NLS: Unicode-Normalisierungsbeispiel
Die in diesem Thema beschriebene Beispielanwendung veranschaulicht die Darstellung von Zeichenfolgen mithilfe der Unicode-Normalisierung.
Die Beispielanwendung ruft alle vier Unicode-Normalisierungsformulare mit derselben Eingabezeichenfolge auf. Anschließend wird ein Aufruf mit ungültigem Unicode ausgeführt, um zu veranschaulichen, wie der Index des ungültigen Zeichencodes funktioniert. Schließlich übergibt die Anwendung eine Zeichenfolge, die ungewöhnlich lang wird und mehrere Zeichenfolgennormalisierungsaufrufe erfordert, um eine entsprechende Puffergröße zu erhalten.
In diesem Beispiel werden die folgenden NLS-API-Funktionen veranschaulicht:
// THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF
// ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO
// THE IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A
// PARTICULAR PURPOSE.
//
// Copyright (c) Microsoft Corporation. All rights reserved.
// ============ Demonstration of Normalization APIs ============
#include "stdafx.h"
#include "windows.h"
#include <stdio.h>
#include <tchar.h>
#include "malloc.h"
// Print out a string using code points for the non-ASCII values
void DumpString(LPWSTR pInput)
{
while (*pInput != 0)
{
if (*pInput < 0x80)
wprintf(L"%c", *pInput);
else
wprintf(L"\\x%4.4x", *pInput);
pInput++;
}
wprintf(L"\n");
}
// Check if normalized and display normalized output for a particular normalization form
void TryNormalization(NORM_FORM form, LPWSTR strInput)
{
// Test if the string is normalized
if (IsNormalizedString(form, strInput, -1))
{
wprintf(L"Already normalized in this form\n");
}
else
{
// It was not normalized, so normalize it
int iSizeGuess;
LPWSTR pBuffer;
// How big is our buffer (quick guess, usually enough)
iSizeGuess = NormalizeString(form, strInput, -1, NULL, 0);
if (iSizeGuess == 0)
{
wprintf(L"Error %d checking for size\n", GetLastError());
}
while(iSizeGuess > 0)
{
pBuffer = (LPWSTR)malloc(iSizeGuess * sizeof(WCHAR));
if (pBuffer)
{
// Normalize the string
int iActualSize = NormalizeString(form, strInput, -1, pBuffer, iSizeGuess);
iSizeGuess = 0;
if (iActualSize <= 0 && GetLastError() != ERROR_SUCCESS)
{
// Error during normalization
wprintf(L"Error %d during normalization\n", GetLastError());
if (GetLastError() == ERROR_INSUFFICIENT_BUFFER)
{
// If the buffer is too small, try again with a bigger buffer.
wprintf(L"Insufficient buffer, new suggested buffer size %d\n", -iActualSize);
iSizeGuess = -iActualSize;
}
else if (GetLastError() == ERROR_NO_UNICODE_TRANSLATION)
{
wprintf(L"Invalid Unicode found at input character index %d\n", -iActualSize);
}
}
else
{
// Display the normalized string
DumpString(pBuffer);
}
// Free the buffer
free (pBuffer);
}
else
{
wprintf(L"Error allocating buffer\n");
iSizeGuess = 0;
}
}
}
}
int __cdecl wmain(int argc, WCHAR* argv[])
{
// Tèst string to nørmälize
LPWSTR strInput = L"T\u00e8st string \uFF54\uFF4F n\u00f8rm\u00e4lize";
wprintf(L"Comparison of Normalization Forms, input string::\n");
DumpString(strInput);
// Try it in the 4 forms
wprintf(L"\n");
wprintf(L"String in Form C:\n ");
TryNormalization(NormalizationC, strInput);
wprintf(L"\n");
wprintf(L"String in Form KC:\n ");
TryNormalization(NormalizationKC, strInput);
wprintf(L"\n");
wprintf(L"String in Form D:\n ");
TryNormalization(NormalizationD, strInput);
wprintf(L"\n");
wprintf(L"String in Form KD:\n ");
TryNormalization(NormalizationKD, strInput);
// Note that invalid Unicode would show an error (illegal lone surrogate in this case)
wprintf(L"\n");
wprintf(L"Attempt to normalize illegal lone surrogate:\n");
TryNormalization(NormalizationC, L"Bad surrogate is here: '\xd800'");
// Contrived strings can cause the initial size guess to be low
wprintf(L"\n");
wprintf(L"Attempt to normalize a string that expands beyond the initial guess\n");
TryNormalization(NormalizationC,
// These all expand to 2 characters
L"\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958"
L"\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958"
L"\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958"
L"\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958\u0958"
// These all expand to 3 characters
L"\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c"
L"\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c\ufb2c");
}