else {"%8t .pinit:   {}"})
    prop _trcinitString :: (if (self.ENABLELOADSEG == 1) {if (MEM.TRCINITSEG == MEM.LOADTRCINITSEG) {"%8t .trcdata:   {}"} else {"%8t .trcdata:   {} load > %1s, run\0, _loadtrcinitSeg"}} else {"%8t .trcdata:    {}"})
    prop _gblinitString :: (if (self.ENABLELOADSEG == 1) {if (MEM.BIOSINITSEG == MEM.LOADBIOSINITSEG) {"%8t .gblinit:   {}"} else {"%8t .gblinit:   {} load > %1s, run\0, _loadgblinitSeg"}} else {"%8t .gblinit:    {}"})
    prop _dataString :: ("%8t .data:    {}")
    prop _constString :: (if (self.ENABLELOADSEG == 1) {if (MEM.CONSTSEG == MEM.LOADCONSTSEG) {"%8t .const:   {}"} else {if ((54 == 54) || (54 == 28)) {"%8t .const:   {} load > %1s PAGE %2s, run\0, _loadconstSeg, _pg"} else {"%8t .const: {} load > %1s, run\0, _loadconstSeg"}}} else {"%8t .const:    {}"})
    prop _switchString :: (if (self.ENABLELOADSEG == 1) {if (MEM.SWITCHSEG == MEM.LOADSWITCHSEG) {"%8t .switch:   {}"} else {"%8t .switch:   {} load > %1s, run\0, _loadswitchSeg"}} else {"%8t .switch:    {}"})
    prop _sysmemString :: ("%8t .sysmem:  {}")
    prop _cioString :: ("%8t .cio:     {}")
    prop _memObjString :: ("%8t .mem: 	  {}")
    prop _sysdataString :: (if ((GBL.ROM == 0) && (GBL.DSPTYPE == 54)) {"%8t .sysdata: align = 128 {%12t\n GBL_A_SYSPAGE = .;\n GBL_A_SYSDP = GBL_A_SYSPAGE >> 7;\n %8t }"} else {"%8t .sysdata: {}"})
    prop _sysinitString :: (if (self.ENABLELOADSEG == 1) {if (MEM.INITSEG == MEM.LOADINITSEG) {"%8t .sysinit:   {}"} else {"%8t .sysinit:   {} load > %1s, run\0, _loadinitSeg"}} else {"%8t .sysinit:    {}"})
    prop _sysregsString :: ("%8t .sysregs: {}")
    prop _textString :: (if (self.ENABLELOADSEG == 1) {if (MEM.TEXTSEG == MEM.LOADTEXTSEG) {"%8t .text:    {}"} else {"%8t .text:    {} load > %1s, run\0, _loadtextSeg"}} else {"%8t .text:    {}"})
    prop _frtString :: ("%8t frt:    {}")
    prop _biosString :: (if (self.ENABLELOADSEG == 1) {if (MEM.BIOSSEG == MEM.LOADBIOSSEG) {"%8t .bios:    {}"} else {"%8t .bios:    {} load > %1s, run\0, _loadbiosSeg"}} else {"%8t .bios:    {}"})
    prop _biosNORPTBString :: (if (self.ENABLELOADSEG == 1) {if (MEM.BIOSNORPTBSEG == MEM.LOADBIOSNORPTBSEG) {"%8t .bios:.norptb:    {}"} else {"%8t .bios:.norptb:    {} load > %1s, run\0, _loadbiosNORPTBSeg"}} else {"%8t .bios:.norptb:    {}"})
    prop _stackString :: (if (GBL.DSPTYPE == 62) {"%8t .stack: fill=0xc0ffee {%12t\n GBL_stackbeg = .;\n *(.stack)\n GBL_stackend = GBL_stackbeg + 0x%1x - 1;%12t\n _HWI_STKBOTTOM = GBL_stackbeg + 0x%1x - 4 & ~7;%12t\n _HWI_STKTOP = GBL_stackbeg;%8t\n }\0, _stackSize, _stackSize"} else {if (GBL.DSPTYPE == 54) {"%8t .stack: fill=0xbeef {%12t\n GBL_stackbeg = .;\n *(.stack)\n GBL_stackend = ((GBL_stackbeg + 0x%1x - 1) & 0xfffe) ;%8t\n _HWI_STKBOTTOM = GBL_stackend;%12t\n _HWI_STKTOP = GBL_stackbeg;%8t\n }\0, _stackSize"} else {if (GBL.DSPTYPE == 55) {"%8t .stack: block(0x20000) fill=0xbeef {%12t\n GBL_stackbeg = .;\n *(.stack)\n GBL_stackend = (GBL_stackbeg + 0x%1x - 1) ;%12t\n _HWI_STKBOTTOM = (GBL_stackend+1);%12t\n _HWI_STKTOP = (GBL_stackbeg);%8t\n }\0, _cmd55stksz"} else {"%8t .stack: fill=0xbeef {%12t\n GBL_stackbeg = .;\n *(.stack)\n GBL_stackend = GBL_stackbeg + 0x%1x - 1;%8t\n _HWI_STKBOTTOM = GBL_stackbeg;%12t\n _HWI_STKTOP = (GBL_stackend + 1);%8t\n }\0, _stackSize"}}})
    prop _memHdrSize :: 8
    prop GenLinkEpilogue :: ("%0t}")
    prop _stackSeg :: MEM.STACKSEG
    prop _textSeg :: MEM.TEXTSEG
    prop _frtSeg :: MEM.TEXTSEG
    prop _biosSeg :: MEM.BIOSSEG
    prop _biosNORPTBSeg :: MEM.BIOSNORPTBSEG
    prop _dataSeg :: MEM.DATASEG
    prop _cioSeg :: MEM.CIOSEG
    prop _sysmemSeg :: MEM.SYSMEMSEG
    prop _constSeg :: MEM.CONSTSEG
    prop _initSeg :: MEM.INITSEG
    prop _pinitSeg :: MEM.PINITSEG
    prop _trcinitSeg :: MEM.TRCINITSEG
    prop _gblinitSeg :: MEM.BIOSINITSEG
    prop _regsSeg :: BIOSREGS
    prop _sysdataSeg :: MEM.SYSDATASEG
    prop _argsSeg :: MEM.ARGSSEG
    prop _argsSize :: MEM.ARGSSIZE
    prop _bssSeg :: MEM.BSSSEG
    prop _farSeg :: MEM.FARSEG
    prop _cinitSeg :: MEM.CINITSEG
    prop _memObjSeg :: MEM.CFGOBJSEG
    prop _switchSeg :: MEM.SWITCHSEG
    prop _loadtextSeg :: MEM.LOADTEXTSEG
    prop _loadbiosSeg :: MEM.LOADBIOSSEG
    prop _loadbiosNORPTBSeg :: MEM.LOADBIOSNORPTBSEG
    prop _loadconstSeg :: MEM.LOADCONSTSEG
    prop _loadinitSeg :: MEM.LOADINITSEG
    prop _loadpinitSeg :: MEM.LOADPINITSEG
    prop _loadtrcinitSeg :: MEM.LOADTRCINITSEG
    prop _loadgblinitSeg :: MEM.LOADBIOSINITSEG
    prop _loadcinitSeg :: MEM.LOADCINITSEG
    prop _loadswitchSeg :: MEM.LOADSWITCHSEG
    prop _pg :: MEM.LOADPAGE
    prop AllocInst :: (if (self.iAllocHeap == 1) {"1\0, _instAllocDesc, _objMemSeg, _placement"} )
    prop _instAllocDesc :: (if self.INITSEG.iAllocHeap && self.REUSE && self.INITSEG == self {"%8t .%0r$heap: {%12t\n %0r$B = .;\n%12t\n _%0r_base = .;\n . += 0x%2x;\n *(.sysinit)\n %0r$L = . + 0x%3x - %0r$B;\n _%0r_length = . + 0x%3x - %0r$B;\n . += 0x%1x;%8t\n }\0, _heapsize, _sysinitgap, _heaplen"} else {"%8t .%0r$heap: {%12t\n %0r$B = .;\n _%0r_base = .;\n %0r$L = 0x%2x;\n _%0r_length = 0x%2x;\n . += 0x%1x;%8t\n }\0, _heapsize, _heaplen"})
    prop _objMemSeg :: self
    prop _placement :: 0x7ffff - 1
    prop _heapsize :: (self.iHeapSize)
    prop _heaplen :: (self.iHeapSize)
    prop _sysinitgap :: 2 * 1
    prop GenInstLink :: (if GBL.DSPTYPE == 62 {"%0r %16t: origin = 0x%1x, %40tlen = 0x%2x%4t\0, _origin, _len"} else {if GBL.DSPTYPE == 55 {"%0r: %16torigin = 0x%1x, %40tlen = 0x%2x%4t\0, _cmd55origin, _cmd55len"} else {"PAGE %3d: %14t%0r: %26torigin = 0x%1x, %50tlen = 0x%2x%4t\0, _origin, _len, _page"}})
    prop localInit :: ($d = "ok", scan ($i; MEM) {if ($i.space == "code" && $i.iAllocHeap == 1) {$d = self.error("Code memory cannot have a heap")} }, if (self.SEGZERO.iAllocHeap == 1) {self.SEGZERO.iReqHeapCount++} else {$d = self.error("Segment for DSP/BIOS objects must be a memory segment with a heap")}, if (self.MALLOCSEG.iAllocHeap == 1) {self.MALLOCSEG.iReqHeapCount++} else {$d = self.error("Segment for malloc()/free() must be a memory segment with a heap")}, $d)
    prop _page :: (self.page)
    prop _origin :: (self.base)
    prop _len :: (self.len)
    prop maxObjs :: (32767)
    prop codeMember :: (if GBL.DSPTYPE == 62 {(($1.space == "code") || ($1.space == "code/data"))} else {if GBL.DSPTYPE == 54 {($1.space == "code")} else {if GBL.DSPTYPE == 28 {($1.space == "code")} else {($1.space == "code/data")}}})
    prop dataMember :: (if GBL.DSPTYPE == 62 {($1.space == "data" || $1.space == "code/data") && $1 != MEM_NULL} else {if GBL.DSPTYPE == 54 {(($1.space != "code") && ($1 != MEM_NULL)) && $1.space != "io"} else {if GBL.DSPTYPE == 28 {(($1.space != "code") && ($1 != MEM_NULL)) && $1.space != "io"} else {(($1.space == "code/data") && ($1 != MEM_NULL))}}})
    prop dataNullMember :: (if GBL.DSPTYPE == 62 {$1.space == "data" || $1.space == "code/data"} else {if GBL.DSPTYPE == 54 {$1.space != "code" && $1.space != "io"} else {if GBL.DSPTYPE == 28 {$1.space != "code" && $1.space != "io"} else {$1.space == "code/data"}}})
    prop dataCodeMember :: (if GBL.DSPTYPE == 62 {($1.space == "data" || $1.space == "code/data") && $1 != MEM_NULL} else {if GBL.DSPTYPE == 54 {$1.space == "code" && $1 != MEM_NULL} else {if GBL.DSPTYPE == 28 {$1.space == "code" && $1 != MEM_NULL} else {$1.space == "code/data" && $1 != MEM_NULL}}})
    prop memWritable :: (self.iIsModifiable && self.iDelUser != "MEM")
    prop validate :: ($e = self.checkMemOverlap($1), if ($e == "ok") {$e = self.checkHeapSize($1)} , $e)
    prop checkHeapSize :: ($e = "ok", if (MEM.NOHEAPS == 0) {if ($1.iAllocHeap && $1 != MEM_NULL) {if ($1.iHeapSize > $1.len) {$e = ("MEM segment %s: heap cannot be larger than the length of segment that contains it.")} } } , $e)
    prop checkMemOverlap :: ($e = "ok", if ($1 != MEM_NULL && $1.iIsUsed == 1) {if ($1.len == 0) {$a = $1.base} else {$a = ($1.base + $1.len - 1)}, scan ($j; MEM) {if ($1 != $j && $j != MEM_NULL && $j.iIsUsed == 1 && (GBL.DSPTYPE == 62 || GBL.DSPTYPE == 55 || $1.space == $j.space)) {if (!($j == CACHE_L2 && GBL.L2CONFIGURE == 0)) {$b = $j.base, if ($j.len == 0) {$c = $j.base} else {$c = ($j.base + $j.len - 1)}, if ($a >= $b && $1.base <= $c) {$e = ("MEM segment %s: overlaps with another segment or cache configuration."), break} } } }} , $e)
    prop checkHeapId :: ($e = "ok", scan ($i; MEM) {if ($i.iAllocHeap == 1 && $i.iUserHeapId == 1 && $i.iHeapId == $1 && $i.iHeapId != @segment_name) {$e = self.error("This identifier label is already in use"), break} }, $e)
    global gUser :: "USER" { 
        prop Visible :: 0
        prop Writable :: 0
        prop NoGen :: 1
    }
    global gSetOf :: 0 { 
        prop Visible :: 0
        prop Writable :: 0
        prop NoGen :: 1
    }
    global gNumOf :: 9 { 
        prop Visible :: 0
        prop Writable :: 0
        prop NoGen :: 1
    }
    global gDirty :: 1 { 
        prop Visible :: 0
        prop Writable :: 0
        prop NoGen :: 1
    }
    global gInitFlag :: 1 { 
        prop Visible :: 0
        prop Writable :: 0
        prop NoGen :: 1
    }
    global gInit :: = ($a = 0, $b = 0, scan ($i; self) {if ($i.IsConfObj()) {$a += 1, if (self.isFinite) {$b |= 1 << $i.iId} } }, self.gNumOf = $a, self.gSetOf = $b, if (self.gInitFlag == 0) {self.localInit()} , self.gInitFlag = 1) { 
        prop Visible :: 0
        prop Writable :: 0
        prop NoGen :: 1
    }
    global CALLBACKOBJ :: nil { 
        prop Visible :: 0
        prop Writable :: 0
        prop NoGen :: 1
    }
    global gNumHeap :: = ($a = 0, scan ($i; MEM) {if ($i != MEM_NULL) {$a += $i.iAllocHeap} }, $a) { 
        prop NoGen :: 0
    }
    global REUSE :: = (if self.INITSEG.space != "code" && self.INITSEG.iAllocHeap == 1 {self.SAVEREUSE} else {0}) { 
        prop Type :: "{21455EA0-B96A-11cf-9BFE-0000C0AC14C7}"
        prop Label :: "Reuse Startup Code Space"
        prop JSName :: "REUSECODESPACE"
        prop Visible :: 1
        prop Writable :: self.INITSEG.space != "code" && self.INITSEG.iAllocHeap == 1
        prop NoGen :: 1
        prop Set :: (self.SAVEREUSE = $1, "ok")
    }
    global SAVEREUSE :: 0 { 
        prop Type :: "{21455EA0-B96A-11cf-9BFE-0000C0AC14C7}"
        prop NoGen :: 1
    }
    global doCheckOverlap :: 1 { 
        prop Type :: "{21455EA0-B96A-11cf-9BFE-0000C0AC14C7}"
        prop Visible :: 0
        prop Writable :: 1
        prop NoGen :: 1
    }
    global MAPSELECT :: "Map 1" { 
        prop Type :: "{21455EA1-B96A-11cf-9BFE-0000C0AC14C7}"
        prop Label :: "Map Mode"
        prop JSName :: "MAPMODE"
        prop Enum :: "Map 0,Map 1"
        prop Visible :: 0
        prop Writable :: 0
        prop NoGen :: 1
    }
    global ARGSSIZE :: 4 { 
        prop Type :: "{3EE4CB80-E273-11d0-BB8F-0000C008F2E9}"
        prop Format :: "0x%04x"
        prop Style :: 0x01 | 0x02
        prop Label :: "Argument Buffer Size"
        prop JSName :: "ARGSSIZE"
        prop Visible :: 1
        prop Writable :: 1
        prop NoGen :: 1
        prop Set :: (if ($1 < 4) {self.error("The 'arguments' section must have at least 4 words.")} else {self.ARGSSIZE = $1, "ok"})
    }
    global ARGSSEG :: IDATA { 
        prop Type :: "{7BA2DA00-5A53-11d0-9BFE-0000C0AC14C7}"
        prop MemberType :: MEM
        prop MemberTest :: self.dataMember($1)
        prop Label :: "Argument Buffer Section (.args)"
        prop JSName :: "ARGSSEG"
        prop Visible :: 1
        prop Writable :: 1
        prop NoGen :: 1
        prop TabName :: "BIOS Data"
    }
    global BIOSSEG :: SARAM03 { 
        prop Type :: "{7BA2DA00-5A53-11d0-9BFE-0000C0AC14C7}"
        prop MemberType :: MEM
        prop MemberTest :: self.codeMember($1)
        prop Label :: "BIOS Code Section (.bios)"
        prop JSName :: "BIOSSEG"
        prop Visible :: 1
        prop Writable :: 1
        prop NoGen :: 1
        prop TabName :: "BIOS Code"
    }
    global STACKSIZE :: 256 { 
        prop Type :: "{3EE4CB80-E273-11d0-BB8F-0000C008F2E9}"
        prop Format :: "0x%04x"
        prop Style :: 0x01 | 0x02
        prop Label :: "Stack Size (MAUs)"
        prop JSName :: "STACKSIZE"
        prop Visible :: 1
        prop Writable :: 1
        prop NoGen :: 1
        prop Set :: (self.STACKSIZE = $1, "ok")
        prop PropSetOkUserMsg :: if (MEM.STACKSIZE < GlobalStatus.MinStackSize) {"Warning: You are setting the stack size to a value that is less than the Estimated Minimum Stack Size!"} else {"ok"}
    }
    global USERCMD :: 0 { 
        prop Type :: "{21