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autoexp.dat
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autoexp.dat
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; AutoExp.Dat - templates for automatically expanding data
; Copyright(c) Microsoft Corporation. All Rights Reserved.
;---------------------------------------------------------------
;
; While debugging, Data Tips and items in the Watch and Variable
; windows are automatically expanded to show their most important
; elements. The expansion follows the format given by the rules
; in this file. You can add rules for your types or change the
; predefined rules.
;
; For good examples, read the rules in this file.
;
; To find what the debugger considers the type of a variable to
; be, add it to the Watch window and look at the Type column.
;
; An AutoExpand rule is a line with the name of a type, an equals
; sign, and text with replaceable parts in angle brackets. The
; part in angle brackets names a member of the type and an
; optional Watch format specifier.
;
; AutoExpand rules use the following syntax. The equals sign (=),
; angle brackets (<>), and comma are taken literally. Square
; brackets ([]) indicate optional items.
;
; type=[text]<member[,format]>...
;
; type Name of the type (may be followed by <*> for template
; types such as the ATL types listed below).
;
; text Any text.Usually the name of the member to display,
; or a shorthand name for the member.
;
; member Name of a member to display.
;
; format Watch format specifier. One of the following:
;
; Letter Description Sample Display
; ------ -------------------------- ------------ -------------
; d,i Signed decimal integer 0xF000F065,d -268373915
; u Unsigned decimal integer 0x0065,u 101
; o Unsigned octal integer 0xF065,o 0170145
; x,X Hexadecimal integer 61541,X 0X0000F065
; l,h long or short prefix for 00406042,hx 0x0c22
; d, i, u, o, x, X
; f Signed floating-point 3./2.,f 1.500000
; e Signed scientific-notation 3./2.,e 1.500000e+000
; g Shorter of e and f 3./2.,g 1.5
; c Single character 0x0065,c 'e'
; s Zero-terminated string pVar,s "Hello world"
; su Unicode string pVar,su "Hello world"
;
; For details of other format specifiers see Help under:
; "format specifiers/watch variable"
;
; The special format <,t> specifies the name of the most-derived
; type of the object. This is especially useful with pointers or
; references to a base class.
;
; If there is no rule for a class, the base classes are checked for
; a matching rule.
;
; There are some special entries allowed in the AutoExpand section:
; $BUILTIN is used to display more complex types that need to do more
; than just show a member variable or two.
; $ADDIN allows external DLLs to be added to display even more complex
; types via the EE Add-in API. The first argument is the DLL name, the
; second argument is the name of the export from the DLL to use. For
; further information on this API see the sample called EEAddIn.
;
; WARNING: if hexadecimal mode is on in the watch window, all numbers here are
; evaluated in hex, e.g. 42 becomes 0x42
[AutoExpand]
; from windef.h
tagPOINT =x=<x> y=<y>
tagRECT =top=<top> bottom=<bottom> left=<left> right=<right>
; from winuser.h
tagMSG =msg=<message,x> wp=<wParam,x> lp=<lParam,x>
; intrinsics
__m64 =<m64_i64,x>
__m128=$BUILTIN(M128)
__m128i=$BUILTIN(M128I)
__m128d=$BUILTIN(M128D)
; from afxwin.h
CDC =hDC=<m_hDC> attrib=<m_hAttribDC>
CPaintDC =<,t> hWnd=<m_hWnd>
CPoint =x=<x> y=<y>
CRect =top=<top> bottom=<bottom> left=<left> right=<right>
CSize =cx=<cx> cy=<cy>
CWnd =<,t> hWnd=<m_hWnd>
CWinApp =<,t> <m_pszAppName,s>
CWinThread =<,t> h=<m_hThread> proc=<m_pfnThreadProc>
; from afxcoll.h
CPtrList =cnt=<m_nCount>
; from afxstat_.h
CProcessLocalObject =<,t>
CThreadLocalObject =<,t>
; from afx.h
CArchiveException =cause=<m_cause>
CFile =hFile=<m_hFile> name=<m_strFileName.m_pchData,s>
CFileException =cause=<m_cause> OS Error=m_lOsError
CMemFile =pos=<m_nPosition> size=<m_nFileSize>
CObject =<,t>
CRuntimeClass =<m_lpszClassName,s>
CStdioFile =FILE*=<m_pStream> name=<m_strFilename.m_pchData,s>
CTimeSpan =time=<m_time>
CTime =time=<m_time>
; from afxcoll.h
CByteArray =count=<m_nCount>
CStringList =count=<m_nCount>
; same for all CXXXArray classes
; same for CXXXList
; same for CMapXXToXX
; various string classes from MFC & ATL
_com_error=<m_hresult,hr>
_bstr_t=<m_Data->m_wstr,su> (<m_Data->m_RefCount,u>)
_com_ptr_t<*>=<m_pInterface>
_LARGE_INTEGER=<QuadPart>
_ULARGE_INTEGER=<QuadPart>
ATL::CComPtr<*>=<p>
ATL::CComQIPtr<*>=<p>
tagVARIANT=$BUILTIN(VARIANT)
VARIANT=$BUILTIN(VARIANT)
_GUID=$BUILTIN(GUID)
; see EEAddIn sample for how to use these
;_SYSTEMTIME=$ADDIN(EEAddIn.dll,AddIn_SystemTime)
;_FILETIME=$ADDIN(EEAddIn.dll,AddIn_FileTime)
std::binder1st<*>= op=<op> value=<value>
std::binder2nd<*>= op=<op> value=<value>
std::less<*>=lessthan
std::greater<*>=greaterthan
_D3DBOX=<Left,u>, <Top,u>, <Right,u>, <Bottom,u>, <Front,u>, <Back,u>
_D3DRECT=<x1,u>, <y1,u>, <x2,u>, <y2,u>
_D3DVECTOR=<x,g>, <y,g>, <z,g>
D3DXCOLOR=<r,g>, <g,g>, <b,g>, <a,g>
D3DXPLANE=<a,g>, <b,g>, <c,g>, <d,g>
D3DXQUATERNION=<x,g>, <y,g>, <z,g>, <w,g>
D3DXVECTOR2=<x,g>, <y,g>
D3DVECTOR4=<x,g>, <y,g>, <z,g>, <w,g>
[Visualizer]
; This section contains visualizers for STL and ATL containers
; DO NOT MODIFY
ATL::CStringT<char,*>|CSimpleStringT<char,*>|ATL::CSimpleStringT<char,*>{
preview ([$e.m_pszData,s])
stringview ([$e.m_pszData,sb])
}
ATL::CStringT<wchar_t,*>|CSimpleStringT<wchar_t,*>|ATL::CSimpleStringT<wchar_t,*>|ATL::CStringT<unsigned short,*>|CSimpleStringT<unsigned short,*>|ATL::CSimpleStringT<unsigned short,*>{
preview ([$e.m_pszData,su])
stringview ([$e.m_pszData,sub])
}
ATL::CComBSTR{
preview ([$e.m_str,su])
stringview ([$e.m_str,sub])
}
; Many TR1 visualizers use nested #()s.
; Why not use #(foo, bar) instead of #(#(foo), #(bar))?
; The former alphabetically sorts its fields, while the latter does not.
;------------------------------------------------------------------------------
; std::tr1::reference_wrapper
;------------------------------------------------------------------------------
std::tr1::reference_wrapper<*>{
preview (
#if ($e._Callee._EEN_INDIRECT == 1) (
; For ordinary T, reference_wrapper<T> stores a T * _Callee._Ptr
; which is non-null. Actual references are previewed with what they
; refer to, so reference_wrapper<T> is previewed with dereferencing its
; stored pointer.
*$e._Callee._Ptr
) #else (
; When T is a pointer to function, pointer to member function,
; or pointer to data member type, reference_wrapper<T> stores a
; T _Callee._Object directly.
$e._Callee._Object
)
)
children (
#if ($e._Callee._EEN_INDIRECT == 1) (
; Actual references have the same children as what they refer to.
; Unfortunately, there appears to be no way to imitate this exactly.
; Therefore, we make reference_wrapper<T> appear to have a single
; child, its stored pointer, with a fake name of [ptr].
#([ptr] : $e._Callee._Ptr)
) #else (
; When T is a pointer to function, pointer to member function,
; or pointer to data member type, T has no children, so we make
; reference_wrapper<T> appear to have no children.
#array(expr: 0, size: 0)
)
)
}
;------------------------------------------------------------------------------
; std::tr1::shared_ptr
;------------------------------------------------------------------------------
std::tr1::shared_ptr<*>{
preview (
; shared_ptr<T> stores a T * _Ptr .
#if ($e._Ptr == 0) (
; A default-constructed shared_ptr has a null _Ptr and a null _Rep,
; and is formally said to be empty.
; A shared_ptr constructed from a null pointer has a null _Ptr
; and a NON-null _Rep . It is formally said to own the null pointer.
; We preview both with "empty".
"empty"
) #else (
; Raw pointers are previewed with "<pointer value> <object>".
; auto_ptr is previewed with "auto_ptr <object>".
; Following these examples, shared_ptr is previewed with
; "shared_ptr <object> [N strong refs, M weak refs]".
#(
"shared_ptr ",
*$e._Ptr,
" [",
$e._Rep->_Uses,
#if ($e._Rep->_Uses == 1) (" strong ref") #else (" strong refs"),
#if ($e._Rep->_Weaks - 1 > 0) (
#(
", ",
$e._Rep->_Weaks - 1,
#if ($e._Rep->_Weaks - 1 == 1) (" weak ref") #else (" weak refs")
)
),
"]"
)
; Note: _Rep->_Uses counts how many shared_ptrs share ownership of the object,
; so we directly display it as the strong reference count.
; _Rep->_Weaks counts how many shared_ptrs and weak_ptrs share ownership of
; the "representation object" (or "control block"). All of the shared_ptrs are
; counted as a single owner. That is, _Weaks is initialized to 1, and when
; _Uses falls to 0, _Weaks is decremented. This avoids incrementing and decrementing
; _Weaks every time that a shared_ptr gains or loses ownership. Therefore,
; _Weaks - 1 is the weak reference count, the number of weak_ptrs that are observing
; the shared object.
)
)
children (
#if ($e._Ptr == 0) (
; We make empty shared_ptrs (and shared_ptrs that own
; the null pointer) appear to have no children.
#array(expr: 0, size: 0)
) #else (
#(
; We make shared_ptr appear to have a single child,
; its stored pointer, with a fake name of [ptr].
#([ptr] : $e._Ptr),
; Visualizers can't determine whether a shared_ptr has a custom deleter.
; Therefore, we also show the actual members.
; Look at what std::tr1::shared_ptr<T> > [actual members] > std::tr1::_Ptr_base<T> > _Rep points to.
; Default deleter: std::tr1::_Ref_count<T>
; Custom deleter: std::tr1::_Ref_count_d<T, D> > _Dtor
#([actual members] : [$e,!])
)
)
)
}
;------------------------------------------------------------------------------
; std::tr1::weak_ptr
;------------------------------------------------------------------------------
std::tr1::weak_ptr<*>{
preview (
#if ($e._Ptr == 0) (
"empty"
) #elif ($e._Rep->_Uses == 0) (
; weak_ptr is just like shared_ptr, except that a weak_ptr can be expired.
"expired"
) #else (
#(
"weak_ptr ",
*$e._Ptr,
" [",
$e._Rep->_Uses,
#if ($e._Rep->_Uses == 1) (" strong ref") #else (" strong refs"),
#if ($e._Rep->_Weaks - 1 > 0) (
#(
", ",
$e._Rep->_Weaks - 1,
#if ($e._Rep->_Weaks - 1 == 1) (" weak ref") #else (" weak refs")
)
),
"]"
)
)
)
children (
#if ($e._Ptr == 0) (
#array(expr: 0, size: 0)
) #elif ($e._Rep->_Uses == 0) (
; When a weak_ptr is expired, we make it appear to have no children.
#array(expr: 0, size: 0)
) #else (
#(
#([ptr] : $e._Ptr),
#([actual members] : [$e,!])
)
)
)
}
;------------------------------------------------------------------------------
; std::tr1::tuple
;------------------------------------------------------------------------------
; tuple is visualized like pair, except that we have to give fake names to tuple's children.
std::tr1::tuple<std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil>{
preview (
"()"
)
children (
#array(expr: 0, size: 0)
)
}
std::tr1::tuple<*,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil>{
preview (
#(
"(", $e._Impl._Value,
")"
)
)
children (
#(
[0] : $e._Impl._Value
)
)
}
std::tr1::tuple<*,*,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil>{
preview (
#(
"(", $e._Impl._Value,
",", $e._Impl._Tail._Value,
")"
)
)
children (
#(
[0] : $e._Impl._Value,
[1] : $e._Impl._Tail._Value
)
)
}
std::tr1::tuple<*,*,*,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil>{
preview (
#(
"(", $e._Impl._Value,
",", $e._Impl._Tail._Value,
",", $e._Impl._Tail._Tail._Value,
")"
)
)
children (
#(
[0] : $e._Impl._Value,
[1] : $e._Impl._Tail._Value,
[2] : $e._Impl._Tail._Tail._Value
)
)
}
std::tr1::tuple<*,*,*,*,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil>{
preview (
#(
"(", $e._Impl._Value,
",", $e._Impl._Tail._Value,
",", $e._Impl._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Value,
")"
)
)
children (
#(
[0] : $e._Impl._Value,
[1] : $e._Impl._Tail._Value,
[2] : $e._Impl._Tail._Tail._Value,
[3] : $e._Impl._Tail._Tail._Tail._Value
)
)
}
std::tr1::tuple<*,*,*,*,*,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil>{
preview (
#(
"(", $e._Impl._Value,
",", $e._Impl._Tail._Value,
",", $e._Impl._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Value,
")"
)
)
children (
#(
[0] : $e._Impl._Value,
[1] : $e._Impl._Tail._Value,
[2] : $e._Impl._Tail._Tail._Value,
[3] : $e._Impl._Tail._Tail._Tail._Value,
[4] : $e._Impl._Tail._Tail._Tail._Tail._Value
)
)
}
std::tr1::tuple<*,*,*,*,*,*,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil>{
preview (
#(
"(", $e._Impl._Value,
",", $e._Impl._Tail._Value,
",", $e._Impl._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Value,
")"
)
)
children (
#(
[0] : $e._Impl._Value,
[1] : $e._Impl._Tail._Value,
[2] : $e._Impl._Tail._Tail._Value,
[3] : $e._Impl._Tail._Tail._Tail._Value,
[4] : $e._Impl._Tail._Tail._Tail._Tail._Value,
[5] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Value
)
)
}
std::tr1::tuple<*,*,*,*,*,*,*,std::tr1::_Nil,std::tr1::_Nil,std::tr1::_Nil>{
preview (
#(
"(", $e._Impl._Value,
",", $e._Impl._Tail._Value,
",", $e._Impl._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Value,
")"
)
)
children (
#(
[0] : $e._Impl._Value,
[1] : $e._Impl._Tail._Value,
[2] : $e._Impl._Tail._Tail._Value,
[3] : $e._Impl._Tail._Tail._Tail._Value,
[4] : $e._Impl._Tail._Tail._Tail._Tail._Value,
[5] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Value,
[6] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Value
)
)
}
std::tr1::tuple<*,*,*,*,*,*,*,*,std::tr1::_Nil,std::tr1::_Nil>{
preview (
#(
"(", $e._Impl._Value,
",", $e._Impl._Tail._Value,
",", $e._Impl._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value,
")"
)
)
children (
#(
[0] : $e._Impl._Value,
[1] : $e._Impl._Tail._Value,
[2] : $e._Impl._Tail._Tail._Value,
[3] : $e._Impl._Tail._Tail._Tail._Value,
[4] : $e._Impl._Tail._Tail._Tail._Tail._Value,
[5] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Value,
[6] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Value,
[7] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value
)
)
}
std::tr1::tuple<*,*,*,*,*,*,*,*,*,std::tr1::_Nil>{
preview (
#(
"(", $e._Impl._Value,
",", $e._Impl._Tail._Value,
",", $e._Impl._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value,
")"
)
)
children (
#(
[0] : $e._Impl._Value,
[1] : $e._Impl._Tail._Value,
[2] : $e._Impl._Tail._Tail._Value,
[3] : $e._Impl._Tail._Tail._Tail._Value,
[4] : $e._Impl._Tail._Tail._Tail._Tail._Value,
[5] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Value,
[6] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Value,
[7] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value,
[8] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value
)
)
}
std::tr1::tuple<*,*,*,*,*,*,*,*,*,*>{
preview (
#(
"(", $e._Impl._Value,
",", $e._Impl._Tail._Value,
",", $e._Impl._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value,
",", $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value,
")"
)
)
children (
#(
[0] : $e._Impl._Value,
[1] : $e._Impl._Tail._Value,
[2] : $e._Impl._Tail._Tail._Value,
[3] : $e._Impl._Tail._Tail._Tail._Value,
[4] : $e._Impl._Tail._Tail._Tail._Tail._Value,
[5] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Value,
[6] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Value,
[7] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value,
[8] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value,
[9] : $e._Impl._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Tail._Value
)
)
}
;------------------------------------------------------------------------------
; std::tr1::array
;------------------------------------------------------------------------------
std::tr1::array<*>{
preview (
; An actual array is previewed with its address.
; array<T, N> is previewed like vector<T>.
#(
"[",
$e._EEN_SIZE,
"](",
#array(expr: $e._Elems[$i], size: $e._EEN_SIZE),
")"
)
)
children (
; Just like an actual array.
#array(expr: $e._Elems[$i], size: $e._EEN_SIZE)
)
}
std::tr1::_Array_iterator<*>|std::tr1::_Array_const_iterator<*>{
preview (
#if ($e._Idx == $e._EEN_SIZE) (
; array iterators are represented by _Ptr + _Idx,
; and they know how large their parent arrays are. Therefore, detecting
; end iterators is trivial.
"end"
) #else (
; Like vector iterators, array iterators are previewed with what they point to.
$e._Ptr[$e._Idx]
)
)
children (
#if ($e._Idx == $e._EEN_SIZE) (
; We make end iterators appear to have no children.
#array(expr: 0, size: 0)
) #else (
; An array iterator is conceptually a pointer, so we make it appear to store one.
#([ptr] : $e._Ptr + $e._Idx)
)
)
}
;------------------------------------------------------------------------------
; std::tr1::function
;------------------------------------------------------------------------------
std::tr1::function<*>{
preview (
#if ($e._Impl == 0) (
; Detecting empty functions is trivial.
"empty"
) #else (
; The only thing that we can preview non-empty
; functions with is the fact that they are non-empty.
"full"
)
)
children (
#if ($e._Impl == 0) (
; We make empty functions appear to have no children.
#array(expr: 0, size: 0)
) #else (
; The callee is stored in (vaguely speaking) $e._Impl->_Callee._Object,
; but visualizers can't show this. Therefore, we show the actual members.
#([actual members] : [$e,!])
)
)
}
;------------------------------------------------------------------------------
; std::tr1::unordered_set
; std::tr1::unordered_multiset
; std::tr1::unordered_map
; std::tr1::unordered_multimap
;------------------------------------------------------------------------------
; See the stdext::hash_set visualizer.
;------------------------------------------------------------------------------
; std::tr1::basic_regex
;------------------------------------------------------------------------------
std::tr1::basic_regex<*>{
preview (
#if ($e._Rep == 0) (
; Default construction creates an empty basic_regex.
"empty"
) #elif ($e._EEN_VIS == 1) (
; By default, _ENHANCED_REGEX_VISUALIZER is defined to be 1 in debug and 0 in ship.
; When it is 1, basic_regex stores the string from which it was constructed.
; When it is 0, basic_regex stores only the resulting finite state machine.
$e._Visualization
) #else (
; basic_regex contains many static const flags, which would be shown in the preview by default.
; Its actual members are _Rep and _Traits. _Rep holds the finite state machine, so we
; use it to preview basic_regex. (It does contain some human-readable information.)
*$e._Rep
)
)
children (
#if ($e._Rep == 0) (
; We make empty basic_regexes appear to have no children.
#array(expr: 0, size: 0)
) #elif ($e._EEN_VIS == 1) (
; We want to hide those static const flags.
; We also want to give _Visualization a fake name.
#(
#([str] : $e._Visualization),
#(_Rep : $e._Rep),
#(_Traits : $e._Traits)
)
) #else (
; We want to hide those static const flags.
#(
_Rep : $e._Rep,
_Traits : $e._Traits
)
)
)
}
;------------------------------------------------------------------------------
; std::tr1::sub_match
;------------------------------------------------------------------------------
std::tr1::sub_match<char const *>|std::tr1::sub_match<wchar_t const *>|std::tr1::sub_match<unsigned short const *>{
preview (
; It would be nice if we could preview sub_match with its str().
; However, visualizers cannot handle strings represented by pointer pairs.
; Therefore, our preview contains more limited information.
#if ($e.matched) (
; If this sub_match participated in a match,
; we preview it with its length().
$e.second - $e.first
) #else (
; Otherwise, we preview it with its matched bool (i.e. "false").
; (Why not length() (i.e. "0")? It's meaningful to have
; matched == true and length() == 0.
"false"
)
)
children (
#(
; sub_match's three data members are public, but we list them here
; (a) to display matched before first and second, and
; (b) to gloss over the fact that sub_match derives from std::pair.
#(matched : $e.matched),
#(first : $e.first),
#(second : $e.second)
)
)
}
std::tr1::sub_match<std::_String_const_iterator<*> >{
preview (
#if ($e.matched) (
; We visualize ssub_match and wssub_match just like csub_match and wcsub_match,
; except that when determining the length(), we can't subtract iterators.
; We have to subtract their stored pointers.
$e.second._Myptr - $e.first._Myptr
) #else (
"false"
)
)
children (
#(
#(matched : $e.matched),
#(first : $e.first),
#(second : $e.second)
)
)
}
;------------------------------------------------------------------------------
; std::tr1::match_results
;------------------------------------------------------------------------------
std::tr1::match_results<*>{
preview (
; A match_results object is empty iff its vector _Matches is empty.
#if ($e._Matches._Myfirst == $e._Matches._Mylast) (
"empty"
) #else (
; We preview a non-empty match_results object with its vector.
$e._Matches
)
)
children (
#if ($e._Matches._Myfirst == $e._Matches._Mylast) (
; We make empty match_results appear to have no children.
#array(expr: 0, size: 0)
) #else (
; As match_results has operator[](), prefix(), and suffix() member functions,
; we make it appear to directly contain [0], [1], [2], etc. elements,
; as well as [prefix] and [suffix] elements.
#(
#array(expr: $e._Matches._Myfirst[$i], size: $e._Matches._Mylast - $e._Matches._Myfirst),
#([prefix] : $e._Prefix),
#([suffix] : $e._Suffix)
)
)
)
}
;------------------------------------------------------------------------------
; std::tr1::mem_fn()
;------------------------------------------------------------------------------
; Note that when mem_fn() is given a data member pointer, it returns a _Call_wrapper<_Callable_pmd<*> > .
; Data member pointers themselves don't have useful previews, so we don't attempt to visualize this.
; When mem_fn() is given a member function pointer, it returns a _Mem_fn[N], which we can visualize.
std::tr1::_Mem_fn1<*>|std::tr1::_Mem_fn2<*>|std::tr1::_Mem_fn3<*>|std::tr1::_Mem_fn4<*>|std::tr1::_Mem_fn5<*>|std::tr1::_Mem_fn6<*>|std::tr1::_Mem_fn7<*>|std::tr1::_Mem_fn8<*>|std::tr1::_Mem_fn9<*>|std::tr1::_Mem_fn10<*>{
preview (
; We preview the functor returned by mem_fn() with its stored member function pointer.
$e._Callee._Object
)
children (
; Member function pointers have no children.
#array(expr: 0, size: 0)
)
}
;------------------------------------------------------------------------------
; std::tr1::regex_iterator
;------------------------------------------------------------------------------
std::tr1::regex_iterator<*>{
preview (
#if ($e._MyRe == 0) (
; We represent end-of-sequence regex_iterators with null regex pointers.
"end"
) #else (
; Dereferenceable regex_iterators return match_results when dereferenced,
; so we'll preview them with that.
$e._MyVal
)
)
children (
#if ($e._MyRe == 0) (
; We make end-of-sequence regex_iterators appear to have no children.
#array(expr: 0, size: 0)
) #else (
; For ease of understanding, we make dereferenceable regex_iterators
; appear to have data members with the "for exposition only" names from TR1.
#(
#([begin] : $e._Begin),
#([end] : $e._End),
#([pregex] : $e._MyRe),
#([flags] : $e._Flags),
#([match] : $e._MyVal)
)
)
)
}
;------------------------------------------------------------------------------
; std::tr1::regex_token_iterator
;------------------------------------------------------------------------------
std::tr1::regex_token_iterator<*>{
preview (
#if ($e._Res == 0) (
; We represent end-of-sequence regex_token_iterators with null result pointers.
"end"
) #else (
; Dereferenceable regex_token_iterators return *result when dereferenced,
; so we'll preview them with that.
*$e._Res
)
)
children (
#if ($e._Res == 0) (
; We make end-of-sequence regex_token_iterators appear to have no children.
#array(expr: 0, size: 0)
) #else (
; For ease of understanding, we make dereferenceable regex_token_iterators
; appear to have data members with the "for exposition only" names from TR1.
#(
#([position] : $e._Pos),
#([result] : $e._Res),
#([suffix] : $e._Suffix),
#([N] : $e._Cur),
#([subs] : $e._Subs)
)
)
)
}
;------------------------------------------------------------------------------
; std::tr1::bind()
;------------------------------------------------------------------------------
; STL functors are previewed with their names.
; They have no state, so they have no children.
std::plus<*>{
preview ( "plus" )
children ( #array(expr: 0, size: 0) )
}
std::minus<*>{
preview ( "minus" )
children ( #array(expr: 0, size: 0) )
}
std::multiplies<*>{
preview ( "multiplies" )
children ( #array(expr: 0, size: 0) )
}
std::divides<*>{
preview ( "divides" )
children ( #array(expr: 0, size: 0) )
}
std::modulus<*>{
preview ( "modulus" )
children ( #array(expr: 0, size: 0) )
}
std::negate<*>{
preview ( "negate" )
children ( #array(expr: 0, size: 0) )
}
std::equal_to<*>{
preview ( "equal_to" )
children ( #array(expr: 0, size: 0) )
}
std::not_equal_to<*>{
preview ( "not_equal_to" )
children ( #array(expr: 0, size: 0) )
}
std::greater<*>{
preview ( "greater" )
children ( #array(expr: 0, size: 0) )
}
std::less<*>{
preview ( "less" )
children ( #array(expr: 0, size: 0) )
}
std::greater_equal<*>{
preview ( "greater_equal" )
children ( #array(expr: 0, size: 0) )
}
std::less_equal<*>{
preview ( "less_equal" )
children ( #array(expr: 0, size: 0) )
}
std::logical_and<*>{
preview ( "logical_and" )
children ( #array(expr: 0, size: 0) )
}
std::logical_or<*>{
preview ( "logical_or" )
children ( #array(expr: 0, size: 0) )
}
std::logical_not<*>{
preview ( "logical_not" )
children ( #array(expr: 0, size: 0) )
}
; STL function pointer adaptors are previewed with "ptr_fun(<stored function pointer>)".
; Function pointers have no children, so the adaptors have no children.
std::pointer_to_unary_function<*>|std::pointer_to_binary_function<*>{
preview (
#(
"ptr_fun(",
$e._Pfun,
")"
)
)
children ( #array(expr: 0, size: 0) )
}
; STL negators are previewed with "not[12](<stored functor>)".
; They have a child with the fake name of [pred], so that the
; stored functor can be inspected.
std::unary_negate<*>{
preview (
#(
"not1(",
$e._Functor,
")"
)
)
children (
#([pred] : $e._Functor)
)
}
std::binary_negate<*>{
preview (
#(
"not2(",
$e._Functor,
")"
)
)
children (
#([pred] : $e._Functor)
)
}
; bind() placeholders are previewed with their names.
; They have no state, so they have no children.
std::tr1::_Ph<1>{
preview ( "_1" )
children ( #array(expr: 0, size: 0) )
}
std::tr1::_Ph<2>{
preview ( "_2" )
children ( #array(expr: 0, size: 0) )
}
std::tr1::_Ph<3>{
preview ( "_3" )
children ( #array(expr: 0, size: 0) )
}
std::tr1::_Ph<4>{
preview ( "_4" )
children ( #array(expr: 0, size: 0) )
}
std::tr1::_Ph<5>{
preview ( "_5" )
children ( #array(expr: 0, size: 0) )
}
std::tr1::_Ph<6>{
preview ( "_6" )
children ( #array(expr: 0, size: 0) )
}
std::tr1::_Ph<7>{
preview ( "_7" )
children ( #array(expr: 0, size: 0) )
}
std::tr1::_Ph<8>{
preview ( "_8" )
children ( #array(expr: 0, size: 0) )
}
std::tr1::_Ph<9>{
preview ( "_9" )
children ( #array(expr: 0, size: 0) )
}
std::tr1::_Ph<10>{
preview ( "_10" )
children ( #array(expr: 0, size: 0) )
}
; The functor returned by bind(f, t1, t2) is previewed with "bind(f, t1, t2)".
; It has children with the fake names of [f], [t1], [t2], etc.
std::tr1::_Bind<std::tr1::_Notforced,std::tr1::_Bind0<*> >{
preview (
#(