From b691c43c44ff180d10e7d4a9afc83b98551ff586 Mon Sep 17 00:00:00 2001 From: daoge_cmd <3523206925@qq.com> Date: Sun, 1 Mar 2026 12:16:08 +0800 Subject: Initial commit --- Minecraft.Client/PS3/PS3Extras/DirectX/sal.h | 1998 ++++++++++++++++++++++++++ 1 file changed, 1998 insertions(+) create mode 100644 Minecraft.Client/PS3/PS3Extras/DirectX/sal.h (limited to 'Minecraft.Client/PS3/PS3Extras/DirectX/sal.h') diff --git a/Minecraft.Client/PS3/PS3Extras/DirectX/sal.h b/Minecraft.Client/PS3/PS3Extras/DirectX/sal.h new file mode 100644 index 00000000..3576d7ed --- /dev/null +++ b/Minecraft.Client/PS3/PS3Extras/DirectX/sal.h @@ -0,0 +1,1998 @@ +/*** +*sal.h - markers for documenting the semantics of APIs +* +* Copyright (c) Microsoft Corporation. All rights reserved. +* +*Purpose: +* sal.h provides a set of annotations to describe how a function uses its +* parameters - the assumptions it makes about them, and the guarantees it makes +* upon finishing. +* +* [Public] +* +****/ + +#pragma once +/*========================================================================== + + The macros are defined in 3 layers: + + _In_\_Out_ Layer: + ---------------- + This layer provides the highest abstraction and its macros should be used + in most cases. Its macros start with _In_, _Out_ or _Inout_. For the + typical case they provide the most concise annotations. + + _Pre_\_Post_ Layer: + ------------------ + The macros of this layer only should be used when there is no suitable macro + in the _In_\_Out_ layer. Its macros start with _Pre_, _Post_, _Ret_, + _Deref_pre_ _Deref_post_ and _Deref_ret_. This layer provides the most + flexibility for annotations. + + Implementation Abstraction Layer: + -------------------------------- + Macros from this layer should never be used directly. The layer only exists + to hide the implementation of the annotation macros. + + + Annotation Syntax: + |--------------|----------|----------------|-----------------------------| + | Usage | Nullness | ZeroTerminated | Extent | + |--------------|----------|----------------|-----------------------------| + | _In_ | <> | <> | <> | + | _Out_ | opt_ | z_ | [byte]cap_[c_|x_]( size ) | + | _Inout_ | | | [byte]count_[c_|x_]( size ) | + | _Deref_out_ | | | ptrdiff_cap_( ptr ) | + |--------------| | | ptrdiff_count_( ptr ) | + | _Ret_ | | | | + | _Deref_ret_ | | | | + |--------------| | | | + | _Pre_ | | | | + | _Post_ | | | | + | _Deref_pre_ | | | | + | _Deref_post_ | | | | + |--------------|----------|----------------|-----------------------------| + + Usage: + ----- + _In_, _Out_, _Inout_, _Pre_, _Post_, _Deref_pre_, _Deref_post_ are for + formal parameters. + _Ret_, _Deref_ret_ must be used for return values. + + Nullness: + -------- + If the pointer can be NULL the annotation contains _opt. If the macro + does not contain '_opt' the pointer may not be NULL. + + String Type: + ----------- + _z: NullTerminated string + for _In_ parameters the buffer must have the specified stringtype before the call + for _Out_ parameters the buffer must have the specified stringtype after the call + for _Inout_ parameters both conditions apply + + Extent Syntax: + |------|---------------|---------------| + | Unit | Writ\Readable | Argument Type | + |------|---------------|---------------| + | <> | cap_ | <> | + | byte | count_ | c_ | + | | | x_ | + |------|---------------|---------------| + + 'cap' (capacity) describes the writable size of the buffer and is typically used + with _Out_. The default unit is elements. Use 'bytecap' if the size is given in bytes + 'count' describes the readable size of the buffer and is typically used with _In_. + The default unit is elements. Use 'bytecount' if the size is given in bytes. + + Argument syntax for cap_, bytecap_, count_, bytecount_: + (|return)[+n] e.g. cch, return, cb+2 + + If the buffer size is a constant expression use the c_ postfix. + E.g. cap_c_(20), count_c_(MAX_PATH), bytecount_c_(16) + + If the buffer size is given by a limiting pointer use the ptrdiff_ versions + of the macros. + + If the buffer size is neither a parameter nor a constant expression use the x_ + postfix. e.g. bytecount_x_(num*size) x_ annotations accept any arbitrary string. + No analysis can be done for x_ annotations but they at least tell the tool that + the buffer has some sort of extent description. x_ annotations might be supported + by future compiler versions. + +============================================================================*/ + +#define __ATTR_SAL + +#ifdef _PREFAST_ +// choose attribute or __declspec implementation +#ifndef _USE_DECLSPECS_FOR_SAL +#define _USE_DECLSPECS_FOR_SAL 0 +#endif + +#if _USE_DECLSPECS_FOR_SAL +#undef _USE_ATTRIBUTES_FOR_SAL +#define _USE_ATTRIBUTES_FOR_SAL 0 +#elif !defined(_USE_ATTRIBUTES_FOR_SAL) +#if _MSC_VER >= 1500 +#define _USE_ATTRIBUTES_FOR_SAL 1 +#else +#define _USE_ATTRIBUTES_FOR_SAL 0 +#endif // if _MSC_VER >= 1400 +#endif // if _USE_DECLSPECS_FOR_SAL + + +#if !_USE_DECLSPECS_FOR_SAL +#if !_USE_ATTRIBUTES_FOR_SAL +#if _MSC_VER >= 1500 +#undef _USE_ATTRIBUTES_FOR_SAL +#define _USE_ATTRIBUTES_FOR_SAL 1 +#else +#undef _USE_DECLSPECS_FOR_SAL +#define _USE_DECLSPECS_FOR_SAL 1 +#endif // _MSC_VER >= 1400 +#endif // !_USE_ATTRIBUTES_FOR_SAL +#endif // !_USE_DECLSPECS_FOR_SAL + +#endif // #ifdef _PREFAST_ + +// Disable expansion of SAL macros in non-Prefast mode to +// improve compiler throughput. +#ifndef _USE_DECLSPECS_FOR_SAL +#define _USE_DECLSPECS_FOR_SAL 0 +#endif +#ifndef _USE_ATTRIBUTES_FOR_SAL +#define _USE_ATTRIBUTES_FOR_SAL 0 +#endif + +// safeguard for MIDL and RC builds +#if _USE_DECLSPECS_FOR_SAL && ( defined( MIDL_PASS ) || defined(__midl) || defined(RC_INVOKED) || !defined(_PREFAST_) ) +#undef _USE_DECLSPECS_FOR_SAL +#define _USE_DECLSPECS_FOR_SAL 0 +#endif +#if _USE_ATTRIBUTES_FOR_SAL && ( !defined(_MSC_EXTENSIONS) || defined( MIDL_PASS ) || defined(__midl) || defined(RC_INVOKED) ) +#undef _USE_ATTRIBUTES_FOR_SAL +#define _USE_ATTRIBUTES_FOR_SAL 0 +#endif + +#if defined(_MSC_EXTENSIONS) && !defined( MIDL_PASS ) && !defined(__midl) && !defined(RC_INVOKED) +#include "codeanalysis\sourceannotations.h" +#endif + +//============================================================================ +// _In_\_Out_ Layer: +//============================================================================ + +// 'in' parameters -------------------------- + +// input pointer parameter +// e.g. void SetPoint( _In_ const POINT* pPT ); +#define _In_ _Pre1_impl_(_$notnull) _Deref_pre2_impl_(_$valid, _$readaccess) +#define _In_opt_ _Pre_opt_valid_ _Deref_pre_readonly_ + +// nullterminated 'in' parameters. +// e.g. void CopyStr( _In_z_ const char* szFrom, _Out_z_cap_(cchTo) char* szTo, size_t cchTo ); +#define _In_z_ _Pre_z_ _Deref_pre_readonly_ +#define _In_opt_z_ _Pre_opt_z_ _Deref_pre_readonly_ + +// 'input' buffers with given size + +// e.g. void SetCharRange( _In_count_(cch) const char* rgch, size_t cch ) +// valid buffer extent described by another parameter +#define _In_count_(size) _Pre_count_(size) _Deref_pre_readonly_ +#define _In_opt_count_(size) _Pre_opt_count_(size) _Deref_pre_readonly_ +#define _In_bytecount_(size) _Pre_bytecount_(size) _Deref_pre_readonly_ +#define _In_opt_bytecount_(size) _Pre_opt_bytecount_(size) _Deref_pre_readonly_ + +// valid buffer extent described by a constant extression +#define _In_count_c_(size) _Pre_count_c_(size) _Deref_pre_readonly_ +#define _In_opt_count_c_(size) _Pre_opt_count_c_(size) _Deref_pre_readonly_ +#define _In_bytecount_c_(size) _Pre_bytecount_c_(size) _Deref_pre_readonly_ +#define _In_opt_bytecount_c_(size) _Pre_opt_bytecount_c_(size) _Deref_pre_readonly_ + +// nullterminated 'input' buffers with given size + +// e.g. void SetCharRange( _In_count_(cch) const char* rgch, size_t cch ) +// nullterminated valid buffer extent described by another parameter +#define _In_z_count_(size) _Pre_z_ _Pre_count_(size) _Deref_pre_readonly_ +#define _In_opt_z_count_(size) _Pre_opt_z_ _Pre_opt_count_(size) _Deref_pre_readonly_ +#define _In_z_bytecount_(size) _Pre_z_ _Pre_bytecount_(size) _Deref_pre_readonly_ +#define _In_opt_z_bytecount_(size) _Pre_opt_z_ _Pre_opt_bytecount_(size) _Deref_pre_readonly_ + +// nullterminated valid buffer extent described by a constant extression +#define _In_z_count_c_(size) _Pre_z_ _Pre_count_c_(size) _Deref_pre_readonly_ +#define _In_opt_z_count_c_(size) _Pre_opt_z_ _Pre_opt_count_c_(size) _Deref_pre_readonly_ +#define _In_z_bytecount_c_(size) _Pre_z_ _Pre_bytecount_c_(size) _Deref_pre_readonly_ +#define _In_opt_z_bytecount_c_(size) _Pre_opt_z_ _Pre_opt_bytecount_c_(size) _Deref_pre_readonly_ + +// buffer capacity is described by another pointer +// e.g. void Foo( _In_ptrdiff_count_(pchMax) const char* pch, const char* pchMax ) { while pch < pchMax ) pch++; } +#define _In_ptrdiff_count_(size) _Pre_ptrdiff_count_(size) _Deref_pre_readonly_ +#define _In_opt_ptrdiff_count_(size) _Pre_opt_ptrdiff_count_(size) _Deref_pre_readonly_ + +// 'x' version for complex expressions that are not supported by the current compiler version +// e.g. void Set3ColMatrix( _In_count_x_(3*cRows) const Elem* matrix, int cRows ); +#define _In_count_x_(size) _Pre_count_x_(size) _Deref_pre_readonly_ +#define _In_opt_count_x_(size) _Pre_opt_count_x_(size) _Deref_pre_readonly_ +#define _In_bytecount_x_(size) _Pre_bytecount_x_(size) _Deref_pre_readonly_ +#define _In_opt_bytecount_x_(size) _Pre_opt_bytecount_x_(size) _Deref_pre_readonly_ + +// 'out' parameters -------------------------- + +// output pointer parameter +// e.g. void GetPoint( _Out_ POINT* pPT ); +#define _Out_ _Pre_cap_c_(1) _Pre_invalid_ +#define _Out_opt_ _Pre_opt_cap_c_(1) _Pre_invalid_ + +// 'out' with buffer size +// e.g. void GetIndeces( _Out_cap_(cIndeces) int* rgIndeces, size_t cIndices ); +// buffer capacity is described by another parameter +#define _Out_cap_(size) _Pre_cap_(size) _Pre_invalid_ +#define _Out_opt_cap_(size) _Pre_opt_cap_(size) _Pre_invalid_ +#define _Out_bytecap_(size) _Pre_bytecap_(size) _Pre_invalid_ +#define _Out_opt_bytecap_(size) _Pre_opt_bytecap_(size) _Pre_invalid_ + +// buffer capacity is described by a constant expression +#define _Out_cap_c_(size) _Pre_cap_c_(size) _Pre_invalid_ +#define _Out_opt_cap_c_(size) _Pre_opt_cap_c_(size) _Pre_invalid_ +#define _Out_bytecap_c_(size) _Pre_bytecap_c_(size) _Pre_invalid_ +#define _Out_opt_bytecap_c_(size) _Pre_opt_bytecap_c_(size) _Pre_invalid_ + +// buffer capacity is described by another parameter multiplied by a constant expression +#define _Out_cap_m_(mult,size) _Pre_cap_m_(mult,size) _Pre_invalid_ +#define _Out_opt_cap_m_(mult,size) _Pre_opt_cap_m_(mult,size) _Pre_invalid_ +#define _Out_z_cap_m_(mult,size) _Pre_cap_m_(mult,size) _Pre_invalid_ _Post_z_ +#define _Out_opt_z_cap_m_(mult,size) _Pre_opt_cap_m_(mult,size) _Pre_invalid_ _Post_z_ + +// buffer capacity is described by another pointer +// e.g. void Foo( _Out_ptrdiff_cap_(pchMax) char* pch, const char* pchMax ) { while pch < pchMax ) pch++; } +#define _Out_ptrdiff_cap_(size) _Pre_ptrdiff_cap_(size) _Pre_invalid_ +#define _Out_opt_ptrdiff_cap_(size) _Pre_opt_ptrdiff_cap_(size) _Pre_invalid_ + +// buffer capacity is described by a complex expression +#define _Out_cap_x_(size) _Pre_cap_x_(size) _Pre_invalid_ +#define _Out_opt_cap_x_(size) _Pre_opt_cap_x_(size) _Pre_invalid_ +#define _Out_bytecap_x_(size) _Pre_bytecap_x_(size) _Pre_invalid_ +#define _Out_opt_bytecap_x_(size) _Pre_opt_bytecap_x_(size) _Pre_invalid_ + +// a zero terminated string is filled into a buffer of given capacity +// e.g. void CopyStr( _In_z_ const char* szFrom, _Out_z_cap_(cchTo) char* szTo, size_t cchTo ); +// buffer capacity is described by another parameter +#define _Out_z_cap_(size) _Pre_cap_(size) _Pre_invalid_ _Post_z_ +#define _Out_opt_z_cap_(size) _Pre_opt_cap_(size) _Pre_invalid_ _Post_z_ +#define _Out_z_bytecap_(size) _Pre_bytecap_(size) _Pre_invalid_ _Post_z_ +#define _Out_opt_z_bytecap_(size) _Pre_opt_bytecap_(size) _Pre_invalid_ _Post_z_ + +// buffer capacity is described by a constant expression +#define _Out_z_cap_c_(size) _Pre_cap_c_(size) _Pre_invalid_ _Post_z_ +#define _Out_opt_z_cap_c_(size) _Pre_opt_cap_c_(size) _Pre_invalid_ _Post_z_ +#define _Out_z_bytecap_c_(size) _Pre_bytecap_c_(size) _Pre_invalid_ _Post_z_ +#define _Out_opt_z_bytecap_c_(size) _Pre_opt_bytecap_c_(size) _Pre_invalid_ _Post_z_ + +// buffer capacity is described by a complex expression +#define _Out_z_cap_x_(size) _Pre_cap_x_(size) _Pre_invalid_ _Post_z_ +#define _Out_opt_z_cap_x_(size) _Pre_opt_cap_x_(size) _Pre_invalid_ _Post_z_ +#define _Out_z_bytecap_x_(size) _Pre_bytecap_x_(size) _Pre_invalid_ _Post_z_ +#define _Out_opt_z_bytecap_x_(size) _Pre_opt_bytecap_x_(size) _Pre_invalid_ _Post_z_ + +// a zero terminated string is filled into a buffer of given capacity +// e.g. size_t CopyCharRange( _In_count_(cchFrom) const char* rgchFrom, size_t cchFrom, _Out_cap_post_count_(cchTo,return)) char* rgchTo, size_t cchTo ); +#define _Out_cap_post_count_(cap,count) _Pre_cap_(cap) _Pre_invalid_ _Post_count_(count) +#define _Out_opt_cap_post_count_(cap,count) _Pre_opt_cap_(cap) _Pre_invalid_ _Post_count_(count) +#define _Out_bytecap_post_bytecount_(cap,count) _Pre_bytecap_(cap) _Pre_invalid_ _Post_bytecount_(count) +#define _Out_opt_bytecap_post_bytecount_(cap,count) _Pre_opt_bytecap_(cap) _Pre_invalid_ _Post_bytecount_(count) + +// a zero terminated string is filled into a buffer of given capacity +// e.g. size_t CopyStr( _In_z_ const char* szFrom, _Out_z_cap_post_count_(cchTo,return+1) char* szTo, size_t cchTo ); +#define _Out_z_cap_post_count_(cap,count) _Pre_cap_(cap) _Pre_invalid_ _Post_z_count_(count) +#define _Out_opt_z_cap_post_count_(cap,count) _Pre_opt_cap_(cap) _Pre_invalid_ _Post_z_count_(count) +#define _Out_z_bytecap_post_bytecount_(cap,count) _Pre_bytecap_(cap) _Pre_invalid_ _Post_z_bytecount_(count) +#define _Out_opt_z_bytecap_post_bytecount_(cap,count) _Pre_opt_bytecap_(cap) _Pre_invalid_ _Post_z_bytecount_(count) + +// only use with dereferenced arguments e.g. '*pcch' +#define _Out_capcount_(capcount) _Pre_cap_(capcount) _Pre_invalid_ _Post_count_(capcount) +#define _Out_opt_capcount_(capcount) _Pre_opt_cap_(capcount) _Pre_invalid_ _Post_count_(capcount) +#define _Out_bytecapcount_(capcount) _Pre_bytecap_(capcount) _Pre_invalid_ _Post_bytecount_(capcount) +#define _Out_opt_bytecapcount_(capcount) _Pre_opt_bytecap_(capcount) _Pre_invalid_ _Post_bytecount_(capcount) + +#define _Out_capcount_x_(capcount) _Pre_cap_x_(capcount) _Pre_invalid_ _Post_count_x_(capcount) +#define _Out_opt_capcount_x_(capcount) _Pre_opt_cap_x_(capcount) _Pre_invalid_ _Post_count_x_(capcount) +#define _Out_bytecapcount_x_(capcount) _Pre_bytecap_x_(capcount) _Pre_invalid_ _Post_bytecount_x_(capcount) +#define _Out_opt_bytecapcount_x_(capcount) _Pre_opt_bytecap_x_(capcount) _Pre_invalid_ _Post_bytecount_x_(capcount) + +// e.g. GetString( _Out_z_capcount_(*pLen+1) char* sz, size_t* pLen ); +#define _Out_z_capcount_(capcount) _Pre_cap_(capcount) _Pre_invalid_ _Post_z_count_(capcount) +#define _Out_opt_z_capcount_(capcount) _Pre_opt_cap_(capcount) _Pre_invalid_ _Post_z_count_(capcount) +#define _Out_z_bytecapcount_(capcount) _Pre_bytecap_(capcount) _Pre_invalid_ _Post_z_bytecount_(capcount) +#define _Out_opt_z_bytecapcount_(capcount) _Pre_opt_bytecap_(capcount) _Pre_invalid_ _Post_z_bytecount_(capcount) + +// inout parameters ---------------------------- + +// inout pointer parameter +// e.g. void ModifyPoint( _Inout_ POINT* pPT ); +#define _Inout_ _Prepost_valid_ +#define _Inout_opt_ _Prepost_opt_valid_ + +// string buffers +// e.g. void toupper( _Inout_z_ char* sz ); +#define _Inout_z_ _Prepost_z_ +#define _Inout_opt_z_ _Prepost_opt_z_ + +// 'inout' buffers with initialized elements before and after the call +// e.g. void ModifyIndices( _Inout_count_(cIndices) int* rgIndeces, size_t cIndices ); +#define _Inout_count_(size) _Prepost_count_(size) +#define _Inout_opt_count_(size) _Prepost_opt_count_(size) +#define _Inout_bytecount_(size) _Prepost_bytecount_(size) +#define _Inout_opt_bytecount_(size) _Prepost_opt_bytecount_(size) + +#define _Inout_count_c_(size) _Prepost_count_c_(size) +#define _Inout_opt_count_c_(size) _Prepost_opt_count_c_(size) +#define _Inout_bytecount_c_(size) _Prepost_bytecount_c_(size) +#define _Inout_opt_bytecount_c_(size) _Prepost_opt_bytecount_c_(size) + +// nullterminated 'inout' buffers with initialized elements before and after the call +// e.g. void ModifyIndices( _Inout_count_(cIndices) int* rgIndeces, size_t cIndices ); +#define _Inout_z_count_(size) _Prepost_z_ _Prepost_count_(size) +#define _Inout_opt_z_count_(size) _Prepost_z_ _Prepost_opt_count_(size) +#define _Inout_z_bytecount_(size) _Prepost_z_ _Prepost_bytecount_(size) +#define _Inout_opt_z_bytecount_(size) _Prepost_z_ _Prepost_opt_bytecount_(size) + +#define _Inout_z_count_c_(size) _Prepost_z_ _Prepost_count_c_(size) +#define _Inout_opt_z_count_c_(size) _Prepost_z_ _Prepost_opt_count_c_(size) +#define _Inout_z_bytecount_c_(size) _Prepost_z_ _Prepost_bytecount_c_(size) +#define _Inout_opt_z_bytecount_c_(size) _Prepost_z_ _Prepost_opt_bytecount_c_(size) + +#define _Inout_ptrdiff_count_(size) _Pre_ptrdiff_count_(size) +#define _Inout_opt_ptrdiff_count_(size) _Pre_opt_ptrdiff_count_(size) + +#define _Inout_count_x_(size) _Prepost_count_x_(size) +#define _Inout_opt_count_x_(size) _Prepost_opt_count_x_(size) +#define _Inout_bytecount_x_(size) _Prepost_bytecount_x_(size) +#define _Inout_opt_bytecount_x_(size) _Prepost_opt_bytecount_x_(size) + +// e.g. void AppendToLPSTR( _In_ LPCSTR szFrom, _Inout_cap_(cchTo) LPSTR* szTo, size_t cchTo ); +#define _Inout_cap_(size) _Pre_valid_cap_(size) _Post_valid_ +#define _Inout_opt_cap_(size) _Pre_opt_valid_cap_(size) _Post_valid_ +#define _Inout_bytecap_(size) _Pre_valid_bytecap_(size) _Post_valid_ +#define _Inout_opt_bytecap_(size) _Pre_opt_valid_bytecap_(size) _Post_valid_ + +#define _Inout_cap_c_(size) _Pre_valid_cap_c_(size) _Post_valid_ +#define _Inout_opt_cap_c_(size) _Pre_opt_valid_cap_c_(size) _Post_valid_ +#define _Inout_bytecap_c_(size) _Pre_valid_bytecap_c_(size) _Post_valid_ +#define _Inout_opt_bytecap_c_(size) _Pre_opt_valid_bytecap_c_(size) _Post_valid_ + +#define _Inout_cap_x_(size) _Pre_valid_cap_x_(size) _Post_valid_ +#define _Inout_opt_cap_x_(size) _Pre_opt_valid_cap_x_(size) _Post_valid_ +#define _Inout_bytecap_x_(size) _Pre_valid_bytecap_x_(size) _Post_valid_ +#define _Inout_opt_bytecap_x_(size) _Pre_opt_valid_bytecap_x_(size) _Post_valid_ + +// inout string buffers with writable size +// e.g. void AppendStr( _In_z_ const char* szFrom, _Inout_z_cap_(cchTo) char* szTo, size_t cchTo ); +#define _Inout_z_cap_(size) _Pre_z_cap_(size) _Post_z_ +#define _Inout_opt_z_cap_(size) _Pre_opt_z_cap_(size) _Post_z_ +#define _Inout_z_bytecap_(size) _Pre_z_bytecap_(size) _Post_z_ +#define _Inout_opt_z_bytecap_(size) _Pre_opt_z_bytecap_(size) _Post_z_ + +#define _Inout_z_cap_c_(size) _Pre_z_cap_c_(size) _Post_z_ +#define _Inout_opt_z_cap_c_(size) _Pre_opt_z_cap_c_(size) _Post_z_ +#define _Inout_z_bytecap_c_(size) _Pre_z_bytecap_c_(size) _Post_z_ +#define _Inout_opt_z_bytecap_c_(size) _Pre_opt_z_bytecap_c_(size) _Post_z_ + +#define _Inout_z_cap_x_(size) _Pre_z_cap_x_(size) _Post_z_ +#define _Inout_opt_z_cap_x_(size) _Pre_opt_z_cap_x_(size) _Post_z_ +#define _Inout_z_bytecap_x_(size) _Pre_z_bytecap_x_(size) _Post_z_ +#define _Inout_opt_z_bytecap_x_(size) _Pre_opt_z_bytecap_x_(size) _Post_z_ + +// return values ------------------------------- + +// returning pointers to valid objects +#define _Ret_ _Ret_valid_ +#define _Ret_opt_ _Ret_opt_valid_ + +// More _Ret_ annotations are defined below + +// Pointer to pointers ------------------------- + +// e.g. HRESULT HrCreatePoint( _Deref_out_opt_ POINT** ppPT ); +#define _Deref_out_ _Out_ _Deref_pre_invalid_ _Deref_post_valid_ +#define _Deref_out_opt_ _Out_ _Deref_pre_invalid_ _Deref_post_opt_valid_ +#define _Deref_opt_out_ _Out_opt_ _Deref_pre_invalid_ _Deref_post_valid_ +#define _Deref_opt_out_opt_ _Out_opt_ _Deref_pre_invalid_ _Deref_post_opt_valid_ + +// e.g. void CloneString( _In_z_ const wchar_t* wzFrom, _Deref_out_z_ wchar_t** pWzTo ); +#define _Deref_out_z_ _Out_ _Deref_pre_invalid_ _Deref_post_z_ +#define _Deref_out_opt_z_ _Out_ _Deref_pre_invalid_ _Deref_post_opt_z_ +#define _Deref_opt_out_z_ _Out_opt_ _Deref_pre_invalid_ _Deref_post_z_ +#define _Deref_opt_out_opt_z_ _Out_opt_ _Deref_pre_invalid_ _Deref_post_opt_z_ + +// More _Deref_ annotations are defined below + +// Other annotations + +// Check the return value of a function e.g. _Check_return_ ErrorCode Foo(); +#define _Check_return_ _Check_return_impl_ + +// e.g. MyPrintF( _Printf_format_string_ const wchar_t* wzFormat, ... ); +#define _Printf_format_string_ _Printf_format_string_impl_ +#define _Scanf_format_string_ _Scanf_format_string_impl_ +#define _Scanf_s_format_string_ _Scanf_s_format_string_impl_ +#define _FormatMessage_format_string_ + +// indicates whether post conditions apply +#define _Success_(expr) _Success_impl_(expr) + +// annotations to express 'boundedness' of integral value parameter +#define _In_bound_ _In_bound_impl_ +#define _Out_bound_ _Out_bound_impl_ +#define _Ret_bound_ _Ret_bound_impl_ +#define _Deref_in_bound_ _Deref_in_bound_impl_ +#define _Deref_out_bound_ _Deref_out_bound_impl_ +#define _Deref_inout_bound_ _Deref_in_bound_ _Deref_out_bound_ +#define _Deref_ret_bound_ _Deref_ret_bound_impl_ + +// annotations to express upper and lower bounds of integral value parameter +#define _In_range_(lb,ub) _In_range_impl_(lb,ub) +#define _Out_range_(lb,ub) _Out_range_impl_(lb,ub) +#define _Ret_range_(lb,ub) _Ret_range_impl_(lb,ub) +#define _Deref_in_range_(lb,ub) _Deref_in_range_impl_(lb,ub) +#define _Deref_out_range_(lb,ub) _Deref_out_range_impl_(lb,ub) +#define _Deref_ret_range_(lb,ub) _Deref_ret_range_impl_(lb,ub) + +//============================================================================ +// _Pre_\_Post_ Layer: +//============================================================================ + +// +// _Pre_ annotation --- +// +// describing conditions that must be met before the call of the function + +// e.g. int strlen( _Pre_z_ const char* sz ); +// buffer is a zero terminated string +#define _Pre_z_ _Pre2_impl_(_$notnull, _$zterm) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_z_ _Pre2_impl_(_$maybenull,_$zterm) _Deref_pre1_impl_(_$valid) + +// e.g. void FreeMemory( _Pre_bytecap_(cb) _Post_ptr_invalid_ void* pv, size_t cb ); +// buffer capacity described by another parameter +#define _Pre_cap_(size) _Pre2_impl_(_$notnull, _$cap(size)) +#define _Pre_opt_cap_(size) _Pre2_impl_(_$maybenull,_$cap(size)) +#define _Pre_bytecap_(size) _Pre2_impl_(_$notnull, _$bytecap(size)) +#define _Pre_opt_bytecap_(size) _Pre2_impl_(_$maybenull,_$bytecap(size)) + +// buffer capacity described by a constant expression +#define _Pre_cap_c_(size) _Pre2_impl_(_$notnull, _$cap_c(size)) +#define _Pre_opt_cap_c_(size) _Pre2_impl_(_$maybenull,_$cap_c(size)) +#define _Pre_bytecap_c_(size) _Pre2_impl_(_$notnull, _$bytecap_c(size)) +#define _Pre_opt_bytecap_c_(size) _Pre2_impl_(_$maybenull,_$bytecap_c(size)) + +// buffer capacity is described by another parameter multiplied by a constant expression +#define _Pre_cap_m_(mult,size) _Pre2_impl_(_$notnull, _$mult(mult,size)) +#define _Pre_opt_cap_m_(mult,size) _Pre2_impl_(_$maybenull,_$mult(mult,size)) + +// buffer capacity described by size of other buffer, only used by dangerous legacy APIs +// e.g. int strcpy(_Pre_cap_for_(src) char* dst, const char* src); +#define _Pre_cap_for_(param) _Pre2_impl_(_$notnull, _$cap_for(param)) +#define _Pre_opt_cap_for_(param) _Pre2_impl_(_$maybenull,_$cap_for(param)) + +// buffer capacity described by a complex condition +#define _Pre_cap_x_(size) _Pre2_impl_(_$notnull, _$cap_x(size)) +#define _Pre_opt_cap_x_(size) _Pre2_impl_(_$maybenull,_$cap_x(size)) +#define _Pre_bytecap_x_(size) _Pre2_impl_(_$notnull, _$bytecap_x(size)) +#define _Pre_opt_bytecap_x_(size) _Pre2_impl_(_$maybenull,_$bytecap_x(size)) + +// buffer capacity described by the difference to another pointer parameter +#define _Pre_ptrdiff_cap_(ptr) _Pre2_impl_(_$notnull, _$cap_x(__ptrdiff(ptr))) +#define _Pre_opt_ptrdiff_cap_(ptr) _Pre2_impl_(_$maybenull,_$cap_x(__ptrdiff(ptr))) + +// e.g. void AppendStr( _Pre_z_ const char* szFrom, _Pre_z_cap_(cchTo) _Post_z_ char* szTo, size_t cchTo ); +#define _Pre_z_cap_(size) _Pre3_impl_(_$notnull, _$zterm,_$cap(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_z_cap_(size) _Pre3_impl_(_$maybenull,_$zterm,_$cap(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_z_bytecap_(size) _Pre3_impl_(_$notnull, _$zterm,_$bytecap(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_z_bytecap_(size) _Pre3_impl_(_$maybenull,_$zterm,_$bytecap(size)) _Deref_pre1_impl_(_$valid) + +#define _Pre_z_cap_c_(size) _Pre3_impl_(_$notnull, _$zterm,_$cap_c(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_z_cap_c_(size) _Pre3_impl_(_$maybenull,_$zterm,_$cap_c(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_z_bytecap_c_(size) _Pre3_impl_(_$notnull, _$zterm,_$bytecap_c(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_z_bytecap_c_(size) _Pre3_impl_(_$maybenull,_$zterm,_$bytecap_c(size)) _Deref_pre1_impl_(_$valid) + +#define _Pre_z_cap_x_(size) _Pre3_impl_(_$notnull, _$zterm,_$cap_x(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_z_cap_x_(size) _Pre3_impl_(_$maybenull,_$zterm,_$cap_x(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_z_bytecap_x_(size) _Pre3_impl_(_$notnull, _$zterm,_$bytecap_x(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_z_bytecap_x_(size) _Pre3_impl_(_$maybenull,_$zterm,_$bytecap_x(size)) _Deref_pre1_impl_(_$valid) + +// known capacity and valid but unknown readable extent +#define _Pre_valid_cap_(size) _Pre2_impl_(_$notnull, _$cap(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_valid_cap_(size) _Pre2_impl_(_$maybenull,_$cap(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_valid_bytecap_(size) _Pre2_impl_(_$notnull, _$bytecap(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_valid_bytecap_(size) _Pre2_impl_(_$maybenull,_$bytecap(size)) _Deref_pre1_impl_(_$valid) + +#define _Pre_valid_cap_c_(size) _Pre2_impl_(_$notnull, _$cap_c(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_valid_cap_c_(size) _Pre2_impl_(_$maybenull,_$cap_c(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_valid_bytecap_c_(size) _Pre2_impl_(_$notnull, _$bytecap_c(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_valid_bytecap_c_(size) _Pre2_impl_(_$maybenull,_$bytecap_c(size)) _Deref_pre1_impl_(_$valid) + +#define _Pre_valid_cap_x_(size) _Pre2_impl_(_$notnull, _$cap_x(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_valid_cap_x_(size) _Pre2_impl_(_$maybenull,_$cap_x(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_valid_bytecap_x_(size) _Pre2_impl_(_$notnull, _$bytecap_x(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_valid_bytecap_x_(size) _Pre2_impl_(_$maybenull,_$bytecap_x(size)) _Deref_pre1_impl_(_$valid) + +// e.g. void AppendCharRange( _Pre_count_(cchFrom) const char* rgFrom, size_t cchFrom, _Out_z_cap_(cchTo) char* szTo, size_t cchTo ); +// Valid buffer extent described by another parameter +#define _Pre_count_(size) _Pre2_impl_(_$notnull, _$count(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_count_(size) _Pre2_impl_(_$maybenull,_$count(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_bytecount_(size) _Pre2_impl_(_$notnull, _$bytecount(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_bytecount_(size) _Pre2_impl_(_$maybenull,_$bytecount(size)) _Deref_pre1_impl_(_$valid) + +// Valid buffer extent described by a constant expression +#define _Pre_count_c_(size) _Pre2_impl_(_$notnull, _$count_c(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_count_c_(size) _Pre2_impl_(_$maybenull,_$count_c(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_bytecount_c_(size) _Pre2_impl_(_$notnull, _$bytecount_c(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_bytecount_c_(size) _Pre2_impl_(_$maybenull,_$bytecount_c(size)) _Deref_pre1_impl_(_$valid) + +// Valid buffer extent described by a complex expression +#define _Pre_count_x_(size) _Pre2_impl_(_$notnull, _$count_x(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_count_x_(size) _Pre2_impl_(_$maybenull,_$count_x(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_bytecount_x_(size) _Pre2_impl_(_$notnull, _$bytecount_x(size)) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_bytecount_x_(size) _Pre2_impl_(_$maybenull,_$bytecount_x(size)) _Deref_pre1_impl_(_$valid) + +// Valid buffer extent described by the difference to another pointer parameter +#define _Pre_ptrdiff_count_(ptr) _Pre2_impl_(_$notnull, _$count_x(__ptrdiff(ptr))) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_ptrdiff_count_(ptr) _Pre2_impl_(_$maybenull,_$count_x(__ptrdiff(ptr))) _Deref_pre1_impl_(_$valid) + +// valid size unknown or indicated by type (e.g.:LPSTR) +#define _Pre_valid_ _Pre1_impl_(_$notnull) _Deref_pre1_impl_(_$valid) +#define _Pre_opt_valid_ _Pre1_impl_(_$maybenull) _Deref_pre1_impl_(_$valid) + +#define _Pre_invalid_ _Deref_pre1_impl_(_$notvalid) + +// used with allocated but not yet initialized objects +#define _Pre_notnull_ _Pre1_impl_(_$notnull) +#define _Pre_maybenull_ _Pre1_impl_(_$maybenull) +#define _Pre_null_ _Pre1_impl_(_$null) + +// restrict access rights +#define _Pre_readonly_ _Pre1_impl_(_$readaccess) +#define _Pre_writeonly_ _Pre1_impl_(_$writeaccess) +// +// _Post_ annotations --- +// +// describing conditions that hold after the function call + +// void CopyStr( _In_z_ const char* szFrom, _Pre_cap_(cch) _Post_z_ char* szFrom, size_t cchFrom ); +// buffer will be a zero-terminated string after the call +#define _Post_z_ _Post1_impl_(_$zterm) _Deref_post1_impl_(_$valid) + +// char * strncpy(_Out_cap_(_Count) _Post_maybez_ char * _Dest, _In_z_ const char * _Source, _In_ size_t _Count) +// buffer maybe zero-terminated after the call +#define _Post_maybez_ _Post1_impl_(_$maybezterm) + +// e.g. SIZE_T HeapSize( _In_ HANDLE hHeap, DWORD dwFlags, _Pre_notnull_ _Post_bytecap_(return) LPCVOID lpMem ); +#define _Post_cap_(size) _Post1_impl_(_$cap(size)) +#define _Post_bytecap_(size) _Post1_impl_(_$bytecap(size)) + +// e.g. int strlen( _In_z_ _Post_count_(return+1) const char* sz ); +#define _Post_count_(size) _Post1_impl_(_$count(size)) _Deref_post1_impl_(_$valid) +#define _Post_bytecount_(size) _Post1_impl_(_$bytecount(size)) _Deref_post1_impl_(_$valid) +#define _Post_count_c_(size) _Post1_impl_(_$count_c(size)) _Deref_post1_impl_(_$valid) +#define _Post_bytecount_c_(size) _Post1_impl_(_$bytecount_c(size)) _Deref_post1_impl_(_$valid) +#define _Post_count_x_(size) _Post1_impl_(_$count_x(size)) _Deref_post1_impl_(_$valid) +#define _Post_bytecount_x_(size) _Post1_impl_(_$bytecount_x(size)) _Deref_post1_impl_(_$valid) + +// e.g. size_t CopyStr( _In_z_ const char* szFrom, _Pre_cap_(cch) _Post_z_count_(return+1) char* szFrom, size_t cchFrom ); +#define _Post_z_count_(size) _Post2_impl_(_$zterm,_$count(size)) _Deref_post1_impl_(_$valid) +#define _Post_z_bytecount_(size) _Post2_impl_(_$zterm,_$bytecount(size)) _Deref_post1_impl_(_$valid) +#define _Post_z_count_c_(size) _Post2_impl_(_$zterm,_$count_c(size)) _Deref_post1_impl_(_$valid) +#define _Post_z_bytecount_c_(size) _Post2_impl_(_$zterm,_$bytecount_c(size)) _Deref_post1_impl_(_$valid) +#define _Post_z_count_x_(size) _Post2_impl_(_$zterm,_$count_x(size)) _Deref_post1_impl_(_$valid) +#define _Post_z_bytecount_x_(size) _Post2_impl_(_$zterm,_$bytecount_x(size)) _Deref_post1_impl_(_$valid) + +// e.g. void free( _Post_ptr_invalid_ void* pv ); +#define _Post_ptr_invalid_ _Post1_impl_(_$notvalid) + +// e.g. HRESULT InitStruct( _Post_valid_ Struct* pobj ); +#define _Post_valid_ _Deref_post1_impl_(_$valid) +#define _Post_invalid_ _Deref_post1_impl_(_$notvalid) + +// e.g. void ThrowExceptionIfNull( _Post_notnull_ const void* pv ); +#define _Post_notnull_ _Post1_impl_(_$notnull) + +// +// _Ret_ annotations +// +// describing conditions that hold for return values after the call + +// e.g. _Ret_z_ CString::operator const wchar_t*() const throw(); +#define _Ret_z_ _Ret2_impl_(_$notnull, _$zterm) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_z_ _Ret2_impl_(_$maybenull,_$zterm) _Deref_ret1_impl_(_$valid) + +// e.g. _Ret_opt_bytecap_(cb) void* AllocateMemory( size_t cb ); +// Buffer capacity is described by another parameter +#define _Ret_cap_(size) _Ret2_impl_(_$notnull, _$cap(size)) +#define _Ret_opt_cap_(size) _Ret2_impl_(_$maybenull,_$cap(size)) +#define _Ret_bytecap_(size) _Ret2_impl_(_$notnull, _$bytecap(size)) +#define _Ret_opt_bytecap_(size) _Ret2_impl_(_$maybenull,_$bytecap(size)) + +// Buffer capacity is described by a constant expression +#define _Ret_cap_c_(size) _Ret2_impl_(_$notnull, _$cap_c(size)) +#define _Ret_opt_cap_c_(size) _Ret2_impl_(_$maybenull,_$cap_c(size)) +#define _Ret_bytecap_c_(size) _Ret2_impl_(_$notnull, _$bytecap_c(size)) +#define _Ret_opt_bytecap_c_(size) _Ret2_impl_(_$maybenull,_$bytecap_c(size)) + +// Buffer capacity is described by a complex condition +#define _Ret_cap_x_(size) _Ret2_impl_(_$notnull, _$cap_x(size)) +#define _Ret_opt_cap_x_(size) _Ret2_impl_(_$maybenull,_$cap_x(size)) +#define _Ret_bytecap_x_(size) _Ret2_impl_(_$notnull, _$bytecap_x(size)) +#define _Ret_opt_bytecap_x_(size) _Ret2_impl_(_$maybenull,_$bytecap_x(size)) + +// return value is nullterminated and capacity is given by another parameter +#define _Ret_z_cap_(size) _Ret3_impl_(_$notnull, _$zterm,_$cap(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_z_cap_(size) _Ret3_impl_(_$maybenull,_$zterm,_$cap(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_z_bytecap_(size) _Ret3_impl_(_$notnull, _$zterm,_$bytecap(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_z_bytecap_(size) _Ret3_impl_(_$maybenull,_$zterm,_$bytecap(size)) _Deref_ret1_impl_(_$valid) + +// e.g. _Ret_opt_bytecount_(cb) void* AllocateZeroInitializedMemory( size_t cb ); +// Valid Buffer extent is described by another parameter +#define _Ret_count_(size) _Ret2_impl_(_$notnull, _$count(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_count_(size) _Ret2_impl_(_$maybenull,_$count(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_bytecount_(size) _Ret2_impl_(_$notnull, _$bytecount(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_bytecount_(size) _Ret2_impl_(_$maybenull,_$bytecount(size)) _Deref_ret1_impl_(_$valid) + +// Valid Buffer extent is described by a constant expression +#define _Ret_count_c_(size) _Ret2_impl_(_$notnull, _$count_c(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_count_c_(size) _Ret2_impl_(_$maybenull,_$count_c(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_bytecount_c_(size) _Ret2_impl_(_$notnull, _$bytecount_c(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_bytecount_c_(size) _Ret2_impl_(_$maybenull,_$bytecount_c(size)) _Deref_ret1_impl_(_$valid) + +// Valid Buffer extent is described by a complex expression +#define _Ret_count_x_(size) _Ret2_impl_(_$notnull, _$count_x(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_count_x_(size) _Ret2_impl_(_$maybenull,_$count_x(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_bytecount_x_(size) _Ret2_impl_(_$notnull, _$bytecount_x(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_bytecount_x_(size) _Ret2_impl_(_$maybenull,_$bytecount_x(size)) _Deref_ret1_impl_(_$valid) + +// return value is nullterminated and length is given by another parameter +#define _Ret_z_count_(size) _Ret3_impl_(_$notnull, _$zterm,_$count(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_z_count_(size) _Ret3_impl_(_$maybenull,_$zterm,_$count(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_z_bytecount_(size) _Ret3_impl_(_$notnull, _$zterm,_$bytecount(size)) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_z_bytecount_(size) _Ret3_impl_(_$maybenull,_$zterm,_$bytecount(size)) _Deref_ret1_impl_(_$valid) + +// e.g. _Ret_opt_valid_ LPSTR void* CloneSTR( _Pre_valid_ LPSTR src ); +#define _Ret_valid_ _Ret1_impl_(_$notnull) _Deref_ret1_impl_(_$valid) +#define _Ret_opt_valid_ _Ret1_impl_(_$maybenull) _Deref_ret1_impl_(_$valid) + +// used with allocated but not yet initialized objects +#define _Ret_notnull_ _Ret1_impl_(_$notnull) +#define _Ret_maybenull_ _Ret1_impl_(_$maybenull) +#define _Ret_null_ _Ret1_impl_(_$null) + +// +// _Deref_pre_ --- +// +// describing conditions for array elements of dereferenced pointer parameters that must be met before the call + +// e.g. void SaveStringArray( _In_count_(cStrings) _Deref_pre_z_ const wchar_t* const rgpwch[] ); +#define _Deref_pre_z_ _Deref_pre2_impl_(_$notnull, _$zterm) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_z_ _Deref_pre2_impl_(_$maybenull,_$zterm) _Deref2_pre1_impl_(_$valid) + +// e.g. void FillInArrayOfStr32( _In_count_(cStrings) _Deref_pre_cap_c_(32) _Deref_post_z_ wchar_t* const rgpwch[] ); +// buffer capacity is described by another parameter +#define _Deref_pre_cap_(size) _Deref_pre2_impl_(_$notnull, _$cap(size)) +#define _Deref_pre_opt_cap_(size) _Deref_pre2_impl_(_$maybenull,_$cap(size)) +#define _Deref_pre_bytecap_(size) _Deref_pre2_impl_(_$notnull, _$bytecap(size)) +#define _Deref_pre_opt_bytecap_(size) _Deref_pre2_impl_(_$maybenull,_$bytecap(size)) + +// buffer capacity is described by a constant expression +#define _Deref_pre_cap_c_(size) _Deref_pre2_impl_(_$notnull, _$cap_c(size)) +#define _Deref_pre_opt_cap_c_(size) _Deref_pre2_impl_(_$maybenull,_$cap_c(size)) +#define _Deref_pre_bytecap_c_(size) _Deref_pre2_impl_(_$notnull, _$bytecap_c(size)) +#define _Deref_pre_opt_bytecap_c_(size) _Deref_pre2_impl_(_$maybenull,_$bytecap_c(size)) + +// buffer capacity is described by a complex condition +#define _Deref_pre_cap_x_(size) _Deref_pre2_impl_(_$notnull, _$cap_x(size)) +#define _Deref_pre_opt_cap_x_(size) _Deref_pre2_impl_(_$maybenull,_$cap_x(size)) +#define _Deref_pre_bytecap_x_(size) _Deref_pre2_impl_(_$notnull, _$bytecap_x(size)) +#define _Deref_pre_opt_bytecap_x_(size) _Deref_pre2_impl_(_$maybenull,_$bytecap_x(size)) + +// convenience macros for nullterminated buffers with given capacity +#define _Deref_pre_z_cap_(size) _Deref_pre3_impl_(_$notnull, _$zterm,_$cap(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_z_cap_(size) _Deref_pre3_impl_(_$maybenull,_$zterm,_$cap(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_z_bytecap_(size) _Deref_pre3_impl_(_$notnull, _$zterm,_$bytecap(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_z_bytecap_(size) _Deref_pre3_impl_(_$maybenull,_$zterm,_$bytecap(size)) _Deref2_pre1_impl_(_$valid) + +#define _Deref_pre_z_cap_c_(size) _Deref_pre3_impl_(_$notnull, _$zterm,_$cap_c(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_z_cap_c_(size) _Deref_pre3_impl_(_$maybenull,_$zterm,_$cap_c(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_z_bytecap_c_(size) _Deref_pre3_impl_(_$notnull, _$zterm,_$bytecap_c(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_z_bytecap_c_(size) _Deref_pre3_impl_(_$maybenull,_$zterm,_$bytecap_c(size)) _Deref2_pre1_impl_(_$valid) + +#define _Deref_pre_z_cap_x_(size) _Deref_pre3_impl_(_$notnull, _$zterm,_$cap_x(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_z_cap_x_(size) _Deref_pre3_impl_(_$maybenull,_$zterm,_$cap_x(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_z_bytecap_x_(size) _Deref_pre3_impl_(_$notnull, _$zterm,_$bytecap_x(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_z_bytecap_x_(size) _Deref_pre3_impl_(_$maybenull,_$zterm,_$bytecap_x(size)) _Deref2_pre1_impl_(_$valid) + +// known capacity and valid but unknown readable extent +#define _Deref_pre_valid_cap_(size) _Deref_pre2_impl_(_$notnull, _$cap(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_valid_cap_(size) _Deref_pre2_impl_(_$maybenull,_$cap(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_valid_bytecap_(size) _Deref_pre2_impl_(_$notnull, _$bytecap(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_valid_bytecap_(size) _Deref_pre2_impl_(_$maybenull,_$bytecap(size)) _Deref2_pre1_impl_(_$valid) + +#define _Deref_pre_valid_cap_c_(size) _Deref_pre2_impl_(_$notnull, _$cap_c(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_valid_cap_c_(size) _Deref_pre2_impl_(_$maybenull,_$cap_c(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_valid_bytecap_c_(size) _Deref_pre2_impl_(_$notnull, _$bytecap_c(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_valid_bytecap_c_(size) _Deref_pre2_impl_(_$maybenull,_$bytecap_c(size)) _Deref2_pre1_impl_(_$valid) + +#define _Deref_pre_valid_cap_x_(size) _Deref_pre2_impl_(_$notnull, _$cap_x(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_valid_cap_x_(size) _Deref_pre2_impl_(_$maybenull,_$cap_x(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_valid_bytecap_x_(size) _Deref_pre2_impl_(_$notnull, _$bytecap_x(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_valid_bytecap_x_(size) _Deref_pre2_impl_(_$maybenull,_$bytecap_x(size)) _Deref2_pre1_impl_(_$valid) + +// e.g. void SaveMatrix( _In_count_(n) _Deref_pre_count_(n) const Elem** matrix, size_t n ); +// valid buffer extent is described by another parameter +#define _Deref_pre_count_(size) _Deref_pre2_impl_(_$notnull, _$count(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_count_(size) _Deref_pre2_impl_(_$maybenull,_$count(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_bytecount_(size) _Deref_pre2_impl_(_$notnull, _$bytecount(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_bytecount_(size) _Deref_pre2_impl_(_$maybenull,_$bytecount(size)) _Deref2_pre1_impl_(_$valid) + +// valid buffer extent is described by a constant expression +#define _Deref_pre_count_c_(size) _Deref_pre2_impl_(_$notnull, _$count_c(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_count_c_(size) _Deref_pre2_impl_(_$maybenull,_$count_c(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_bytecount_c_(size) _Deref_pre2_impl_(_$notnull, _$bytecount_c(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_bytecount_c_(size) _Deref_pre2_impl_(_$maybenull,_$bytecount_c(size)) _Deref2_pre1_impl_(_$valid) + +// valid buffer extent is described by a complex expression +#define _Deref_pre_count_x_(size) _Deref_pre2_impl_(_$notnull, _$count_x(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_count_x_(size) _Deref_pre2_impl_(_$maybenull,_$count_x(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_bytecount_x_(size) _Deref_pre2_impl_(_$notnull, _$bytecount_x(size)) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_bytecount_x_(size) _Deref_pre2_impl_(_$maybenull,_$bytecount_x(size)) _Deref2_pre1_impl_(_$valid) + +// e.g. void PrintStringArray( _In_count_(cElems) _Deref_pre_valid_ LPCSTR rgStr[], size_t cElems ); +#define _Deref_pre_valid_ _Deref_pre1_impl_(_$notnull) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_opt_valid_ _Deref_pre1_impl_(_$maybenull) _Deref2_pre1_impl_(_$valid) +#define _Deref_pre_invalid_ _Deref2_pre1_impl_(_$notvalid) + +#define _Deref_pre_notnull_ _Deref_pre1_impl_(_$notnull) +#define _Deref_pre_maybenull_ _Deref_pre1_impl_(_$maybenull) +#define _Deref_pre_null_ _Deref_pre1_impl_(_$null) + +// restrict access rights +#define _Deref_pre_readonly_ _Deref_pre1_impl_(_$readaccess) +#define _Deref_pre_writeonly_ _Deref_pre1_impl_(_$writeaccess) + +// +// _Deref_post_ --- +// +// describing conditions for array elements or dereferenced pointer parameters that hold after the call + +// e.g. void CloneString( _In_z_ const Wchar_t* wzIn _Out_ _Deref_post_z_ wchar_t** pWzOut ); +#define _Deref_post_z_ _Deref_post2_impl_(_$notnull, _$zterm) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_z_ _Deref_post2_impl_(_$maybenull,_$zterm) _Deref2_post1_impl_(_$valid) + +// e.g. HRESULT HrAllocateMemory( size_t cb, _Out_ _Deref_post_bytecap_(cb) void** ppv ); +// buffer capacity is described by another parameter +#define _Deref_post_cap_(size) _Deref_post2_impl_(_$notnull, _$cap(size)) +#define _Deref_post_opt_cap_(size) _Deref_post2_impl_(_$maybenull,_$cap(size)) +#define _Deref_post_bytecap_(size) _Deref_post2_impl_(_$notnull, _$bytecap(size)) +#define _Deref_post_opt_bytecap_(size) _Deref_post2_impl_(_$maybenull,_$bytecap(size)) + +// buffer capacity is described by a constant expression +#define _Deref_post_cap_c_(size) _Deref_post2_impl_(_$notnull, _$cap_z(size)) +#define _Deref_post_opt_cap_c_(size) _Deref_post2_impl_(_$maybenull,_$cap_z(size)) +#define _Deref_post_bytecap_c_(size) _Deref_post2_impl_(_$notnull, _$bytecap_z(size)) +#define _Deref_post_opt_bytecap_c_(size) _Deref_post2_impl_(_$maybenull,_$bytecap_z(size)) + +// buffer capacity is described by a complex expression +#define _Deref_post_cap_x_(size) _Deref_post2_impl_(_$notnull, _$cap_x(size)) +#define _Deref_post_opt_cap_x_(size) _Deref_post2_impl_(_$maybenull,_$cap_x(size)) +#define _Deref_post_bytecap_x_(size) _Deref_post2_impl_(_$notnull, _$bytecap_x(size)) +#define _Deref_post_opt_bytecap_x_(size) _Deref_post2_impl_(_$maybenull,_$bytecap_x(size)) + +// convenience macros for nullterminated buffers with given capacity +#define _Deref_post_z_cap_(size) _Deref_post3_impl_(_$notnull, _$zterm,_$cap(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_z_cap_(size) _Deref_post3_impl_(_$maybenull,_$zterm,_$cap(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_z_bytecap_(size) _Deref_post3_impl_(_$notnull, _$zterm,_$bytecap(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_z_bytecap_(size) _Deref_post3_impl_(_$maybenull,_$zterm,_$bytecap(size)) _Deref2_post1_impl_(_$valid) + +#define _Deref_post_z_cap_c_(size) _Deref_post3_impl_(_$notnull, _$zterm,_$cap_c(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_z_cap_c_(size) _Deref_post3_impl_(_$maybenull,_$zterm,_$cap_c(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_z_bytecap_c_(size) _Deref_post3_impl_(_$notnull, _$zterm,_$bytecap_c(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_z_bytecap_c_(size) _Deref_post3_impl_(_$maybenull,_$zterm,_$bytecap_c(size)) _Deref2_post1_impl_(_$valid) + +#define _Deref_post_z_cap_x_(size) _Deref_post3_impl_(_$notnull, _$zterm,_$cap_x(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_z_cap_x_(size) _Deref_post3_impl_(_$maybenull,_$zterm,_$cap_x(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_z_bytecap_x_(size) _Deref_post3_impl_(_$notnull, _$zterm,_$bytecap_x(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_z_bytecap_x_(size) _Deref_post3_impl_(_$maybenull,_$zterm,_$bytecap_x(size)) _Deref2_post1_impl_(_$valid) + +// known capacity and valid but unknown readable extent +#define _Deref_post_valid_cap_(size) _Deref_post2_impl_(_$notnull, _$cap(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_valid_cap_(size) _Deref_post2_impl_(_$maybenull,_$cap(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_valid_bytecap_(size) _Deref_post2_impl_(_$notnull, _$bytecap(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_valid_bytecap_(size) _Deref_post2_impl_(_$maybenull,_$bytecap(size)) _Deref2_post1_impl_(_$valid) + +#define _Deref_post_valid_cap_c_(size) _Deref_post2_impl_(_$notnull, _$cap_c(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_valid_cap_c_(size) _Deref_post2_impl_(_$maybenull,_$cap_c(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_valid_bytecap_c_(size) _Deref_post2_impl_(_$notnull, _$bytecap_c(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_valid_bytecap_c_(size) _Deref_post2_impl_(_$maybenull,_$bytecap_c(size)) _Deref2_post1_impl_(_$valid) + +#define _Deref_post_valid_cap_x_(size) _Deref_post2_impl_(_$notnull, _$cap_x(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_valid_cap_x_(size) _Deref_post2_impl_(_$maybenull,_$cap_x(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_valid_bytecap_x_(size) _Deref_post2_impl_(_$notnull, _$bytecap_x(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_valid_bytecap_x_(size) _Deref_post2_impl_(_$maybenull,_$bytecap_x(size)) _Deref2_post1_impl_(_$valid) + +// e.g. HRESULT HrAllocateZeroInitializedMemory( size_t cb, _Out_ _Deref_post_bytecount_(cb) void** ppv ); +// valid buffer extent is described by another parameter +#define _Deref_post_count_(size) _Deref_post2_impl_(_$notnull, _$count(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_count_(size) _Deref_post2_impl_(_$maybenull,_$count(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_bytecount_(size) _Deref_post2_impl_(_$notnull, _$bytecount(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_bytecount_(size) _Deref_post2_impl_(_$maybenull,_$bytecount(size)) _Deref2_post1_impl_(_$valid) + +// buffer capacity is described by a constant expression +#define _Deref_post_count_c_(size) _Deref_post2_impl_(_$notnull, _$count_c(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_count_c_(size) _Deref_post2_impl_(_$maybenull,_$count_c(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_bytecount_c_(size) _Deref_post2_impl_(_$notnull, _$bytecount_c(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_bytecount_c_(size) _Deref_post2_impl_(_$maybenull,_$bytecount_c(size)) _Deref2_post1_impl_(_$valid) + +// buffer capacity is described by a complex expression +#define _Deref_post_count_x_(size) _Deref_post2_impl_(_$notnull, _$count_x(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_count_x_(size) _Deref_post2_impl_(_$maybenull,_$count_x(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_bytecount_x_(size) _Deref_post2_impl_(_$notnull, _$bytecount_x(size)) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_bytecount_x_(size) _Deref_post2_impl_(_$maybenull,_$bytecount_x(size)) _Deref2_post1_impl_(_$valid) + +// e.g. void GetStrings( _Out_count_(cElems) _Deref_post_valid_ LPSTR const rgStr[], size_t cElems ); +#define _Deref_post_valid_ _Deref_post1_impl_(_$notnull) _Deref2_post1_impl_(_$valid) +#define _Deref_post_opt_valid_ _Deref_post1_impl_(_$maybenull) _Deref2_post1_impl_(_$valid) + +#define _Deref_post_notnull_ _Deref_post1_impl_(_$notnull) +#define _Deref_post_maybenull_ _Deref_post1_impl_(_$maybenull) +#define _Deref_post_null_ _Deref_post1_impl_(_$null) + +// +// _Deref_ret_ --- +// + +#define _Deref_ret_z_ _Deref_ret2_impl_(_$notnull, _$zterm) +#define _Deref_ret_opt_z_ _Deref_ret2_impl_(_$maybenull,_$zterm) + +// +// special _Deref_ --- +// +#define _Deref2_pre_readonly_ _Deref2_pre1_impl_(_$readaccess) + +// Convenience macros for more concise annotations + +// +// _Pre_post --- +// +// describing conditions that hold before and after the function call + +#define _Prepost_z_ _Pre_z_ _Post_z_ +#define _Prepost_opt_z_ _Pre_opt_z_ _Post_z_ + +#define _Prepost_count_(size) _Pre_count_(size) _Post_count_(size) +#define _Prepost_opt_count_(size) _Pre_opt_count_(size) _Post_count_(size) +#define _Prepost_bytecount_(size) _Pre_bytecount_(size) _Post_bytecount_(size) +#define _Prepost_opt_bytecount_(size) _Pre_opt_bytecount_(size) _Post_bytecount_(size) +#define _Prepost_count_c_(size) _Pre_count_c_(size) _Post_count_c_(size) +#define _Prepost_opt_count_c_(size) _Pre_opt_count_c_(size) _Post_count_c_(size) +#define _Prepost_bytecount_c_(size) _Pre_bytecount_c_(size) _Post_bytecount_c_(size) +#define _Prepost_opt_bytecount_c_(size) _Pre_opt_bytecount_c_(size) _Post_bytecount_c_(size) +#define _Prepost_count_x_(size) _Pre_count_x_(size) _Post_count_x_(size) +#define _Prepost_opt_count_x_(size) _Pre_opt_count_x_(size) _Post_count_x_(size) +#define _Prepost_bytecount_x_(size) _Pre_bytecount_x_(size) _Post_bytecount_x_(size) +#define _Prepost_opt_bytecount_x_(size) _Pre_opt_bytecount_x_(size) _Post_bytecount_x_(size) + +#define _Prepost_valid_ _Pre_valid_ _Post_valid_ +#define _Prepost_opt_valid_ _Pre_opt_valid_ _Post_valid_ + +// +// _Deref_ --- +// +// short version for _Deref_pre_ _Deref_post_ +// describing conditions for array elements or dereferenced pointer parameters that hold before and after the call + +#define _Deref_prepost_z_ _Deref_pre_z_ _Deref_post_z_ +#define _Deref_prepost_opt_z_ _Deref_pre_opt_z_ _Deref_post_opt_z_ + +#define _Deref_prepost_cap_(size) _Deref_pre_cap_(size) _Deref_post_cap_(size) +#define _Deref_prepost_opt_cap_(size) _Deref_pre_opt_cap_(size) _Deref_post_opt_cap_(size) +#define _Deref_prepost_bytecap_(size) _Deref_pre_bytecap_(size) _Deref_post_bytecap_(size) +#define _Deref_prepost_opt_bytecap_(size) _Deref_pre_opt_bytecap_(size) _Deref_post_opt_bytecap_(size) + +#define _Deref_prepost_cap_x_(size) _Deref_pre_cap_x_(size) _Deref_post_cap_x_(size) +#define _Deref_prepost_opt_cap_x_(size) _Deref_pre_opt_cap_x_(size) _Deref_post_opt_cap_x_(size) +#define _Deref_prepost_bytecap_x_(size) _Deref_pre_bytecap_x_(size) _Deref_post_bytecap_x_(size) +#define _Deref_prepost_opt_bytecap_x_(size) _Deref_pre_opt_bytecap_x_(size) _Deref_post_opt_bytecap_x_(size) + +#define _Deref_prepost_z_cap_(size) _Deref_pre_z_cap_(size) _Deref_post_z_cap_(size) +#define _Deref_prepost_opt_z_cap_(size) _Deref_pre_opt_z_cap_(size) _Deref_post_opt_z_cap_(size) +#define _Deref_prepost_z_bytecap_(size) _Deref_pre_z_bytecap_(size) _Deref_post_z_bytecap_(size) +#define _Deref_prepost_opt_z_bytecap_(size) _Deref_pre_opt_z_bytecap_(size) _Deref_post_opt_z_bytecap_(size) + +#define _Deref_prepost_valid_cap_(size) _Deref_pre_valid_cap_(size) _Deref_post_valid_cap_(size) +#define _Deref_prepost_opt_valid_cap_(size) _Deref_pre_opt_valid_cap_(size) _Deref_post_opt_valid_cap_(size) +#define _Deref_prepost_valid_bytecap_(size) _Deref_pre_valid_bytecap_(size) _Deref_post_valid_bytecap_(size) +#define _Deref_prepost_opt_valid_bytecap_(size) _Deref_pre_opt_valid_bytecap_(size) _Deref_post_opt_valid_bytecap_(size) + +#define _Deref_prepost_valid_cap_x_(size) _Deref_pre_valid_cap_x_(size) _Deref_post_valid_cap_x_(size) +#define _Deref_prepost_opt_valid_cap_x_(size) _Deref_pre_opt_valid_cap_x_(size) _Deref_post_opt_valid_cap_x_(size) +#define _Deref_prepost_valid_bytecap_x_(size) _Deref_pre_valid_bytecap_x_(size) _Deref_post_valid_bytecap_x_(size) +#define _Deref_prepost_opt_valid_bytecap_x_(size) _Deref_pre_opt_valid_bytecap_x_(size) _Deref_post_opt_valid_bytecap_x_(size) + +#define _Deref_prepost_count_(size) _Deref_pre_count_(size) _Deref_post_count_(size) +#define _Deref_prepost_opt_count_(size) _Deref_pre_opt_count_(size) _Deref_post_opt_count_(size) +#define _Deref_prepost_bytecount_(size) _Deref_pre_bytecount_(size) _Deref_post_bytecount_(size) +#define _Deref_prepost_opt_bytecount_(size) _Deref_pre_opt_bytecount_(size) _Deref_post_opt_bytecount_(size) + +#define _Deref_prepost_count_x_(size) _Deref_pre_count_x_(size) _Deref_post_count_x_(size) +#define _Deref_prepost_opt_count_x_(size) _Deref_pre_opt_count_x_(size) _Deref_post_opt_count_x_(size) +#define _Deref_prepost_bytecount_x_(size) _Deref_pre_bytecount_x_(size) _Deref_post_bytecount_x_(size) +#define _Deref_prepost_opt_bytecount_x_(size) _Deref_pre_opt_bytecount_x_(size) _Deref_post_opt_bytecount_x_(size) + +#define _Deref_prepost_valid_ _Deref_pre_valid_ _Deref_post_valid_ +#define _Deref_prepost_opt_valid_ _Deref_pre_opt_valid_ _Deref_post_opt_valid_ + +// +// _Deref_ +// +// used with references to arrays + +#define _Deref_out_z_cap_c_(size) _Deref_pre_cap_c_(size) _Deref_pre_invalid_ _Deref_post_z_ +#define _Deref_inout_z_cap_c_(size) _Deref_pre_z_cap_c_(size) _Deref_post_z_ +#define _Deref_out_z_bytecap_c_(size) _Deref_pre_bytecap_c_(size) _Deref_pre_invalid_ _Deref_post_z_ +#define _Deref_inout_z_bytecap_c_(size) _Deref_pre_z_bytecap_c_(size) _Deref_post_z_ +#define _Deref_inout_z_ _Deref_prepost_z_ + +//============================================================================ +// Implementation Layer: +//============================================================================ + +#if _USE_ATTRIBUTES_FOR_SAL + +#define _Check_return_impl_ [returnvalue:SA_Post(MustCheck=SA_Yes)] + +#define _Success_impl_(expr) [SA_Success(Condition=#expr)] + +#define _Printf_format_string_impl_ [SA_FormatString(Style="printf")] +#define _Scanf_format_string_impl_ [SA_FormatString(Style="scanf")] +#define _Scanf_s_format_string_impl_ [SA_FormatString(Style="scanf_s")] + +#define _In_bound_impl_ [SA_PreBound(Deref=0)] +#define _Out_bound_impl_ [SA_PostBound(Deref=0)] +#define _Ret_bound_impl_ [returnvalue:SA_PostBound(Deref=0)] +#define _Deref_in_bound_impl_ [SA_PreBound(Deref=1)] +#define _Deref_out_bound_impl_ [SA_PostBound(Deref=1)] +#define _Deref_ret_bound_impl_ [returnvalue:SA_PostBound(Deref=1)] + +#define _In_range_impl_(min,max) [SA_PreRange(MinVal=#min,MaxVal=#max)] +#define _Out_range_impl_(min,max) [SA_PostRange(MinVal=#min,MaxVal=#max)] +#define _Ret_range_impl_(min,max) [returnvalue:SA_PostRange(MinVal=#min,MaxVal=#max)] +#define _Deref_in_range_impl_(min,max) [SA_PreRange(Deref=1,MinVal=#min,MaxVal=#max)] +#define _Deref_out_range_impl_(min,max) [SA_PostRange(Deref=1,MinVal=#min,MaxVal=#max)] +#define _Deref_ret_range_impl_(min,max) [returnvalue:SA_PostRange(Deref=1,MinVal=#min,MaxVal=#max)] + +#define _$valid Valid=SA_Yes +#define _$maybevalid Valid=SA_Maybe +#define _$notvalid Valid=SA_No + +#define _$null Null=SA_Yes +#define _$maybenull Null=SA_Maybe +#define _$notnull Null=SA_No + +#define _$zterm NullTerminated=SA_Yes +#define _$maybezterm NullTerminated=SA_Maybe +#define _$notzterm NullTerminated=SA_No + +#define _$readaccess Access=SA_Read +#define _$writeaccess Access=SA_Write + +#define _$cap(size) WritableElements=#size +#define _$cap_c(size) WritableElementsConst=size +#define _$cap_for(param) WritableElementsLength=#param +#define _$cap_x(size) WritableElements="\n@"#size + +#define _$bytecap(size) WritableBytes=#size +#define _$bytecap_c(size) WritableBytesConst=size +#define _$bytecap_x(size) WritableBytes="\n@"#size + +#define _$mult(mult,size) ElementSizeConst=mult,_$cap(size) + +#define _$count(size) ValidElements=#size +#define _$count_c(size) ValidElementsConst=size +#define _$count_x(size) ValidElements="\n@"#size + +#define _$bytecount(size) ValidBytes=#size +#define _$bytecount_c(size) ValidBytesConst=size +#define _$bytecount_x(size) ValidBytes="\n@"#size + +#define _Pre1_impl_(p1) [SA_Pre(p1)] +#define _Pre2_impl_(p1,p2) [SA_Pre(p1,p2)] +#define _Pre3_impl_(p1,p2,p3) [SA_Pre(p1,p2,p3)] + +#define _Post1_impl_(p1) [SA_Post(p1)] +#define _Post2_impl_(p1,p2) [SA_Post(p1,p2)] +#define _Post3_impl_(p1,p2,p3) [SA_Post(p1,p2,p3)] + +#define _Ret1_impl_(p1) [returnvalue:SA_Post(p1)] +#define _Ret2_impl_(p1,p2) [returnvalue:SA_Post(p1,p2)] +#define _Ret3_impl_(p1,p2,p3) [returnvalue:SA_Post(p1,p2,p3)] + +#define _Deref_pre1_impl_(p1) [SA_Pre(Deref=1,p1)] +#define _Deref_pre2_impl_(p1,p2) [SA_Pre(Deref=1,p1,p2)] +#define _Deref_pre3_impl_(p1,p2,p3) [SA_Pre(Deref=1,p1,p2,p3)] + +#define _Deref_post1_impl_(p1) [SA_Post(Deref=1,p1)] +#define _Deref_post2_impl_(p1,p2) [SA_Post(Deref=1,p1,p2)] +#define _Deref_post3_impl_(p1,p2,p3) [SA_Post(Deref=1,p1,p2,p3)] + +#define _Deref_ret1_impl_(p1) [returnvalue:SA_Post(Deref=1,p1)] +#define _Deref_ret2_impl_(p1,p2) [returnvalue:SA_Post(Deref=1,p1,p2)] +#define _Deref_ret3_impl_(p1,p2,p3) [returnvalue:SA_Post(Deref=1,p1,p2,p3)] + +#define _Deref2_pre1_impl_(p1) [SA_Pre(Deref=2,p1)] +#define _Deref2_post1_impl_(p1) [SA_Post(Deref=2,p1)] +#define _Deref2_ret1_impl_(p1) [returnvalue:SA_Post(Deref=2,p1)] + +#elif _USE_DECLSPECS_FOR_SAL + +#define _$SPECSTRIZE( x ) #x + +#define _Check_return_impl_ __declspec("SAL_checkReturn") + +#define _Success_impl_(expr) __declspec("SAL_success("_$SPECSTRIZE(expr)")") + +#define _Printf_format_string_impl_ +#define _Scanf_format_string_impl_ +#define _Scanf_s_format_string_impl_ + +#define _In_bound_impl_ _$pre _$bound +#define _Out_bound_impl_ _$post _$bound +#define _Ret_bound_impl_ _$post _$bound +#define _Deref_in_bound_impl_ _$derefpre _$bound +#define _Deref_out_bound_impl_ _$derefpost _$bound +#define _Deref_ret_bound_impl_ _$derefpost bound + +#define _In_range_impl_(min,max) _$pre _$range(min,max) +#define _Out_range_impl_(min,max) _$post _$range(min,max) +#define _Ret_range_impl_(min,max) _$post _$range(min,max) +#define _Deref_in_range_impl_(min,max) _$derefpre _$range(min,max) +#define _Deref_out_range_impl_(min,max) _$derefpost _$range(min,max) +#define _Deref_ret_range_impl_(min,max) _$derefpost _$range(min,max) + +#define _$valid __declspec("SAL_valid") +#define _$maybevalid __declspec("SAL_maybevalid") +#define _$notvalid __declspec("SAL_notvalid") + +#define _$null __declspec("SAL_null") +#define _$maybenull __declspec("SAL_maybenull") +#define _$notnull __declspec("SAL_notnull") + +#define _$zterm __declspec("SAL_readableTo(sentinel(0))") +#define _$maybezterm +#define _$notzterm + +#define _$readaccess __declspec("SAL_readonly") +#define _$writeaccess __declspec("SAL_notreadonly") + +#define _$cap(size) __declspec("SAL_writableTo(elementCount("_$SPECSTRIZE(size)"))") +#define _$cap_c(size) __declspec("SAL_writableTo(elementCount("_$SPECSTRIZE(size)"))") +#define _$cap_for(param) __declspec("SAL_writableTo(needsCountFor("_$SPECSTRIZE(param)"))") +#define _$cap_x(size) __declspec("SAL_writableTo(inexpressibleCount('"_$SPECSTRIZE(size)"'))") + +#define _$bytecap(size) __declspec("SAL_writableTo(byteCount("_$SPECSTRIZE(size)"))") +#define _$bytecap_c(size) __declspec("SAL_writableTo(byteCount("_$SPECSTRIZE(size)"))") +#define _$bytecap_x(size) __declspec("SAL_writableTo(inexpressibleCount('"_$SPECSTRIZE(size)"'))") + +#define _$mult(mult,size) __declspec("SAL_writableTo(inexpressibleCount("_$SPECSTRIZE(mult)"*"_$SPECSTRIZE(size)"))") + +#define _$count(size) __declspec("SAL_readableTo(elementCount("_$SPECSTRIZE(size)"))") +#define _$count_c(size) __declspec("SAL_readableTo(elementCount("_$SPECSTRIZE(size)"))") +#define _$count_x(size) __declspec("SAL_readableTo(inexpressibleCount('"_$SPECSTRIZE(size)"'))") + +#define _$bytecount(size) __declspec("SAL_readableTo(byteCount("_$SPECSTRIZE(size)"))") +#define _$bytecount_c(size) __declspec("SAL_readableTo(byteCount("_$SPECSTRIZE(size)"))") +#define _$bytecount_x(size) __declspec("SAL_readableTo(inexpressibleCount('"_$SPECSTRIZE(size)"'))") + +#define _$pre __declspec("SAL_pre") +#define _$post __declspec("SAL_post") +#define _$deref_pre __declspec("SAL_pre") __declspec("SAL_deref") +#define _$deref_post __declspec("SAL_post") __declspec("SAL_deref") + +#define _$bound __declspec("SAL_bound") +#define _$range(min,max) __declspec("SAL_range("_$SPECSTRIZE(min)","_$SPECSTRIZE(max)")") + +#define _Pre1_impl_(p1) _$pre p1 +#define _Pre2_impl_(p1,p2) _$pre p1 _$pre p2 +#define _Pre3_impl_(p1,p2,p3) _$pre p1 _$pre p2 _$pre p3 + +#define _Post1_impl_(p1) _$post p1 +#define _Post2_impl_(p1,p2) _$post p1 _$post p2 +#define _Post3_impl_(p1,p2,p3) _$post p1 _$post p2 _$post p3 + +#define _Ret1_impl_(p1) _$post p1 +#define _Ret2_impl_(p1,p2) _$post p1 _$post p2 +#define _Ret3_impl_(p1,p2,p3) _$post p1 _$post p2 _$post p3 + +#define _Deref_pre1_impl_(p1) _$deref_pre p1 +#define _Deref_pre2_impl_(p1,p2) _$deref_pre p1 _$deref_pre p2 +#define _Deref_pre3_impl_(p1,p2,p3) _$deref_pre p1 _$deref_pre p2 _$deref_pre p3 + +#define _Deref_post1_impl_(p1) _$deref_post p1 +#define _Deref_post2_impl_(p1,p2) _$deref_post p1 _$deref_post p2 +#define _Deref_post3_impl_(p1,p2,p3) _$deref_post p1 _$deref_post p2 _$deref_post p3 + +#define _Deref_ret1_impl_(p1) _$deref_post p1 +#define _Deref_ret2_impl_(p1,p2) _$deref_post p1 _$deref_post p2 +#define _Deref_ret3_impl_(p1,p2,p3) _$deref_post p1 _$deref_post p2 _$deref_post p3 + +#define _Deref2_pre1_impl_(p1) _$deref_pre __declspec("SAL_deref") p1 +#define _Deref2_post1_impl_(p1) _$deref_post __declspec("SAL_deref") p1 +#define _Deref2_ret1_impl_(p1) _$deref_post __declspec("SAL_deref") p1 + +#elif defined(_MSC_EXTENSIONS) && !defined( MIDL_PASS ) && !defined(__midl) && !defined(RC_INVOKED) && defined(_PFT_VER) && _MSC_VER >= 1400 + +// minimum attribute expansion for foreground build + +#pragma push_macro( "SA" ) +#pragma push_macro( "REPEATABLE" ) + +#ifdef __cplusplus +#define SA( id ) id +#define REPEATABLE [repeatable] +#else // !__cplusplus +#define SA( id ) SA_##id +#define REPEATABLE +#endif // !__cplusplus + +REPEATABLE +[source_annotation_attribute( SA( Parameter ) )] +struct _$P +{ +#ifdef __cplusplus + _$P(); +#endif + int _$d; +}; +typedef struct _$P _$P; + +REPEATABLE +[source_annotation_attribute( SA( ReturnValue ) )] +struct _$R +{ +#ifdef __cplusplus + _$R(); +#endif + int _$d; +}; +typedef struct _$R _$R; + +[source_annotation_attribute( SA( Method ) )] +struct _$M +{ +#ifdef __cplusplus + _$M(); +#endif + int _$d; +}; +typedef struct _$M _$M; + +#pragma pop_macro( "REPEATABLE" ) +#pragma pop_macro( "SA" ) + +#define _Check_return_impl_ [returnvalue:_$R(_$d=0)] + +#define _Success_impl_(expr) [_$M(_$d=0)] + +#define _Printf_format_string_impl_ [_$P(_$d=0)] +#define _Scanf_format_string_impl_ [_$P(_$d=0)] +#define _Scanf_s_format_string_impl_ [_$P(_$d=0)] + +#define _In_bound_impl_ [_$P(_$d=0)] +#define _Out_bound_impl_ [_$P(_$d=0)] +#define _Ret_bound_impl_ [returnvalue:_$R(_$d=0)] +#define _Deref_in_bound_impl_ [_$P(_$d=0)] +#define _Deref_out_bound_impl_ [_$P(_$d=0)] +#define _Deref_ret_bound_impl_ [returnvalue:_$R(_$d=0)] + +#define _In_range_impl_(min,max) [_$P(_$d=0)] +#define _Out_range_impl_(min,max) [_$P(_$d=0)] +#define _Ret_range_impl_(min,max) [returnvalue:_$R(_$d=0)] +#define _Deref_in_range_impl_(min,max) [_$P(_$d=0)] +#define _Deref_out_range_impl_(min,max) [_$P(_$d=0)] +#define _Deref_ret_range_impl_(min,max) [returnvalue:_$R(_$d=0)] + +#define _Pre1_impl_(p1) [_$P(_$d=0)] +#define _Pre2_impl_(p1,p2) [_$P(_$d=0)] +#define _Pre3_impl_(p1,p2,p3) [_$P(_$d=0)] + +#define _Post1_impl_(p1) [_$P(_$d=0)] +#define _Post2_impl_(p1,p2) [_$P(_$d=0)] +#define _Post3_impl_(p1,p2,p3) [_$P(_$d=0)] + +#define _Ret1_impl_(p1) [returnvalue:_$R(_$d=0)] +#define _Ret2_impl_(p1,p2) [returnvalue:_$R(_$d=0)] +#define _Ret3_impl_(p1,p2,p3) [returnvalue:_$R(_$d=0)] + +#define _Deref_pre1_impl_(p1) [_$P(_$d=0)] +#define _Deref_pre2_impl_(p1,p2) [_$P(_$d=0)] +#define _Deref_pre3_impl_(p1,p2,p3) [_$P(_$d=0)] + +#define _Deref_post1_impl_(p1) [_$P(_$d=0)] +#define _Deref_post2_impl_(p1,p2) [_$P(_$d=0)] +#define _Deref_post3_impl_(p1,p2,p3) [_$P(_$d=0)] + +#define _Deref_ret1_impl_(p1) [returnvalue:_$R(_$d=0)] +#define _Deref_ret2_impl_(p1,p2) [returnvalue:_$R(_$d=0)] +#define _Deref_ret3_impl_(p1,p2,p3) [returnvalue:_$R(_$d=0)] + +#define _Deref2_pre1_impl_(p1) //[_$P(_$d=0)] +#define _Deref2_post1_impl_(p1) //[_$P(_$d=0)] +#define _Deref2_ret1_impl_(p1) //[_$P(_$d=0)] + +#else + +#define _Check_return_impl_ + +#define _Success_impl_(expr) + +#define _Printf_format_string_impl_ +#define _Scanf_format_string_impl_ +#define _Scanf_s_format_string_impl_ + +#define _In_bound_impl_ +#define _Out_bound_impl_ +#define _Ret_bound_impl_ +#define _Deref_in_bound_impl_ +#define _Deref_out_bound_impl_ +#define _Deref_ret_bound_impl_ + +#define _In_range_impl_(min,max) +#define _Out_range_impl_(min,max) +#define _Ret_range_impl_(min,max) +#define _Deref_in_range_impl_(min,max) +#define _Deref_out_range_impl_(min,max) +#define _Deref_ret_range_impl_(min,max) + +#define _Pre1_impl_(p1) +#define _Pre2_impl_(p1,p2) +#define _Pre3_impl_(p1,p2,p3) + +#define _Post1_impl_(p1) +#define _Post2_impl_(p1,p2) +#define _Post3_impl_(p1,p2,p3) + +#define _Ret1_impl_(p1) +#define _Ret2_impl_(p1,p2) +#define _Ret3_impl_(p1,p2,p3) + +#define _Deref_pre1_impl_(p1) +#define _Deref_pre2_impl_(p1,p2) +#define _Deref_pre3_impl_(p1,p2,p3) + +#define _Deref_post1_impl_(p1) +#define _Deref_post2_impl_(p1,p2) +#define _Deref_post3_impl_(p1,p2,p3) + +#define _Deref_ret1_impl_(p1) +#define _Deref_ret2_impl_(p1,p2) +#define _Deref_ret3_impl_(p1,p2,p3) + +#define _Deref2_pre1_impl_(p1) +#define _Deref2_post1_impl_(p1) +#define _Deref2_ret1_impl_(p1) + +#endif + +// This section contains the deprecated annotations + +/* + ------------------------------------------------------------------------------- + Introduction + + sal.h provides a set of annotations to describe how a function uses its + parameters - the assumptions it makes about them, and the guarantees it makes + upon finishing. + + Annotations may be placed before either a function parameter's type or its return + type, and describe the function's behavior regarding the parameter or return value. + There are two classes of annotations: buffer annotations and advanced annotations. + Buffer annotations describe how functions use their pointer parameters, and + advanced annotations either describe complex/unusual buffer behavior, or provide + additional information about a parameter that is not otherwise expressible. + + ------------------------------------------------------------------------------- + Buffer Annotations + + The most important annotations in sal.h provide a consistent way to annotate + buffer parameters or return values for a function. Each of these annotations describes + a single buffer (which could be a string, a fixed-length or variable-length array, + or just a pointer) that the function interacts with: where it is, how large it is, + how much is initialized, and what the function does with it. + + The appropriate macro for a given buffer can be constructed using the table below. + Just pick the appropriate values from each category, and combine them together + with a leading underscore. Some combinations of values do not make sense as buffer + annotations. Only meaningful annotations can be added to your code; for a list of + these, see the buffer annotation definitions section. + + Only a single buffer annotation should be used for each parameter. + + |------------|------------|---------|--------|----------|----------|---------------| + | Level | Usage | Size | Output | NullTerm | Optional | Parameters | + |------------|------------|---------|--------|----------|----------|---------------| + | <> | <> | <> | <> | _z | <> | <> | + | _deref | _in | _ecount | _full | _nz | _opt | (size) | + | _deref_opt | _out | _bcount | _part | | | (size,length) | + | | _inout | | | | | | + | | | | | | | | + |------------|------------|---------|--------|----------|----------|---------------| + + Level: Describes the buffer pointer's level of indirection from the parameter or + return value 'p'. + + <> : p is the buffer pointer. + _deref : *p is the buffer pointer. p must not be NULL. + _deref_opt : *p may be the buffer pointer. p may be NULL, in which case the rest of + the annotation is ignored. + + Usage: Describes how the function uses the buffer. + + <> : The buffer is not accessed. If used on the return value or with _deref, the + function will provide the buffer, and it will be uninitialized at exit. + Otherwise, the caller must provide the buffer. This should only be used + for alloc and free functions. + _in : The function will only read from the buffer. The caller must provide the + buffer and initialize it. Cannot be used with _deref. + _out : The function will only write to the buffer. If used on the return value or + with _deref, the function will provide the buffer and initialize it. + Otherwise, the caller must provide the buffer, and the function will + initialize it. + _inout : The function may freely read from and write to the buffer. The caller must + provide the buffer and initialize it. If used with _deref, the buffer may + be reallocated by the function. + + Size: Describes the total size of the buffer. This may be less than the space actually + allocated for the buffer, in which case it describes the accessible amount. + + <> : No buffer size is given. If the type specifies the buffer size (such as + with LPSTR and LPWSTR), that amount is used. Otherwise, the buffer is one + element long. Must be used with _in, _out, or _inout. + _ecount : The buffer size is an explicit element count. + _bcount : The buffer size is an explicit byte count. + + Output: Describes how much of the buffer will be initialized by the function. For + _inout buffers, this also describes how much is initialized at entry. Omit this + category for _in buffers; they must be fully initialized by the caller. + + <> : The type specifies how much is initialized. For instance, a function initializing + an LPWSTR must NULL-terminate the string. + _full : The function initializes the entire buffer. + _part : The function initializes part of the buffer, and explicitly indicates how much. + + NullTerm: States if the present of a '\0' marks the end of valid elements in the buffer. + _z : A '\0' indicated the end of the buffer + _nz : The buffer may not be null terminated and a '\0' does not indicate the end of the + buffer. + Optional: Describes if the buffer itself is optional. + + <> : The pointer to the buffer must not be NULL. + _opt : The pointer to the buffer might be NULL. It will be checked before being dereferenced. + + Parameters: Gives explicit counts for the size and length of the buffer. + + <> : There is no explicit count. Use when neither _ecount nor _bcount is used. + (size) : Only the buffer's total size is given. Use with _ecount or _bcount but not _part. + (size,length) : The buffer's total size and initialized length are given. Use with _ecount_part + and _bcount_part. + + ------------------------------------------------------------------------------- + Buffer Annotation Examples + + LWSTDAPI_(BOOL) StrToIntExA( + LPCSTR pszString, -- No annotation required, const implies __in. + DWORD dwFlags, + __out int *piRet -- A pointer whose dereference will be filled in. + ); + + void MyPaintingFunction( + __in HWND hwndControl, -- An initialized read-only parameter. + __in_opt HDC hdcOptional, -- An initialized read-only parameter that might be NULL. + __inout IPropertyStore *ppsStore -- An initialized parameter that may be freely used + -- and modified. + ); + + LWSTDAPI_(BOOL) PathCompactPathExA( + __out_ecount(cchMax) LPSTR pszOut, -- A string buffer with cch elements that will + -- be NULL terminated on exit. + LPCSTR pszSrc, -- No annotation required, const implies __in. + UINT cchMax, + DWORD dwFlags + ); + + HRESULT SHLocalAllocBytes( + size_t cb, + __deref_bcount(cb) T **ppv -- A pointer whose dereference will be set to an + -- uninitialized buffer with cb bytes. + ); + + __inout_bcount_full(cb) : A buffer with cb elements that is fully initialized at + entry and exit, and may be written to by this function. + + __out_ecount_part(count, *countOut) : A buffer with count elements that will be + partially initialized by this function. The function indicates how much it + initialized by setting *countOut. + + ------------------------------------------------------------------------------- + Advanced Annotations + + Advanced annotations describe behavior that is not expressible with the regular + buffer macros. These may be used either to annotate buffer parameters that involve + complex or conditional behavior, or to enrich existing annotations with additional + information. + + __success(expr) f : + indicates whether function f succeeded or not. If is true at exit, + all the function's guarantees (as given by other annotations) must hold. If + is false at exit, the caller should not expect any of the function's guarantees + to hold. If not used, the function must always satisfy its guarantees. Added + automatically to functions that indicate success in standard ways, such as by + returning an HRESULT. + + __nullterminated p : + Pointer p is a buffer that may be read or written up to and including the first + NULL character or pointer. May be used on typedefs, which marks valid (properly + initialized) instances of that type as being NULL-terminated. + + __nullnullterminated p : + Pointer p is a buffer that may be read or written up to and including the first + sequence of two NULL characters or pointers. May be used on typedefs, which marks + valid instances of that type as being double-NULL terminated. + + __reserved v : + Value v must be 0/NULL, reserved for future use. + + __checkReturn v : + Return value v must not be ignored by callers of this function. + + __typefix(ctype) v : + Value v should be treated as an instance of ctype, rather than its declared type. + + __override f : + Specify C#-style 'override' behaviour for overriding virtual methods. + + __callback f : + Function f can be used as a function pointer. + + __format_string p : + Pointer p is a string that contains % markers in the style of printf. + + __blocksOn(resource) f : + Function f blocks on the resource 'resource'. + + __fallthrough : + Annotates switch statement labels where fall-through is desired, to distinguish + from forgotten break statements. + + ------------------------------------------------------------------------------- + Advanced Annotation Examples + + __success(return == TRUE) LWSTDAPI_(BOOL) + PathCanonicalizeA(__out_ecount(MAX_PATH) LPSTR pszBuf, LPCSTR pszPath) : + pszBuf is only guaranteed to be NULL-terminated when TRUE is returned. + + typedef __nullterminated WCHAR* LPWSTR : Initialized LPWSTRs are NULL-terminated strings. + + __out_ecount(cch) __typefix(LPWSTR) void *psz : psz is a buffer parameter which will be + a NULL-terminated WCHAR string at exit, and which initially contains cch WCHARs. + + ------------------------------------------------------------------------------- +*/ + +#define __specstrings + +#ifdef __cplusplus +#ifndef __nothrow +# define __nothrow __declspec(nothrow) +#endif +extern "C" { +#else +#ifndef __nothrow +# define __nothrow +#endif +#endif /* #ifdef __cplusplus */ + + +/* + ------------------------------------------------------------------------------- + Helper Macro Definitions + + These express behavior common to many of the high-level annotations. + DO NOT USE THESE IN YOUR CODE. + ------------------------------------------------------------------------------- +*/ + +/* +The helper annotations are only understood by the compiler version used by various +defect detection tools. When the regular compiler is running, they are defined into +nothing, and do not affect the compiled code. +*/ + +#if !defined(__midl) && defined(_PREFAST_) + + /* + In the primitive __declspec("SAL_*") annotations "SAL" stands for Standard + Annotation Language. These __declspec("SAL_*") annotations are the + primitives the compiler understands and all high-level SpecString MACROs + will decompose into these primivates. + */ + + #define SPECSTRINGIZE( x ) #x + + /* + __null p + __notnull p + __maybenull p + + Annotates a pointer p. States that pointer p is null. Commonly used + in the negated form __notnull or the possibly null form __maybenull. + */ + + #define __null __declspec("SAL_null") + #define __notnull __declspec("SAL_notnull") + #define __maybenull __declspec("SAL_maybenull") + + /* + __readonly l + __notreadonly l + __mabyereadonly l + + Annotates a location l. States that location l is not modified after + this point. If the annotation is placed on the precondition state of + a function, the restriction only applies until the postcondition state + of the function. __maybereadonly states that the annotated location + may be modified, whereas __notreadonly states that a location must be + modified. + */ + + #define __readonly __declspec("SAL_readonly") + #define __notreadonly __declspec("SAL_notreadonly") + #define __maybereadonly __declspec("SAL_maybereadonly") + + /* + __valid v + __notvalid v + __maybevalid v + + Annotates any value v. States that the value satisfies all properties of + valid values of its type. For example, for a string buffer, valid means + that the buffer pointer is either NULL or points to a NULL-terminated string. + */ + + #define __valid __declspec("SAL_valid") + #define __notvalid __declspec("SAL_notvalid") + #define __maybevalid __declspec("SAL_maybevalid") + + /* + __readableTo(extent) p + + Annotates a buffer pointer p. If the buffer can be read, extent describes + how much of the buffer is readable. For a reader of the buffer, this is + an explicit permission to read up to that amount, rather than a restriction to + read only up to it. + */ + + #define __readableTo(extent) __declspec("SAL_readableTo("SPECSTRINGIZE(extent)")") + + /* + + __elem_readableTo(size) + + Annotates a buffer pointer p as being readable to size elements. + */ + + #define __elem_readableTo(size) __declspec("SAL_readableTo(elementCount("SPECSTRINGIZE(size)"))") + + /* + __byte_readableTo(size) + + Annotates a buffer pointer p as being readable to size bytes. + */ + #define __byte_readableTo(size) __declspec("SAL_readableTo(byteCount("SPECSTRINGIZE(size)"))") + + /* + __writableTo(extent) p + + Annotates a buffer pointer p. If the buffer can be modified, extent + describes how much of the buffer is writable (usually the allocation + size). For a writer of the buffer, this is an explicit permission to + write up to that amount, rather than a restriction to write only up to it. + */ + #define __writableTo(size) __declspec("SAL_writableTo("SPECSTRINGIZE(size)")") + + /* + __elem_writableTo(size) + + Annotates a buffer pointer p as being writable to size elements. + */ + #define __elem_writableTo(size) __declspec("SAL_writableTo(elementCount("SPECSTRINGIZE(size)"))") + + /* + __byte_writableTo(size) + + Annotates a buffer pointer p as being writable to size bytes. + */ + #define __byte_writableTo(size) __declspec("SAL_writableTo(byteCount("SPECSTRINGIZE(size)"))") + + /* + __deref p + + Annotates a pointer p. The next annotation applies one dereference down + in the type. If readableTo(p, size) then the next annotation applies to + all elements *(p+i) for which i satisfies the size. If p is a pointer + to a struct, the next annotation applies to all fields of the struct. + */ + #define __deref __declspec("SAL_deref") + + /* + __pre __next_annotation + + The next annotation applies in the precondition state + */ + #define __pre __declspec("SAL_pre") + + /* + __post __next_annotation + + The next annotation applies in the postcondition state + */ + #define __post __declspec("SAL_post") + + /* + __precond() + + When is true, the next annotation applies in the precondition state + (currently not enabled) + */ + #define __precond(expr) __pre + + /* + __postcond() + + When is true, the next annotation applies in the postcondition state + (currently not enabled) + */ + #define __postcond(expr) __post + + /* + __exceptthat + + Given a set of annotations Q containing __exceptthat maybeP, the effect of + the except clause is to erase any P or notP annotations (explicit or + implied) within Q at the same level of dereferencing that the except + clause appears, and to replace it with maybeP. + + Example 1: __valid __exceptthat __maybenull on a pointer p means that the + pointer may be null, and is otherwise valid, thus overriding + the implicit notnull annotation implied by __valid on + pointers. + + Example 2: __valid __deref __exceptthat __maybenull on an int **p means + that p is not null (implied by valid), but the elements + pointed to by p could be null, and are otherwise valid. + */ + #define __exceptthat __declspec("SAL_except") + #define __execeptthat __exceptthat + + /* + _refparam + + Added to all out parameter macros to indicate that they are all reference + parameters. + */ + #define __refparam __deref __notreadonly + + /* + __inner_* + + Helper macros that directly correspond to certain high-level annotations. + + */ + + /* + Macros to classify the entrypoints and indicate their category. + + Pre-defined control point categories include: RPC, LPC, DeviceDriver, UserToKernel, ISAPI, COM. + + */ + #define __inner_control_entrypoint(category) __declspec("SAL_entrypoint(controlEntry, "SPECSTRINGIZE(category)")") + + /* + Pre-defined data entry point categories include: Registry, File, Network. + */ + #define __inner_data_entrypoint(category) __declspec("SAL_entrypoint(dataEntry, "SPECSTRINGIZE(category)")") + + #define __inner_success(expr) __declspec("SAL_success("SPECSTRINGIZE(expr)")") + #define __inner_checkReturn __declspec("SAL_checkReturn") + #define __inner_typefix(ctype) __declspec("SAL_typefix("SPECSTRINGIZE(ctype)")") + #define __inner_override __declspec("__override") + #define __inner_callback __declspec("__callback") + #define __inner_blocksOn(resource) __declspec("SAL_blocksOn("SPECSTRINGIZE(resource)")") + #define __inner_fallthrough_dec __inline __nothrow void __FallThrough() {} + #define __inner_fallthrough __FallThrough(); + +#else + #define __null + #define __notnull + #define __maybenull + #define __readonly + #define __notreadonly + #define __maybereadonly + #define __valid + #define __notvalid + #define __maybevalid + #define __readableTo(extent) + #define __elem_readableTo(size) + #define __byte_readableTo(size) + #define __writableTo(size) + #define __elem_writableTo(size) + #define __byte_writableTo(size) + #define __deref + #define __pre + #define __post + #define __precond(expr) + #define __postcond(expr) + #define __exceptthat + #define __execeptthat + #define __inner_success(expr) + #define __inner_checkReturn + #define __inner_typefix(ctype) + #define __inner_override + #define __inner_callback + #define __inner_blocksOn(resource) + #define __inner_fallthrough_dec + #define __inner_fallthrough + #define __refparam + #define __inner_control_entrypoint(category) + #define __inner_data_entrypoint(category) +#endif /* #if !defined(__midl) && defined(_PREFAST_) */ + +/* +------------------------------------------------------------------------------- +Buffer Annotation Definitions + +Any of these may be used to directly annotate functions, but only one should +be used for each parameter. To determine which annotation to use for a given +buffer, use the table in the buffer annotations section. +------------------------------------------------------------------------------- +*/ + +#define __ecount(size) __notnull __elem_writableTo(size) +#define __bcount(size) __notnull __byte_writableTo(size) +#define __in __pre __valid __pre __deref __readonly +#define __in_ecount(size) __in __pre __elem_readableTo(size) +#define __in_bcount(size) __in __pre __byte_readableTo(size) +#define __in_z __in __pre __nullterminated +#define __in_ecount_z(size) __in_ecount(size) __pre __nullterminated +#define __in_bcount_z(size) __in_bcount(size) __pre __nullterminated +#define __in_nz __in +#define __in_ecount_nz(size) __in_ecount(size) +#define __in_bcount_nz(size) __in_bcount(size) +#define __out __ecount(1) __post __valid __refparam +#define __out_ecount(size) __ecount(size) __post __valid __refparam +#define __out_bcount(size) __bcount(size) __post __valid __refparam +#define __out_ecount_part(size,length) __out_ecount(size) __post __elem_readableTo(length) +#define __out_bcount_part(size,length) __out_bcount(size) __post __byte_readableTo(length) +#define __out_ecount_full(size) __out_ecount_part(size,size) +#define __out_bcount_full(size) __out_bcount_part(size,size) +#define __out_z __post __valid __refparam __post __nullterminated +#define __out_z_opt __post __valid __refparam __post __nullterminated __exceptthat __maybenull +#define __out_ecount_z(size) __ecount(size) __post __valid __refparam __post __nullterminated +#define __out_bcount_z(size) __bcount(size) __post __valid __refparam __post __nullterminated +#define __out_ecount_part_z(size,length) __out_ecount_part(size,length) __post __nullterminated +#define __out_bcount_part_z(size,length) __out_bcount_part(size,length) __post __nullterminated +#define __out_ecount_full_z(size) __out_ecount_full(size) __post __nullterminated +#define __out_bcount_full_z(size) __out_bcount_full(size) __post __nullterminated +#define __out_nz __post __valid __refparam __post +#define __out_nz_opt __post __valid __refparam __post __exceptthat __maybenull +#define __out_ecount_nz(size) __ecount(size) __post __valid __refparam +#define __out_bcount_nz(size) __bcount(size) __post __valid __refparam +#define __inout __pre __valid __post __valid __refparam +#define __inout_ecount(size) __out_ecount(size) __pre __valid +#define __inout_bcount(size) __out_bcount(size) __pre __valid +#define __inout_ecount_part(size,length) __out_ecount_part(size,length) __pre __valid __pre __elem_readableTo(length) +#define __inout_bcount_part(size,length) __out_bcount_part(size,length) __pre __valid __pre __byte_readableTo(length) +#define __inout_ecount_full(size) __inout_ecount_part(size,size) +#define __inout_bcount_full(size) __inout_bcount_part(size,size) +#define __inout_z __inout __pre __nullterminated __post __nullterminated +#define __inout_ecount_z(size) __inout_ecount(size) __pre __nullterminated __post __nullterminated +#define __inout_bcount_z(size) __inout_bcount(size) __pre __nullterminated __post __nullterminated +#define __inout_nz __inout +#define __inout_ecount_nz(size) __inout_ecount(size) +#define __inout_bcount_nz(size) __inout_bcount(size) +#define __ecount_opt(size) __ecount(size) __exceptthat __maybenull +#define __bcount_opt(size) __bcount(size) __exceptthat __maybenull +#define __in_opt __in __exceptthat __maybenull +#define __in_ecount_opt(size) __in_ecount(size) __exceptthat __maybenull +#define __in_bcount_opt(size) __in_bcount(size) __exceptthat __maybenull +#define __in_z_opt __in_opt __pre __nullterminated +#define __in_ecount_z_opt(size) __in_ecount_opt(size) __pre __nullterminated +#define __in_bcount_z_opt(size) __in_bcount_opt(size) __pre __nullterminated +#define __in_nz_opt __in_opt +#define __in_ecount_nz_opt(size) __in_ecount_opt(size) +#define __in_bcount_nz_opt(size) __in_bcount_opt(size) +#define __out_opt __out __exceptthat __maybenull +#define __out_ecount_opt(size) __out_ecount(size) __exceptthat __maybenull +#define __out_bcount_opt(size) __out_bcount(size) __exceptthat __maybenull +#define __out_ecount_part_opt(size,length) __out_ecount_part(size,length) __exceptthat __maybenull +#define __out_bcount_part_opt(size,length) __out_bcount_part(size,length) __exceptthat __maybenull +#define __out_ecount_full_opt(size) __out_ecount_full(size) __exceptthat __maybenull +#define __out_bcount_full_opt(size) __out_bcount_full(size) __exceptthat __maybenull +#define __out_ecount_z_opt(size) __out_ecount_opt(size) __post __nullterminated +#define __out_bcount_z_opt(size) __out_bcount_opt(size) __post __nullterminated +#define __out_ecount_part_z_opt(size,length) __out_ecount_part_opt(size,length) __post __nullterminated +#define __out_bcount_part_z_opt(size,length) __out_bcount_part_opt(size,length) __post __nullterminated +#define __out_ecount_full_z_opt(size) __out_ecount_full_opt(size) __post __nullterminated +#define __out_bcount_full_z_opt(size) __out_bcount_full_opt(size) __post __nullterminated +#define __out_ecount_nz_opt(size) __out_ecount_opt(size) __post __nullterminated +#define __out_bcount_nz_opt(size) __out_bcount_opt(size) __post __nullterminated +#define __inout_opt __inout __exceptthat __maybenull +#define __inout_ecount_opt(size) __inout_ecount(size) __exceptthat __maybenull +#define __inout_bcount_opt(size) __inout_bcount(size) __exceptthat __maybenull +#define __inout_ecount_part_opt(size,length) __inout_ecount_part(size,length) __exceptthat __maybenull +#define __inout_bcount_part_opt(size,length) __inout_bcount_part(size,length) __exceptthat __maybenull +#define __inout_ecount_full_opt(size) __inout_ecount_full(size) __exceptthat __maybenull +#define __inout_bcount_full_opt(size) __inout_bcount_full(size) __exceptthat __maybenull +#define __inout_z_opt __inout_opt __pre __nullterminated __post __nullterminated +#define __inout_ecount_z_opt(size) __inout_ecount_opt(size) __pre __nullterminated __post __nullterminated +#define __inout_ecount_z_opt(size) __inout_ecount_opt(size) __pre __nullterminated __post __nullterminated +#define __inout_bcount_z_opt(size) __inout_bcount_opt(size) +#define __inout_nz_opt __inout_opt +#define __inout_ecount_nz_opt(size) __inout_ecount_opt(size) +#define __inout_bcount_nz_opt(size) __inout_bcount_opt(size) +#define __deref_ecount(size) __ecount(1) __post __elem_readableTo(1) __post __deref __notnull __post __deref __elem_writableTo(size) +#define __deref_bcount(size) __ecount(1) __post __elem_readableTo(1) __post __deref __notnull __post __deref __byte_writableTo(size) +#define __deref_out __deref_ecount(1) __post __deref __valid __refparam +#define __deref_out_ecount(size) __deref_ecount(size) __post __deref __valid __refparam +#define __deref_out_bcount(size) __deref_bcount(size) __post __deref __valid __refparam +#define __deref_out_ecount_part(size,length) __deref_out_ecount(size) __post __deref __elem_readableTo(length) +#define __deref_out_bcount_part(size,length) __deref_out_bcount(size) __post __deref __byte_readableTo(length) +#define __deref_out_ecount_full(size) __deref_out_ecount_part(size,size) +#define __deref_out_bcount_full(size) __deref_out_bcount_part(size,size) +#define __deref_out_z __post __deref __valid __refparam __post __deref __nullterminated +#define __deref_out_ecount_z(size) __deref_out_ecount(size) __post __deref __nullterminated +#define __deref_out_bcount_z(size) __deref_out_ecount(size) __post __deref __nullterminated +#define __deref_out_nz __deref_out +#define __deref_out_ecount_nz(size) __deref_out_ecount(size) +#define __deref_out_bcount_nz(size) __deref_out_ecount(size) +#define __deref_inout __notnull __elem_readableTo(1) __pre __deref __valid __post __deref __valid __refparam +#define __deref_inout_z __deref_inout __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_inout_ecount(size) __deref_inout __pre __deref __elem_writableTo(size) __post __deref __elem_writableTo(size) +#define __deref_inout_bcount(size) __deref_inout __pre __deref __byte_writableTo(size) __post __deref __byte_writableTo(size) +#define __deref_inout_ecount_part(size,length) __deref_inout_ecount(size) __pre __deref __elem_readableTo(length) __post __deref __elem_readableTo(length) +#define __deref_inout_bcount_part(size,length) __deref_inout_bcount(size) __pre __deref __byte_readableTo(length) __post __deref __byte_readableTo(length) +#define __deref_inout_ecount_full(size) __deref_inout_ecount_part(size,size) +#define __deref_inout_bcount_full(size) __deref_inout_bcount_part(size,size) +#define __deref_inout_z __deref_inout __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_inout_ecount_z(size) __deref_inout_ecount(size) __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_inout_bcount_z(size) __deref_inout_bcount(size) __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_inout_nz __deref_inout +#define __deref_inout_ecount_nz(size) __deref_inout_ecount(size) +#define __deref_inout_bcount_nz(size) __deref_inout_ecount(size) +#define __deref_ecount_opt(size) __deref_ecount(size) __post __deref __exceptthat __maybenull +#define __deref_bcount_opt(size) __deref_bcount(size) __post __deref __exceptthat __maybenull +#define __deref_out_opt __deref_out __post __deref __exceptthat __maybenull +#define __deref_out_ecount_opt(size) __deref_out_ecount(size) __post __deref __exceptthat __maybenull +#define __deref_out_bcount_opt(size) __deref_out_bcount(size) __post __deref __exceptthat __maybenull +#define __deref_out_ecount_part_opt(size,length) __deref_out_ecount_part(size,length) __post __deref __exceptthat __maybenull +#define __deref_out_bcount_part_opt(size,length) __deref_out_bcount_part(size,length) __post __deref __exceptthat __maybenull +#define __deref_out_ecount_full_opt(size) __deref_out_ecount_full(size) __post __deref __exceptthat __maybenull +#define __deref_out_bcount_full_opt(size) __deref_out_bcount_full(size) __post __deref __exceptthat __maybenull +#define __deref_out_z_opt __post __deref __valid __refparam __execeptthat __maybenull __post __deref __nullterminated +#define __deref_out_ecount_z_opt(size) __deref_out_ecount_opt(size) __post __deref __nullterminated +#define __deref_out_bcount_z_opt(size) __deref_out_bcount_opt(size) __post __deref __nullterminated +#define __deref_out_nz_opt __deref_out_opt +#define __deref_out_ecount_nz_opt(size) __deref_out_ecount_opt(size) +#define __deref_out_bcount_nz_opt(size) __deref_out_bcount_opt(size) +#define __deref_inout_opt __deref_inout __pre __deref __exceptthat __maybenull __post __deref __exceptthat __maybenull +#define __deref_inout_ecount_opt(size) __deref_inout_ecount(size) __pre __deref __exceptthat __maybenull __post __deref __exceptthat __maybenull +#define __deref_inout_bcount_opt(size) __deref_inout_bcount(size) __pre __deref __exceptthat __maybenull __post __deref __exceptthat __maybenull +#define __deref_inout_ecount_part_opt(size,length) __deref_inout_ecount_part(size,length) __pre __deref __exceptthat __maybenull __post __deref __exceptthat __maybenull +#define __deref_inout_bcount_part_opt(size,length) __deref_inout_bcount_part(size,length) __pre __deref __exceptthat __maybenull __post __deref __exceptthat __maybenull +#define __deref_inout_ecount_full_opt(size) __deref_inout_ecount_full(size) __pre __deref __exceptthat __maybenull __post __deref __exceptthat __maybenull +#define __deref_inout_bcount_full_opt(size) __deref_inout_bcount_full(size) __pre __deref __exceptthat __maybenull __post __deref __exceptthat __maybenull +#define __deref_inout_z_opt __deref_inout_opt __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_inout_ecount_z_opt(size) __deref_inout_ecount_opt(size) __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_inout_bcount_z_opt(size) __deref_inout_bcount_opt(size) __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_inout_nz_opt __deref_inout_opt +#define __deref_inout_ecount_nz_opt(size) __deref_inout_ecount_opt(size) +#define __deref_inout_bcount_nz_opt(size) __deref_inout_bcount_opt(size) +#define __deref_opt_ecount(size) __deref_ecount(size) __exceptthat __maybenull +#define __deref_opt_bcount(size) __deref_bcount(size) __exceptthat __maybenull +#define __deref_opt_out __deref_out __exceptthat __maybenull +#define __deref_opt_out_z __deref_opt_out __post __deref __nullterminated +#define __deref_opt_out_ecount(size) __deref_out_ecount(size) __exceptthat __maybenull +#define __deref_opt_out_bcount(size) __deref_out_bcount(size) __exceptthat __maybenull +#define __deref_opt_out_ecount_part(size,length) __deref_out_ecount_part(size,length) __exceptthat __maybenull +#define __deref_opt_out_bcount_part(size,length) __deref_out_bcount_part(size,length) __exceptthat __maybenull +#define __deref_opt_out_ecount_full(size) __deref_out_ecount_full(size) __exceptthat __maybenull +#define __deref_opt_out_bcount_full(size) __deref_out_bcount_full(size) __exceptthat __maybenull +#define __deref_opt_inout __deref_inout __exceptthat __maybenull +#define __deref_opt_inout_ecount(size) __deref_inout_ecount(size) __exceptthat __maybenull +#define __deref_opt_inout_bcount(size) __deref_inout_bcount(size) __exceptthat __maybenull +#define __deref_opt_inout_ecount_part(size,length) __deref_inout_ecount_part(size,length) __exceptthat __maybenull +#define __deref_opt_inout_bcount_part(size,length) __deref_inout_bcount_part(size,length) __exceptthat __maybenull +#define __deref_opt_inout_ecount_full(size) __deref_inout_ecount_full(size) __exceptthat __maybenull +#define __deref_opt_inout_bcount_full(size) __deref_inout_bcount_full(size) __exceptthat __maybenull +#define __deref_opt_inout_z __deref_opt_inout __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_opt_inout_ecount_z(size) __deref_opt_inout_ecount(size) __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_opt_inout_bcount_z(size) __deref_opt_inout_bcount(size) __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_opt_inout_nz __deref_opt_inout +#define __deref_opt_inout_ecount_nz(size) __deref_opt_inout_ecount(size) +#define __deref_opt_inout_bcount_nz(size) __deref_opt_inout_bcount(size) +#define __deref_opt_ecount_opt(size) __deref_ecount_opt(size) __exceptthat __maybenull +#define __deref_opt_bcount_opt(size) __deref_bcount_opt(size) __exceptthat __maybenull +#define __deref_opt_out_opt __deref_out_opt __exceptthat __maybenull +#define __deref_opt_out_ecount_opt(size) __deref_out_ecount_opt(size) __exceptthat __maybenull +#define __deref_opt_out_bcount_opt(size) __deref_out_bcount_opt(size) __exceptthat __maybenull +#define __deref_opt_out_ecount_part_opt(size,length) __deref_out_ecount_part_opt(size,length) __exceptthat __maybenull +#define __deref_opt_out_bcount_part_opt(size,length) __deref_out_bcount_part_opt(size,length) __exceptthat __maybenull +#define __deref_opt_out_ecount_full_opt(size) __deref_out_ecount_full_opt(size) __exceptthat __maybenull +#define __deref_opt_out_bcount_full_opt(size) __deref_out_bcount_full_opt(size) __exceptthat __maybenull +#define __deref_opt_out_z_opt __post __deref __valid __refparam __exceptthat __maybenull __pre __deref __exceptthat __maybenull __post __deref __exceptthat __maybenull __post __deref __nullterminated +#define __deref_opt_out_ecount_z_opt(size) __deref_opt_out_ecount_opt(size) __post __deref __nullterminated +#define __deref_opt_out_bcount_z_opt(size) __deref_opt_out_bcount_opt(size) __post __deref __nullterminated +#define __deref_opt_out_nz_opt __deref_opt_out_opt +#define __deref_opt_out_ecount_nz_opt(size) __deref_opt_out_ecount_opt(size) +#define __deref_opt_out_bcount_nz_opt(size) __deref_opt_out_bcount_opt(size) +#define __deref_opt_inout_opt __deref_inout_opt __exceptthat __maybenull +#define __deref_opt_inout_ecount_opt(size) __deref_inout_ecount_opt(size) __exceptthat __maybenull +#define __deref_opt_inout_bcount_opt(size) __deref_inout_bcount_opt(size) __exceptthat __maybenull +#define __deref_opt_inout_ecount_part_opt(size,length) __deref_inout_ecount_part_opt(size,length) __exceptthat __maybenull +#define __deref_opt_inout_bcount_part_opt(size,length) __deref_inout_bcount_part_opt(size,length) __exceptthat __maybenull +#define __deref_opt_inout_ecount_full_opt(size) __deref_inout_ecount_full_opt(size) __exceptthat __maybenull +#define __deref_opt_inout_bcount_full_opt(size) __deref_inout_bcount_full_opt(size) __exceptthat __maybenull +#define __deref_opt_inout_z_opt __deref_opt_inout_opt __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_opt_inout_ecount_z_opt(size) __deref_opt_inout_ecount_opt(size) __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_opt_inout_bcount_z_opt(size) __deref_opt_inout_bcount_opt(size) __pre __deref __nullterminated __post __deref __nullterminated +#define __deref_opt_inout_nz_opt __deref_opt_inout_opt +#define __deref_opt_inout_ecount_nz_opt(size) __deref_opt_inout_ecount_opt(size) +#define __deref_opt_inout_bcount_nz_opt(size) __deref_opt_inout_bcount_opt(size) + +/* +------------------------------------------------------------------------------- +Advanced Annotation Definitions + +Any of these may be used to directly annotate functions, and may be used in +combination with each other or with regular buffer macros. For an explanation +of each annotation, see the advanced annotations section. +------------------------------------------------------------------------------- +*/ + +#define __success(expr) __inner_success(expr) +#define __nullterminated __readableTo(sentinel(0)) +#define __nullnullterminated +#define __reserved __pre __null +#define __checkReturn __inner_checkReturn +#define __typefix(ctype) __inner_typefix(ctype) +#define __override __inner_override +#define __callback __inner_callback +#define __format_string +#define __blocksOn(resource) __inner_blocksOn(resource) +#define __control_entrypoint(category) __inner_control_entrypoint(category) +#define __data_entrypoint(category) __inner_data_entrypoint(category) + +#ifndef __fallthrough + __inner_fallthrough_dec + #define __fallthrough __inner_fallthrough +#endif + +#ifndef __analysis_assume +#ifdef _PREFAST_ +#define __analysis_assume(expr) __assume(expr) +#else +#define __analysis_assume(expr) +#endif +#endif + +#ifdef __cplusplus +} +#endif + + -- cgit v1.2.3