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544 lines
12 KiB
544 lines
12 KiB
/*++
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Copyright (c) 2000 Microsoft Corporation
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Module Name:
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stralign.h
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Abstract:
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This module contains macros and prototypes to expose the unaligned wide
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character interfaces.
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Public interfaces created or declared here include:
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ua_CharUpper()
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ua_CharUpperW()
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ua_lstrcmp()
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ua_lstrcmpW()
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ua_lstrcmpi()
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ua_lstrcmpiW()
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ua_lstrlen()
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ua_lstrlenW()
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ua_tcscpy()
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ua_wcschr()
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ua_wcscpy()
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ua_wcslen()
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ua_wcsrchr()
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STRUC_ALIGNED_STACK_COPY()
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TSTR_ALIGNED()
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TSTR_ALIGNED_STACK_COPY()
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WSTR_ALIGNED()
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WSTR_ALIGNED_STACK_COPY()
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Author:
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Revision History:
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--*/
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#if !defined(__STRALIGN_H_) && !defined(MIDL_PASS)
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#define __STRALIGN_H_
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#ifdef __cplusplus
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extern "C" {
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#endif
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#if defined(_X86_)
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//
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// Alignment of unicode strings is not necessary on X86.
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//
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#define WSTR_ALIGNED(s) TRUE
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#define ua_CharUpperW CharUpperW
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#define ua_lstrcmpiW lstrcmpiW
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#define ua_lstrcmpW lstrcmpW
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#define ua_lstrlenW lstrlenW
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#define ua_wcschr wcschr
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#define ua_wcscpy wcscpy
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#define ua_wcslen wcslen
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#define ua_wcsrchr wcsrchr
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#else
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//
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// The C runtime libraries expect aligned string pointers. Following are the
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// prototypes for our own, slower worker functions that accept unaligned
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// UNICODE strings.
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//
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//
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// Macro to determine whether a pointer to a unicode character is naturally
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// aligned.
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//
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#define WSTR_ALIGNED(s) (((DWORD_PTR)(s) & (sizeof(WCHAR)-1)) == 0)
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//
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// Platform-specific prototypes for worker functions exported from kernel32.
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// Do not call these directly, they do not exist on all platforms. Instead
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// use the equivalent ua_xxx() routines.
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//
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LPUWSTR
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WINAPI
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uaw_CharUpperW(
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IN OUT LPUWSTR String
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);
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int
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APIENTRY
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uaw_lstrcmpW(
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IN PCUWSTR String1,
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IN PCUWSTR String2
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);
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int
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APIENTRY
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uaw_lstrcmpiW(
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IN PCUWSTR String1,
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IN PCUWSTR String2
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);
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int
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WINAPI
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uaw_lstrlenW(
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IN LPCUWSTR String
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);
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PUWSTR
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__cdecl
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uaw_wcschr(
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IN PCUWSTR String,
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IN WCHAR Character
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);
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PUWSTR
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_cdecl
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uaw_wcscpy(
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IN PUWSTR Destination,
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IN PCUWSTR Source
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);
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size_t
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__cdecl
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uaw_wcslen(
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IN PCUWSTR String
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);
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PUWSTR
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__cdecl
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uaw_wcsrchr(
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IN PCUWSTR String,
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IN WCHAR Character
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);
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//
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// Following are the inline wrappers that determine the optimal worker function
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// to call based on the alignment of the UNICODE string arguments. Their
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// behavior is otherwise identical to the corresponding standard run-time
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// routiunes.
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//
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#if defined(CharUpper)
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__inline
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LPUWSTR
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static
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ua_CharUpperW(
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LPUWSTR String
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)
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{
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if (WSTR_ALIGNED(String)) {
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return CharUpperW( (PWSTR)String );
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} else {
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return uaw_CharUpperW( String );
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}
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}
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#endif
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#if defined(lstrcmp)
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__inline
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int
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static
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ua_lstrcmpW(
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IN LPCUWSTR String1,
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IN LPCUWSTR String2
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)
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{
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if (WSTR_ALIGNED(String1) && WSTR_ALIGNED(String2)) {
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return lstrcmpW( (LPCWSTR)String1, (LPCWSTR)String2);
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} else {
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return uaw_lstrcmpW( String1, String2 );
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}
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}
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#endif
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#if defined(lstrcmpi)
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__inline
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int
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static
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ua_lstrcmpiW(
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IN LPCUWSTR String1,
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IN LPCUWSTR String2
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)
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{
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if (WSTR_ALIGNED(String1) && WSTR_ALIGNED(String2)) {
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return lstrcmpiW( (LPCWSTR)String1, (LPCWSTR)String2 );
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} else {
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return uaw_lstrcmpiW( String1, String2 );
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}
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}
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#endif
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#if defined(lstrlen)
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__inline
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int
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static
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ua_lstrlenW(
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IN LPCUWSTR String
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)
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{
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if (WSTR_ALIGNED(String)) {
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return lstrlenW( (PCWSTR)String );
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} else {
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return uaw_lstrlenW( String );
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}
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}
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#endif
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#if defined(_WSTRING_DEFINED)
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//
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// Certain run-time string functions are overloaded in C++, to avoid
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// inadvertent stripping of the const attribute.
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//
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// The functions of interest here include: wcschr and wcsrchr.
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//
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// There are three flavors of these functions:
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//
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// Flavor Returns Parameter
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//
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// 1 PWSTR PCWSTR
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// 2 PCWSTR PCWSTR
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// 3 PWSTR PWSTR
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//
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// string.h declares flavor 1 whether for C or C++. This is the non-ANSI,
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// backward compatible mode.
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//
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// wchar.h declares flavor 1 if C, or flavors 2 and 3 if C++. This is the
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// ANSI method.
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//
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// Our corresponding functions need to match what was declared. The way
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// we can tell is by looking at _WConst_return... if it is defined then
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// we want to match the prototypes in wchar.h, otherwise we'll match
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// the prototypes in string.h.
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//
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#if defined(_WConst_return)
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typedef _WConst_return WCHAR UNALIGNED *PUWSTR_C;
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#else
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typedef WCHAR UNALIGNED *PUWSTR_C;
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#endif
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//
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// Here is flavor 1 or 2
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//
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__inline
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PUWSTR_C
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static
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ua_wcschr(
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IN PCUWSTR String,
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IN WCHAR Character
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)
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{
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if (WSTR_ALIGNED(String)) {
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return wcschr((PCWSTR)String, Character);
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} else {
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return (PUWSTR_C)uaw_wcschr(String, Character);
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}
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}
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__inline
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PUWSTR_C
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static
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ua_wcsrchr(
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IN PCUWSTR String,
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IN WCHAR Character
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)
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{
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if (WSTR_ALIGNED(String)) {
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return wcsrchr((PCWSTR)String, Character);
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} else {
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return (PUWSTR_C)uaw_wcsrchr(String, Character);
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}
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}
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#if defined(__cplusplus) && defined(_WConst_Return)
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//
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// Here is flavor 3
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//
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__inline
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PUWSTR
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static
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ua_wcschr(
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IN PUWSTR String,
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IN WCHAR Character
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)
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{
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if (WSTR_ALIGNED(String)) {
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return wcschr(String, Character);
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} else {
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return uaw_wcschr((PCUWSTR)String, Character);
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}
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}
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__inline
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PUWSTR
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static
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ua_wcsrchr(
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IN PUWSTR String,
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IN WCHAR Character
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)
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{
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if (WSTR_ALIGNED(String)) {
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return wcsrchr(String, Character);
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} else {
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return uaw_wcsrchr((PCUWSTR)String, Character);
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}
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}
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#endif // __cplusplus && _WConst_Return
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__inline
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PUWSTR
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static
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ua_wcscpy(
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IN PUWSTR Destination,
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IN PCUWSTR Source
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)
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{
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if (WSTR_ALIGNED(Source) && WSTR_ALIGNED(Destination)) {
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return wcscpy( (PWSTR)Destination, (PCWSTR)Source );
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} else {
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return uaw_wcscpy( Destination, Source );
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}
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}
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__inline
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size_t
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static
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ua_wcslen(
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IN PCUWSTR String
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)
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{
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if (WSTR_ALIGNED(String)) {
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return wcslen( (PCWSTR)String );
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} else {
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return uaw_wcslen( String );
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}
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}
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#endif // _WSTRING_DEFINED
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#endif // _X86_
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//++
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//
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// VOID
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// WSTR_ALIGNED_STACK_COPY (
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// OUT PCWSTR *TargetString,
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// IN PCUWSTR SourceString OPTIONAL
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// )
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//
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// VOID
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// TSTR_ALIGNED_STACK_COPY (
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// OUT PCTSTR *TargetString,
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// IN PCUTSTR SourceString OPTIONAL
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// )
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//
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// Routine Description:
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//
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// These macros set TargetString to an aligned pointer to the string
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// represented by SourceString. If necessary, an aligned copy of
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// SourceString is copied onto the stack.
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//
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// Arguments:
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//
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// TargetString - Supplies a pointer to a pointer to the resultant
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// string. This may be the same as SourceString if
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// that argument is aligned.
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//
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// SourceString - Supplies a pointer to the possibly unaligned UNICODE
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// string.
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//
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// Return Value:
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//
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// None.
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//
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// Note:
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//
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// These macros may allocate memory on the stack via the CRT function
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// _alloca(). This memory is "freed" when the calling function exits.
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// As a result, do not use these macros inside of a loop that may execute
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// a large number of times - instead, use a wrapper function, or use
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// an explicit buffer like this:
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//
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// TCHAR AlignedStringBuffer[ MAX_FOOSTR_CHARS ];
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// PTSTR AlignedString;
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//
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// while (a < b) {
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// ...
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// if (TSTR_ALIGNED(s) {
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// AlignedString = s;
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// } else {
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// AlignedString = (PTSTR)ua_tcscpy(AlignedStringBuffer,s);
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// }
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// SomeSystemFunction(AlignedString);
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// ...
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// }
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//
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//
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//--
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//
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// __UA_WSTRSIZE returns the number of bytes required to store the
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// supplied null-terminated UNICODE string.
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//
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// __UA_LOCALCOPY accepts a pointer to unaligned data and a size. It
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// allocates an aligned buffer on the stack and copies the data into
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// it, returning a pointer to the buffer.
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//
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#if !defined(__UA_WCSLEN)
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#define __UA_WCSLEN ua_wcslen
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#endif
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#define __UA_WSTRSIZE(s) ((__UA_WCSLEN(s)+1)*sizeof(WCHAR))
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#define __UA_STACKCOPY(p,s) memcpy(_alloca(s),p,s)
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//
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// Note that NULL is aligned.
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//
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#if defined(_X86_)
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#define WSTR_ALIGNED_STACK_COPY(d,s) (*(d) = (PCWSTR)(s))
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#else
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//
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// Use of an inline function here is not possible, as the results of
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// the _alloca() will not be preserved upon return from the function.
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//
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#define WSTR_ALIGNED_STACK_COPY(d,s) \
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{ \
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PCUWSTR __ua_src; \
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ULONG __ua_size; \
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PWSTR __ua_dst; \
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\
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__ua_src = (s); \
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if (WSTR_ALIGNED(__ua_src)) { \
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__ua_dst = (PWSTR)__ua_src; \
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} else { \
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__ua_size = __UA_WSTRSIZE(__ua_src); \
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__ua_dst = (PWSTR)_alloca(__ua_size); \
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memcpy(__ua_dst,__ua_src,__ua_size); \
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} \
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*(d) = (PCWSTR)__ua_dst; \
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}
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#endif
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#define ASTR_ALIGNED_STACK_COPY(d,s) (*(d) = (PCSTR)(s))
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//++
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//
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// <type> CONST *
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// STRUC_ALIGNED_STACK_COPY (
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// IN <type name>,
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// IN PVOID Struc OPTIONAL
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// )
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//
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// Routine Description:
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//
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// This macro returns an aligned pointer to Struc, creating a local
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// copy on the stack if necessary.
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//
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// This should be used only for relatively small structures, and efforts
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// should be made to align the structure properly in the first place. Use
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// this macro only as a last resort.
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//
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// Arguments:
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//
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// <type> - The type specifier of Struc
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//
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// Struc - Supplies a pointer to the structure in question.
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//
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// Return Value:
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//
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// Returns a const pointer to Struc if it is properly aligned, or a pointer
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// to a stack-allocated copy of Struc if it is not.
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//
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//--
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#if !defined(_X86_)
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#define __UA_STRUC_ALIGNED(t,s) \
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(((DWORD_PTR)(s) & (TYPE_ALIGNMENT(t)-1)) == 0)
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#define STRUC_ALIGNED_STACK_COPY(t,s) \
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__UA_STRUC_ALIGNED(t,s) ? \
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((t const *)(s)) : \
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((t const *)__UA_STACKCOPY((s),sizeof(t)))
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#else
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#define STRUC_ALIGNED_STACK_COPY(t,s) ((CONST t *)(s))
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#endif
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#if defined(UNICODE)
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#define TSTR_ALIGNED_STACK_COPY(d,s) WSTR_ALIGNED_STACK_COPY(d,s)
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#define TSTR_ALIGNED(x) WSTR_ALIGNED(x)
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#define ua_CharUpper ua_CharUpperW
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#define ua_lstrcmp ua_lstrcmpW
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#define ua_lstrcmpi ua_lstrcmpiW
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#define ua_lstrlen ua_lstrlenW
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#define ua_tcscpy ua_wcscpy
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#else
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#define TSTR_ALIGNED_STACK_COPY(d,s) ASTR_ALIGNED_STACK_COPY(d,s)
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#define TSTR_ALIGNED(x) TRUE
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#define ua_CharUpper CharUpperA
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#define ua_lstrcmp lstrcmpA
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#define ua_lstrcmpi lstrcmpiA
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#define ua_lstrlen lstrlenA
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#define ua_tcscpy strcpy
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#endif // UNICODE
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#ifdef __cplusplus
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}
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#endif
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#endif // __STRALIGN_H_
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