mirror of
https://github.com/reactos/reactos.git
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7c3aabc088
CORE-17601 Dynamically load SetThreadUILanguage(), so as to support systems where this API is not present. Hopefully implemented in a thread-safe manner.
444 lines
15 KiB
C
444 lines
15 KiB
C
/*
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* PROJECT: ReactOS Console Utilities Library
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* LICENSE: GPL-2.0+ (https://spdx.org/licenses/GPL-2.0+)
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* PURPOSE: Base set of functions for loading string resources
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* and message strings, and handle type identification.
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* COPYRIGHT: Copyright 2017-2021 ReactOS Team
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* Copyright 2017-2021 Hermes Belusca-Maito
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*/
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/**
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* @file utils.c
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* @ingroup ConUtils
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*
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* @brief General-purpose utility functions (wrappers around
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* or reimplementations of Win32 APIs).
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**/
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/* FIXME: Temporary HACK before we cleanly support UNICODE functions */
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#define UNICODE
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#define _UNICODE
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#include <windef.h>
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#include <winbase.h>
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#include <winnls.h>
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#include <winuser.h> // MAKEINTRESOURCEW, RT_STRING
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#include <wincon.h> // Console APIs (only if kernel32 support included)
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#include <strsafe.h>
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/* PSEH for SEH Support */
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#include <pseh/pseh2.h>
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// #include "conutils.h"
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#include "utils.h"
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#if 0 // The following function may be useful in the future...
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// Performs MultiByteToWideChar then WideCharToMultiByte .
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// See https://github.com/pcman-bbs/pcman-windows/blob/master/Lite/StrUtils.h#l33
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// and http://www.openfoundry.org/svn/pcman/branches/OpenPCMan_2009/Lite/StrUtils.cpp
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// for the idea.
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int
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MultiByteToMultiByte(
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// IN WORD wTranslations,
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IN DWORD dwFlags,
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IN UINT SrcCodePage,
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IN LPCSTR lpSrcString,
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IN int cbSrcChar,
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IN UINT DestCodePage,
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OUT LPSTR wDestString OPTIONAL,
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IN int cbDestChar
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);
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#endif
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/**
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* @name K32LoadStringExW
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* Loads a string resource from the executable file associated with a
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* specified module, copies the string into a buffer, and appends a
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* terminating null character.
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* This is basically the LoadString() API ripped from user32.dll to
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* remove any dependency of ConUtils from user32.dll, and to add support
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* for loading strings from other languages than the current one.
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*
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* @param[in] hInstance
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* Optional handle to an instance of the module whose executable file
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* contains the string resource. Can be set to NULL to get the handle
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* to the application itself.
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*
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* @param[in] uID
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* The identifier of the string to be loaded.
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*
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* @param[in] LanguageId
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* The language identifier of the resource. If this parameter is
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* <tt>MAKELANGID(LANG_NEUTRAL, SUBLANG_NEUTRAL)</tt>, the current language
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* associated with the calling thread is used. To specify a language other
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* than the current language, use the @c MAKELANGID macro to create this
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* parameter.
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*
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* @param[out] lpBuffer
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* The buffer that receives the string. Must be of sufficient length
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* to hold a pointer (8 bytes).
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*
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* @param[in] nBufferMax
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* The size of the buffer, in characters. The string is truncated and
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* NULL-terminated if it is longer than the number of characters specified.
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* If this parameter is 0, then @p lpBuffer receives a read-only pointer
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* to the resource itself.
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*
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* @return
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* If the function succeeds, the return value is the number of characters
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* copied into the buffer, not including the terminating null character,
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* or zero if the string resource does not exist. To get extended error
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* information, call GetLastError().
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*
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* @see LoadString(), K32LoadStringW()
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**/
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INT
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WINAPI
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K32LoadStringExW(
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IN HINSTANCE hInstance OPTIONAL,
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IN UINT uID,
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IN LANGID LanguageId,
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OUT LPWSTR lpBuffer,
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IN INT nBufferMax)
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{
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HRSRC hrsrc;
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HGLOBAL hmem;
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WCHAR *p;
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UINT i;
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if (!lpBuffer)
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return 0;
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/* Use LOWORD (incremented by 1) as ResourceID */
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/* There are always blocks of 16 strings */
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hrsrc = FindResourceExW(hInstance,
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(LPCWSTR)RT_STRING,
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MAKEINTRESOURCEW((LOWORD(uID) >> 4) + 1),
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LanguageId);
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if (!hrsrc) return 0;
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hmem = LoadResource(hInstance, hrsrc);
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if (!hmem) return 0;
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p = LockResource(hmem);
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// FreeResource(hmem);
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/* Find the string we're looking for */
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uID &= 0x000F; /* Position in the block, same as % 16 */
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for (i = 0; i < uID; i++)
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p += *p + 1;
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/*
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* If nBufferMax == 0, then return a read-only pointer
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* to the resource itself in lpBuffer it is assumed that
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* lpBuffer is actually a (LPWSTR*).
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*/
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if (nBufferMax == 0)
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{
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*((LPWSTR*)lpBuffer) = p + 1;
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return *p;
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}
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i = min(nBufferMax - 1, *p);
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if (i > 0)
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{
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memcpy(lpBuffer, p + 1, i * sizeof(WCHAR));
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lpBuffer[i] = L'\0';
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}
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else
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{
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if (nBufferMax > 1)
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{
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lpBuffer[0] = L'\0';
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return 0;
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}
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}
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return i;
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}
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/**
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* @name K32LoadStringW
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* Loads a string resource from the executable file associated with a
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* specified module, copies the string into a buffer, and appends a
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* terminating null character.
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* This is a restricted version of K32LoadStringExW().
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*
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* @see LoadString(), K32LoadStringExW()
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**/
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INT
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WINAPI
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K32LoadStringW(
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IN HINSTANCE hInstance OPTIONAL,
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IN UINT uID,
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OUT LPWSTR lpBuffer,
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IN INT nBufferMax)
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{
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// NOTE: Instead of using LANG_NEUTRAL, one might use LANG_USER_DEFAULT...
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return K32LoadStringExW(hInstance, uID,
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MAKELANGID(LANG_NEUTRAL, SUBLANG_NEUTRAL),
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lpBuffer, nBufferMax);
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}
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/**
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* @name FormatMessageSafeW
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* Loads and formats a message string. The function requires a message
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* definition as input. The message definition can come from a buffer
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* passed to the function. It can come from a message table resource in
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* an already-loaded module, or the caller can ask the function to search
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* the system's message table resource(s) for the message definition.
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* Please refer to the Win32 FormatMessage() function for more details.
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*
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* @param[in] dwFlags
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* The formatting options, and how to interpret the @p lpSource parameter.
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* See FormatMessage() for more details.
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*
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* @param[in] lpSource
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* The location of the message definition. The type of this parameter
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* depends upon the settings in the @p dwFlags parameter.
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*
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* @param[in] dwMessageId
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* The message identifier for the requested message. This parameter
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* is ignored if @p dwFlags includes @b FORMAT_MESSAGE_FROM_STRING.
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*
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* @param[in] dwLanguageId
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* The language identifier for the requested message. This parameter
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* is ignored if @p dwFlags includes @b FORMAT_MESSAGE_FROM_STRING.
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*
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* @param[out] lpBuffer
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* A pointer to a buffer that receives the null-terminated string that
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* specifies the formatted message. If @p dwFlags includes
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* @b FORMAT_MESSAGE_ALLOCATE_BUFFER, the function allocates a buffer
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* using the LocalAlloc() function, and places the pointer to the buffer
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* at the address specified in @p lpBuffer.
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* This buffer cannot be larger than 64kB.
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*
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* @param[in] nSize
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* If the @b FORMAT_MESSAGE_ALLOCATE_BUFFER flag is not set, this parameter
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* specifies the size of the output buffer, in @b TCHARs.
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* If @b FORMAT_MESSAGE_ALLOCATE_BUFFER is set, this parameter specifies
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* the minimum number of @b TCHARs to allocate for an output buffer.
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* The output buffer cannot be larger than 64kB.
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*
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* @param[in] Arguments
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* Optional pointer to an array of values describing a variable number of
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* arguments, depending on the message string. Each argument is used to
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* replace an <em>insert sequence</em> in the message string.
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* By default, the @p Arguments parameter is of type @c va_list*, initialized
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* with va_start(). The state of the @c va_list argument is undefined upon
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* return from the function. To use the @c va_list again, destroy the variable
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* argument list pointer using va_end() and reinitialize it with va_start().
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* If you do not have a pointer of type @c va_list*, then specify the
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* @b FORMAT_MESSAGE_ARGUMENT_ARRAY flag and pass a pointer to an array
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* of @c DWORD_PTR values; those values are input to the message formatted
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* as the insert values. Each insert must have a corresponding element in
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* the array.
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*
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* @return
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* If the function succeeds, the return value is the number of characters
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* copied into the buffer, not including the terminating null character,
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* or zero if the string resource does not exist. To get extended error
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* information, call GetLastError().
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*
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* @remark
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* This function is a "safe" version of FormatMessage(), that does not
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* crash if a malformed source string is retrieved and then being used
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* for formatting. It basically wraps calls to FormatMessage() within SEH.
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*
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* @see <a href="https://docs.microsoft.com/en-us/windows/win32/api/winbase/nf-winbase-formatmessage">FormatMessage() (on MSDN)</a>
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**/
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DWORD
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WINAPI
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FormatMessageSafeW(
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IN DWORD dwFlags,
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IN LPCVOID lpSource OPTIONAL,
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IN DWORD dwMessageId,
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IN DWORD dwLanguageId,
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OUT LPWSTR lpBuffer,
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IN DWORD nSize,
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IN va_list *Arguments OPTIONAL)
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{
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DWORD dwLength = 0;
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_SEH2_TRY
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{
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/*
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* Retrieve the message string. Wrap in SEH
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* to protect from invalid string parameters.
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*/
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_SEH2_TRY
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{
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dwLength = FormatMessageW(dwFlags,
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lpSource,
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dwMessageId,
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dwLanguageId,
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lpBuffer,
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nSize,
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Arguments);
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}
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_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
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{
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dwLength = 0;
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/*
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* An exception occurred while calling FormatMessage, this is usually
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* the sign that a parameter was invalid, either 'lpBuffer' was NULL
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* but we did not pass the flag FORMAT_MESSAGE_ALLOCATE_BUFFER, or the
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* array pointer 'Arguments' was NULL or did not contain enough elements,
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* and we did not pass the flag FORMAT_MESSAGE_IGNORE_INSERTS, and the
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* message string expected too many inserts.
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* In this last case only, we can call again FormatMessage but ignore
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* explicitly the inserts. The string that we will return to the user
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* will not be pre-formatted.
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*/
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if (((dwFlags & FORMAT_MESSAGE_ALLOCATE_BUFFER) || lpBuffer) &&
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!(dwFlags & FORMAT_MESSAGE_IGNORE_INSERTS))
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{
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/* Remove any possible harmful flags and always ignore inserts */
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dwFlags &= ~FORMAT_MESSAGE_ARGUMENT_ARRAY;
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dwFlags |= FORMAT_MESSAGE_IGNORE_INSERTS;
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/* If this call also throws an exception, we are really dead */
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dwLength = FormatMessageW(dwFlags,
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lpSource,
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dwMessageId,
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dwLanguageId,
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lpBuffer,
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nSize,
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NULL /* Arguments */);
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}
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}
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_SEH2_END;
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}
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_SEH2_FINALLY
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{
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}
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_SEH2_END;
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return dwLength;
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}
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/**
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* @name ConSetThreadUILanguage
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* Sets the current thread's user interface language.
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* Mostly used by console applications for selecting a
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* language identifier that best supports the NT Console.
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* This function dynamically loads and calls kernel32!SetThreadUILanguage()
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* so as to be able to work on older environments where this
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* API is not supported.
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* The FormatMessage() API also bases itself on the thread's
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* current language for its default behaviour (unless an explicit
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* language identifier has been provided).
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*
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* @param[in,opt] LangId
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* (Vista+) A non-zero language identifier that specifies the
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* current thread's user interface language to set.
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* (XP/2003) Set the language identifier to 0 for selecting a
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* language identifier that best supports the NT Console.
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*
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* @return
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* Returns LangId in case of success, or 0 in case of failure.
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* If LangId was set to 0, the function always succeeds and returns
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* the language identifier that best supports the NT Console.
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*
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* @remark
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* This function is thread-safe.
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*
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* @see <a href="https://docs.microsoft.com/en-us/windows/win32/api/winnls/nf-winnls-setthreaduilanguage">SetThreadUILanguage() (on MSDN)</a>
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**/
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LANGID
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ConSetThreadUILanguage(
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IN LANGID LangId OPTIONAL)
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{
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/* The function pointer is shared amongst all threads */
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static volatile LANGID (WINAPI *pfnSetThreadUILanguage)(LANGID) = NULL;
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if (!pfnSetThreadUILanguage)
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{
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/* Load the API from kernel32 */
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PVOID pFunc = (PVOID)GetProcAddress(GetModuleHandleW(L"kernel32.dll"), "SetThreadUILanguage");
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if (!pFunc)
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{
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/* Fail since the API is not available */
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return 0;
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}
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/* Set the function pointer in case it hasn't been already set by another thread */
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InterlockedCompareExchangePointer((PVOID*)&pfnSetThreadUILanguage, pFunc, NULL);
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// ASSERT(pfnSetThreadUILanguage);
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}
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return pfnSetThreadUILanguage(LangId);
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}
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/**
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* @name IsTTYHandle
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* Checks whether a handle refers to a valid TTY object.
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* A TTY object may be a console or a "communications" (e.g. serial) port.
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*
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* @param[in] hHandle
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* Handle to the TTY object to check for.
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*
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* @return
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* @b TRUE when the handle refers to a valid TTY object,
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* @b FALSE if it does not.
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*
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* @remark
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* This test is more general than IsConsoleHandle() as it is not limited
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* to Win32 console objects only.
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*
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* @see IsConsoleHandle()
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**/
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BOOL
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IsTTYHandle(IN HANDLE hHandle)
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{
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/*
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* More general test than IsConsoleHandle(). Consoles, as well as serial
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* (communications) ports, etc... verify this test, but only consoles
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* verify the IsConsoleHandle() test: indeed the latter checks whether
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* the handle is really handled by the console subsystem.
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*/
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return ((GetFileType(hHandle) & ~FILE_TYPE_REMOTE) == FILE_TYPE_CHAR);
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}
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/**
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* @name IsConsoleHandle
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* Checks whether a handle refers to a valid Win32 console object.
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*
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* @param[in] hHandle
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* Handle to the Win32 console object to check for:
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* console input buffer, console output buffer.
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*
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* @return
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* @b TRUE when the handle refers to a valid Win32 console object,
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* @b FALSE if it does not.
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*
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* @see IsTTYHandle()
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**/
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BOOL
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IsConsoleHandle(IN HANDLE hHandle)
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{
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DWORD dwMode;
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/* Check whether the handle may be that of a console... */
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if ((GetFileType(hHandle) & ~FILE_TYPE_REMOTE) != FILE_TYPE_CHAR)
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return FALSE;
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/*
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* It may be. Perform another test. The idea comes from the
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* MSDN description of the WriteConsole API:
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*
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* "WriteConsole fails if it is used with a standard handle
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* that is redirected to a file. If an application processes
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* multilingual output that can be redirected, determine whether
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* the output handle is a console handle (one method is to call
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* the GetConsoleMode function and check whether it succeeds).
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* If the handle is a console handle, call WriteConsole. If the
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* handle is not a console handle, the output is redirected and
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* you should call WriteFile to perform the I/O."
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*/
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return GetConsoleMode(hHandle, &dwMode);
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}
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/* EOF */
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