Windows2000/private/windbg64/langapi/undname/undname.hxx

#include	"undname.h"


//	I can't live without 'elif'

#define	elif	else if


//	Good ol' TRUE and FALSE

#define	TRUE	1
#define	FALSE	0


//	The 'operator-code' values for the decorated name specification

#define	OC_ctor				((unsigned char)'0')
#define	OC_dtor				((unsigned char)'1')
#define	OC_new				((unsigned char)'2')
#define	OC_delete			((unsigned char)'3')
#define	OC_assign			((unsigned char)'4')
#define	OC_rshift			((unsigned char)'5')
#define	OC_lshift			((unsigned char)'6')
#define	OC_not				((unsigned char)'7')
#define	OC_equal			((unsigned char)'8')
#define	OC_unequal			((unsigned char)'9')
#define	OC_index			((unsigned char)'A')
#define	OC_udc				((unsigned char)'B')
#define	OC_pointer			((unsigned char)'C')
#define	OC_star				((unsigned char)'D')
#define	OC_incr				((unsigned char)'E')
#define	OC_decr				((unsigned char)'F')
#define	OC_minus			((unsigned char)'G')
#define	OC_plus				((unsigned char)'H')
#define	OC_amper			((unsigned char)'I')
#define	OC_ptrmem			((unsigned char)'J')
#define	OC_divide			((unsigned char)'K')
#define	OC_modulo			((unsigned char)'L')
#define	OC_less				((unsigned char)'M')
#define	OC_leq				((unsigned char)'N')
#define	OC_greater			((unsigned char)'O')
#define	OC_geq				((unsigned char)'P')
#define	OC_comma			((unsigned char)'Q')
#define	OC_call				((unsigned char)'R')
#define	OC_compl			((unsigned char)'S')
#define	OC_xor				((unsigned char)'T')
#define	OC_or				((unsigned char)'U')
#define	OC_land				((unsigned char)'V')
#define	OC_lor				((unsigned char)'W')
#define	OC_asmul			((unsigned char)'X')
#define	OC_asadd			((unsigned char)'Y')
#define	OC_assub			((unsigned char)'Z')
#define	OC_asdiv			((unsigned char)'0')
#define	OC_asmod			((unsigned char)'1')
#define	OC_asrshift			((unsigned char)'2')
#define	OC_aslshift			((unsigned char)'3')
#define	OC_asand			((unsigned char)'4')
#define	OC_asor				((unsigned char)'5')
#define	OC_asxor			((unsigned char)'6')
#define	OC_vftable			((unsigned char)'7')
#define	OC_vbtable			((unsigned char)'8')
#define	OC_vcall			((unsigned char)'9')
#define	OC_metatype			((unsigned char)'A')
#define	OC_guard			((unsigned char)'B')
#define	OC_uctor			((unsigned char)'C')
#define	OC_udtor			((unsigned char)'D')
#define	OC_vdeldtor			((unsigned char)'E')
#define	OC_defctor			((unsigned char)'F')
#define	OC_sdeldtor			((unsigned char)'G')
#define	OC_vctor			((unsigned char)'H')
#define	OC_vdtor			((unsigned char)'I')
#define	OC_vallctor			((unsigned char)'J')
#define	OC_vdispmap 		((unsigned char)'K')
#define	OC_ehvctor			((unsigned char)'L')
#define	OC_ehvdtor			((unsigned char)'M')
#define	OC_ehvctorvb 		((unsigned char)'N')
#define	OC_copyctorclosure	((unsigned char)'O')
#define	OC_udtthunk 		((unsigned char)'P')	//extended code for all thunks for udt returns
#define	OC_eh_init			((unsigned char)'Q')	//extended code for eh initialized structs
#define OC_rtti_init		((unsigned char)'R')	//extended code for rtti initialized structs
#define	OC_locvftable		((unsigned char)'S')
#define	OC_locvfctorclosure	((unsigned char)'T')
#define OC_arrayNew			((unsigned char)'U')	// operator new[]
#define OC_arrayDelete		((unsigned char)'V')	// operator delete[]
#define OC_omni_callsig_init ((unsigned char)'W')	// Special reserved value
#define OC_placementDeleteClosure		((unsigned char)'X')
#define OC_placementArrayDeleteClosure	((unsigned char)'Y')

// Values for for 'eh initializers'

#define OC_eh_PMD			((unsigned char)'0')
#define OC_eh_CT			((unsigned char)'1')
#define OC_eh_CTA			((unsigned char)'2')
#define OC_eh_TI			((unsigned char)'3')

// Values for for 'rtti initializers'

#define OC_rtti_TD			((unsigned char)'0')
#define OC_rtti_BCD			((unsigned char)'1')
#define OC_rtti_BCA			((unsigned char)'2')
#define OC_rtti_CHD			((unsigned char)'3')
#define OC_rtti_COL			((unsigned char)'4')

//	Values for the 'type-encoding'

#define	TE_isbadtype(t)			((t)==0xFFFF)
#define	TE_setisbadtype(t)		((t)=0xFFFF)

#define	TE_istruncated(t)		((t)==0xFFFE)
#define	TE_setistruncated(t)	((t)=0xFFFE)

#define	TE_isfunction(t)		((t)&0x8000)
#define	TE_setisfunction(t)		((t)|=0x8000)

#define	TE_isbased(t)			((t)&0x4000)
#define	TE_setisbased(t)		((t)|=0x4000)

#define	TE_isnear(t)			(((t)&0x2000)==0x0000)
#define	TE_setisnear(t)			((t)&=~0x2000)

#define	TE_isfar(t)				((t)&0x2000)
#define	TE_setisfar(t)			((t)|=0x2000)

#define	TE_ismember(t)			(TE_isfunction(t)?(((t)&0x1800)==0x0800):(((t)&0x6000)==0x0000))
#define	TE_setismember(t)		(TE_isfunction(t)?((t)=(((t)&~0x1800)|0x0800)):((t)=((t)&~0x6000)))

#define	TE_isvirtual(t)			(TE_isfunction(t)&&(((t)&0x0700)==0x0100))
#define	TE_setisvirtual(t)		((t)=(((t)&~0x0700)|0x0100))

#define	TE_isthunk(t)			(TE_ismember(t)?((t)&0x0400):((t)&0x1000))

#define	TE_isvcall(t)			(TE_isfunction(t)?(((t)&0x1800)==0x1800):0)
#define	TE_setisvcall(t)		((t)=(((t)&~0x9800)|0x9800))

#define	TE_islocaldtor(t)		(TE_isfunction(t)?(((t)&0x1b00)==0x1000):0)
#define	TE_setislocaldtor(t)	((t)=(((t)&~0x9b00)|0x9000))

#define	TE_istemplatector(t)	(TE_isfunction(t)?(((t)&0x1b00)==0x1100):0)
#define	TE_setistemplatector(t)	((t)=(((t)&~0x9b00)|0x9100))

#define	TE_istemplatedtor(t)	(TE_isfunction(t)?(((t)&0x1b00)==0x1200):0)
#define	TE_setistemplatedtor(t)	((t)=(((t)&~0x9b00)|0x9200))

#define	TE_isadjustor(t)		(TE_ismember(t)&&(((t)&0x0700)==0x0400))
#define	TE_setisadjustor(t)		((t)=(((t)&~0x0700)|0x0400))

#define	TE_isvtoradj(t)			(TE_ismember(t)&&(((t)&0x0700)==0x0500))
#define	TE_setisvtoradj(t)		((t)=(((t)&~0x0700)|0x0500))

#define	TE_ispublic(t)			(TE_ismember(t)&&(TE_isfunction(t)?(((t)&0x00C0)==0x0000):(((t)&0x1800)==0x0000)))
#define	TE_setispublic(t)		((t)=(TE_isfunction(t)?((t)&~0x00C0):((t)&~0x1800)))

#define	TE_isprivate(t)			(TE_ismember(t)&&(TE_isfunction(t)?(((t)&0x00C0)==0x0040):(((t)&0x1800)==0x0800)))
#define	TE_setisprivate(t)		((t)=(TE_isfunction(t)?(((t)&~0x00C0)|0x0040):(((t)&~0x1800)|0x0800)))

#define	TE_isprotected(t)		(TE_ismember(t)&&(TE_isfunction(t)?(((t)&0x00C0)==0x0080):(((t)&0x1800)==0x1000)))
#define	TE_setisprotected(t)	((t)=(TE_isfunction(t)?(((t)&~0x00C0)|0x0080):(((t)&~0x1800)|0x1000)))

#define	TE_isstatic(t)			(TE_ismember(t)&&(TE_isfunction(t)?(((t)&0x0700)==0x0200):1))
#define	TE_setisstatic(t)		((t)=(TE_isfunction(t)?(((t)&~0x0700)|0x0200):TE_setismember(t)))


#define	TE_isdata(t)			(!TE_isfunction(t))
#define	TE_setisdata(t)			((t)&=~0x8000)

#define	TE_isguard(t)			(TE_isdata(t)&&(((t)&0x7800)==0x6000))
#define	TE_setisguard(t)		((t)=(((t)&~0x7800)|0x6000))

#define	TE_isvftable(t)			(TE_isdata(t)&&(((t)&0x7800)==0x6800))
#define	TE_setisvftable(t)		((t)=(((t)&~0x7800)|0x6800))

#define	TE_isvbtable(t)			(TE_isdata(t)&&(((t)&0x7800)==0x7000))
#define	TE_setisvbtable(t)		((t)=(((t)&~0x7800)|0x7000))

#define	TE_ismetaclass(t)		(TE_isdata(t)&&(((t)&0x7800)==0x7800))
#define	TE_setismetaclass(t)	((t)=(((t)&~0x7800)|0x7800))

#define	TE_islocal(t)			(TE_isdata(t)&&(((t)&0x6000)==0x2000))
#define	TE_setislocal(t)		((t)=(((t)&~0x6000)|0x2000))

#define	TE_isglobal(t)			(TE_isdata(t)&&(((t)&0x6000)==0x4000))
#define	TE_setisglobal(t)		((t)=(((t)&~0x6000)|0x4000))


#define	TE_member		((unsigned char)0)
#define	TE_static		((unsigned char)2)
#define	TE_virtual		((unsigned char)4)
#define	TE_adjustor		((unsigned char)6)
#define	TE_external		((unsigned char)24)

#define	TE_far			((unsigned char)0x01)

#define	TE_private		((unsigned char)0x00)
#define	TE_protect		((unsigned char)0x08)
#define	TE_public		((unsigned char)0x10)

#define	TE_access		(TE_protect|TE_public)

#define	TE_private_d	((unsigned char)0x00)
#define	TE_protect_d	((unsigned char)0x01)
#define	TE_public_d		((unsigned char)0x02)

#define	TE_access_d		(TE_protect_d|TE_public_d)

#define	TE_private_vadj	((unsigned char)0x00)
#define	TE_protect_vadj	((unsigned char)0x02)
#define	TE_public_vadj	((unsigned char)0x04)

#define	TE_access_vadj	(TE_protect_vadj|TE_public_vadj)

#define	TE_static_d		((unsigned char)'0')
#define	TE_global		((unsigned char)'3')
#define	TE_local		((unsigned char)'4')
#define	TE_guard		((unsigned char)'5')
#define	TE_vftable		((unsigned char)'6')
#define	TE_vbtable		((unsigned char)'7')
#define	TE_metatype		((unsigned char)'8')
#define	TE_vcall		((unsigned char)'9')

//	Values for the 'data-indirect-type'

#define	DIT_near		((unsigned char)0x00)
#define	DIT_far			((unsigned char)0x04)
#define	DIT_huge		((unsigned char)0x08)
#define	DIT_based		((unsigned char)0x0C)
#define	DIT_modelmask	((unsigned char)0x0C)

#define	DIT_const		((unsigned char)0x01)
#define	DIT_volatile	((unsigned char)0x02)

#define	DIT_member		((unsigned char)0x10)

#define	DIT_ptr64		((unsigned char)0x04)
#define	DIT_restrict	((unsigned char)0x08)

//	Values for the 'calling-convention'

#define	CC_cdecl		((unsigned char)0x00)
#define	CC_pascal		((unsigned char)0x02)
#define	CC_thiscall		((unsigned char)0x04)
#define	CC_stdcall		((unsigned char)0x06)
#define	CC_fastcall		((unsigned char)0x08)
#define	CC_interrupt	((unsigned char)0x0A)

#define	CC_saveregs		((unsigned char)0x01)


//	Values for the 'data-type'

#define	DT_void			'X'


//	Values for the 'reference-data-type'

#define	RDT_array		'Y'


//	Values for the 'pointer-data-type'

#define	PoDT_void		'X'


//	Values for the 'primary-data-type'

#define	PDT_reference			'A'
#define	PDT_volatileReference	'B'
#define PDT_extend				'$'
#define PDT_ex_function			'A'
#define PDT_ex_other			'B'
#define PDT_ex_qualified		'C'


//	Values for the 'basic-data-type'

#define	BDT_unsigned	0x01

#define	BDT_const		0x01
#define	BDT_volatile	0x02

#define	BDT_schar		'C'
#define	BDT_char		'D'
#define	BDT_short		'F'
#define	BDT_int			'H'
#define	BDT_long		'J'
#define	BDT_segment		'L'
#define	BDT_float		'M'
#define	BDT_double		'N'
#define	BDT_longdouble	'O'
#define	BDT_pointer		'P'
#define	BDT_union		'T'
#define	BDT_struct		'U'
#define	BDT_class		'V'
#define	BDT_enum		'W'

//	Adding big ints overflows the available BDT_* codes, so we extend to
//	2 char codes, with a '_' as a lead in char
#define	BDT_extend		'_'     //1st char of 2 char codes

#define	BDT_int8		'D'
#define	BDT_int16		'F'
#define	BDT_int32		'H'
#define	BDT_int64		'J'
#define	BDT_int128		'L'
#define	BDT_bool		'N'
#define	BDT_wchar_t		'W'


//	Values for the 'enum-type'

#define	ET_schar		'0'
#define	ET_uchar		'1'
#define	ET_sshort		'2'
#define	ET_ushort		'3'
#define	ET_sint			'4'
#define	ET_uint			'5'
#define	ET_slong		'6'
#define	ET_ulong		'7'

//	Values for the 'function-indirect-type'

#define	FIT_near	0x00
#define	FIT_far		0x01
#define	FIT_member	0x02
#define	FIT_based	0x04


//	Values for the 'function-indirect-type'

#define	AT_void			'X'
#define	AT_ellipsis		'Z'
#define	AT_endoflist	'@'


//	Values for 'indirect-type'

#define	IT_isfunction(it)	((((it)>='6')&&((it)<='9'))||((it)=='_'))


//	Values for the 'based-type'

#define	BT_void		'0'
#define	BT_self		'1'
#define	BT_nearptr	'2'
#define	BT_farptr	'3'
#define	BT_hugeptr	'4'
#define	BT_basedptr	'5'
#define	BT_segment	'6'
#define	BT_segname	'7'
#define	BT_segaddr	'8'


//	Values for the 'based-type'

//#define	TT_illegal	'@'		// An illegal value to keep the algorithm happy


//	Values for the 'ecsu-data-indirect-type'

#define	ECSU_near		DIT_near
#define	ECSU_far		DIT_far
#define	ECSU_huge		DIT_huge
#define	ECSU_based		DIT_based
#define	ECSU_modelmask	DIT_modelmask

#define	ECSU_const		DIT_const
#define	ECSU_volatile	DIT_volatile

#define	ECSU_valid		(0x8000)
#define	ECSU_invalid	(0xFFFF)
#define	ECSU_truncated	(0xFFFE)


//	Value for the 'vcall-model-type'

#define	VMT_nTnCnV		'A'
#define	VMT_nTfCnV		'B'
#define	VMT_fTnCnV		'C'
#define	VMT_fTfCnV		'D'
#define	VMT_nTnCfV		'E'
#define	VMT_nTfCfV		'F'
#define	VMT_fTnCfV		'G'
#define	VMT_fTfCfV		'H'
#define	VMT_nTnCbV		'I'
#define	VMT_nTfCbV		'J'
#define	VMT_fTnCbV		'K'
#define	VMT_fTfCbV		'L'


//	Values for the 'letter' and 'number'

#define	isValidLetter(n)	(((n)=='_')||((n)=='$')||(((n)>='a')&&((n)<='z'))||(((n)>='A')&&((n)<='Z')))
#define	isValidNumber(n)	(((n)>='0')&&((n)<='9'))
#define	isValidIdentChar(n)	(isValidLetter(n)||isValidNumber(n))

//	Values for the 'template-constant'

#define	TC_nullptr	'@'

#define	TC_integral	'0'
#define	TC_address	'1'
#define	TC_fp		'2'


// Encoding for special help function

#define	SHF_localdtor						'A'
#define SHF_vcall							'B'
#define SHF_vdispmap						'C'
#define SHF_templateStaticDataMemberCtor	'D'
#define SHF_templateStaticDataMemberDtor	'E'