/* vim:set ts=2 sw=2 et cindent: */ /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla. * * The Initial Developer of the Original Code is IBM Corporation. * Portions created by IBM Corporation are Copyright (C) 2003 * IBM Corporation. All Rights Reserved. * * Contributor(s): * Darin Fisher * * Alternatively, the contents of this file may be used under the terms of * either the GNU General Public License Version 2 or later (the "GPL"), or * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #ifndef nsStringAPI_h__ #define nsStringAPI_h__ /** * nsStringAPI.h * * This file describes a minimal API for working with XPCOM's abstract * string classes. It divorces the consumer from having any run-time * dependency on the implementation details of the abstract string types. */ #include "nscore.h" #ifdef VBOX_WITH_XPCOM_NAMESPACE_CLEANUP #define NS_CStringContainerInit VBoxNsxpNS_CStringContainerInit #define NS_CStringContainerFinish VBoxNsxpNS_CStringContainerFinish #define NS_CStringCloneData VBoxNsxpNS_CStringCloneData #define NS_CStringCopy VBoxNsxpNS_CStringCopy #define NS_CStringGetData VBoxNsxpNS_CStringGetData #define NS_CStringSetData VBoxNsxpNS_CStringSetData #define NS_CStringSetDataRange VBoxNsxpNS_CStringSetDataRange #define NS_UTF16ToCString VBoxNsxpNS_UTF16ToCString #define NS_CStringToUTF16 VBoxNsxpNS_CStringToUTF16 #define NS_StringContainerInit VBoxNsxpNS_StringContainerInit #define NS_StringContainerFinish VBoxNsxpNS_StringContainerFinish #define NS_StringCloneData VBoxNsxpNS_StringCloneData #define NS_StringCopy VBoxNsxpNS_StringCopy #define NS_StringGetData VBoxNsxpNS_StringGetData #define NS_StringSetData VBoxNsxpNS_StringSetData #define NS_StringSetDataRange VBoxNsxpNS_StringSetDataRange #endif /* VBOX_WITH_XPCOM_NAMESPACE_CLEANUP */ #define NS_STRINGAPI(x) extern "C" NS_COM x /* The base string types */ class nsAString; class nsACString; /* ------------------------------------------------------------------------- */ /** * nsStringContainer * * This is an opaque data type that is large enough to hold the canonical * implementation of nsAString. The binary structure of this class is an * implementation detail. * * The string data stored in a string container is always single fragment * and null-terminated. * * Typically, string containers are allocated on the stack for temporary * use. However, they can also be malloc'd if necessary. In either case, * a string container is not useful until it has been initialized with a * call to NS_StringContainerInit. The following example shows how to use * a string container to call a function that takes a |nsAString &| out-param. * * NS_METHOD GetBlah(nsAString &aBlah); * * nsresult MyCode() * { * nsresult rv; * * nsStringContainer sc; * rv = NS_StringContainerInit(sc); * if (NS_FAILED(rv)) * return rv; * * rv = GetBlah(sc); * if (NS_SUCCEEDED(rv)) * { * const PRUnichar *data; * NS_StringGetData(sc, &data); * // * // |data| now points to the result of the GetBlah function * // * } * * NS_StringContainerFinish(sc); * return rv; * } * * The following example show how to use a string container to pass a string * parameter to a function taking a |const nsAString &| in-param. * * NS_METHOD SetBlah(const nsAString &aBlah); * * nsresult MyCode() * { * nsresult rv; * * nsStringContainer sc; * rv = NS_StringContainerInit(sc); * if (NS_FAILED(rv)) * return rv; * * const PRUnichar kData[] = {'x','y','z','\0'}; * rv = NS_StringSetData(sc, kData, sizeof(kData)/2 - 1); * if (NS_SUCCEEDED(rv)) * rv = SetBlah(sc); * * NS_StringContainerFinish(sc); * return rv; * } */ class nsStringContainer; /** * NS_StringContainerInit * * @param aContainer string container reference * @return NS_OK if string container successfully initialized * * This function may allocate additional memory for aContainer. When * aContainer is no longer needed, NS_StringContainerFinish should be called. * * @status FROZEN */ NS_STRINGAPI(nsresult) NS_StringContainerInit(nsStringContainer &aContainer); /** * NS_StringContainerFinish * * @param aContainer string container reference * * This function frees any memory owned by aContainer. * * @status FROZEN */ NS_STRINGAPI(void) NS_StringContainerFinish(nsStringContainer &aContainer); /* ------------------------------------------------------------------------- */ /** * NS_StringGetData * * This function returns a const character pointer to the string's internal * buffer, the length of the string, and a boolean value indicating whether * or not the buffer is null-terminated. * * @param aStr abstract string reference * @param aData out param that will hold the address of aStr's * internal buffer * @param aTerminated if non-null, this out param will be set to indicate * whether or not aStr's internal buffer is null- * terminated * @return length of aStr's internal buffer * * @status FROZEN */ NS_STRINGAPI(PRUint32) NS_StringGetData (const nsAString &aStr, const PRUnichar **aData, PRBool *aTerminated = nsnull); /** * NS_StringCloneData * * This function returns a null-terminated copy of the string's * internal buffer. * * @param aStr abstract string reference * @return null-terminated copy of the string's internal buffer * (it must be free'd using using nsMemory::Free) * * @status FROZEN */ NS_STRINGAPI(PRUnichar *) NS_StringCloneData (const nsAString &aStr); /** * NS_StringSetData * * This function copies aData into aStr. * * @param aStr abstract string reference * @param aData character buffer * @param aDataLength number of characters to copy from source string (pass * PR_UINT32_MAX to copy until end of aData, designated by * a null character) * @return NS_OK if function succeeded * * This function does not necessarily null-terminate aStr after copying data * from aData. The behavior depends on the implementation of the abstract * string, aStr. If aStr is a reference to a nsStringContainer, then its data * will be null-terminated by this function. * * @status FROZEN */ NS_STRINGAPI(nsresult) NS_StringSetData (nsAString &aStr, const PRUnichar *aData, PRUint32 aDataLength = PR_UINT32_MAX); /** * NS_StringSetDataRange * * This function copies aData into a section of aStr. As a result it can be * used to insert new characters into the string. * * @param aStr abstract string reference * @param aCutOffset starting index where the string's existing data * is to be overwritten (pass PR_UINT32_MAX to cause * aData to be appended to the end of aStr, in which * case the value of aCutLength is ignored). * @param aCutLength number of characters to overwrite starting at * aCutOffset (pass PR_UINT32_MAX to overwrite until the * end of aStr). * @param aData character buffer (pass null to cause this function * to simply remove the "cut" range) * @param aDataLength number of characters to copy from source string (pass * PR_UINT32_MAX to copy until end of aData, designated by * a null character) * @return NS_OK if function succeeded * * This function does not necessarily null-terminate aStr after copying data * from aData. The behavior depends on the implementation of the abstract * string, aStr. If aStr is a reference to a nsStringContainer, then its data * will be null-terminated by this function. * * @status FROZEN */ NS_STRINGAPI(nsresult) NS_StringSetDataRange (nsAString &aStr, PRUint32 aCutOffset, PRUint32 aCutLength, const PRUnichar *aData, PRUint32 aDataLength = PR_UINT32_MAX); /** * NS_StringCopy * * This function makes aDestStr have the same value as aSrcStr. It is * provided as an optimization. * * @param aDestStr abstract string reference to be modified * @param aSrcStr abstract string reference containing source string * @return NS_OK if function succeeded * * This function does not necessarily null-terminate aDestStr after copying * data from aSrcStr. The behavior depends on the implementation of the * abstract string, aDestStr. If aDestStr is a reference to a * nsStringContainer, then its data will be null-terminated by this function. * * @status FROZEN */ NS_STRINGAPI(nsresult) NS_StringCopy (nsAString &aDestStr, const nsAString &aSrcStr); /** * NS_StringAppendData * * This function appends data to the existing value of aStr. * * @param aStr abstract string reference to be modified * @param aData character buffer * @param aDataLength number of characters to append (pass PR_UINT32_MAX to * append until a null-character is encountered) * @return NS_OK if function succeeded * * This function does not necessarily null-terminate aStr upon completion. * The behavior depends on the implementation of the abstract string, aStr. * If aStr is a reference to a nsStringContainer, then its data will be null- * terminated by this function. */ inline NS_HIDDEN_(nsresult) NS_StringAppendData(nsAString &aStr, const PRUnichar *aData, PRUint32 aDataLength = PR_UINT32_MAX) { return NS_StringSetDataRange(aStr, PR_UINT32_MAX, 0, aData, aDataLength); } /** * NS_StringInsertData * * This function inserts data into the existing value of aStr at the specified * offset. * * @param aStr abstract string reference to be modified * @param aOffset specifies where in the string to insert aData * @param aData character buffer * @param aDataLength number of characters to append (pass PR_UINT32_MAX to * append until a null-character is encountered) * @return NS_OK if function succeeded * * This function does not necessarily null-terminate aStr upon completion. * The behavior depends on the implementation of the abstract string, aStr. * If aStr is a reference to a nsStringContainer, then its data will be null- * terminated by this function. */ inline NS_HIDDEN_(nsresult) NS_StringInsertData(nsAString &aStr, PRUint32 aOffset, const PRUnichar *aData, PRUint32 aDataLength = PR_UINT32_MAX) { return NS_StringSetDataRange(aStr, aOffset, 0, aData, aDataLength); } /** * NS_StringCutData * * This function shortens the existing value of aStr, by removing characters * at the specified offset. * * @param aStr abstract string reference to be modified * @param aCutOffset specifies where in the string to insert aData * @param aCutLength number of characters to remove * @return NS_OK if function succeeded */ inline NS_HIDDEN_(nsresult) NS_StringCutData(nsAString &aStr, PRUint32 aCutOffset, PRUint32 aCutLength) { return NS_StringSetDataRange(aStr, aCutOffset, aCutLength, nsnull, 0); } /* ------------------------------------------------------------------------- */ /** * nsCStringContainer * * This is an opaque data type that is large enough to hold the canonical * implementation of nsACString. The binary structure of this class is an * implementation detail. * * The string data stored in a string container is always single fragment * and null-terminated. * * @see nsStringContainer for use cases and further documentation. */ class nsCStringContainer; /** * NS_CStringContainerInit * * @param aContainer string container reference * @return NS_OK if string container successfully initialized * * This function may allocate additional memory for aContainer. When * aContainer is no longer needed, NS_CStringContainerFinish should be called. * * @status FROZEN */ NS_STRINGAPI(nsresult) NS_CStringContainerInit(nsCStringContainer &aContainer); /** * NS_CStringContainerFinish * * @param aContainer string container reference * * This function frees any memory owned by aContainer. * * @status FROZEN */ NS_STRINGAPI(void) NS_CStringContainerFinish(nsCStringContainer &aContainer); /* ------------------------------------------------------------------------- */ /** * NS_CStringGetData * * This function returns a const character pointer to the string's internal * buffer, the length of the string, and a boolean value indicating whether * or not the buffer is null-terminated. * * @param aStr abstract string reference * @param aData out param that will hold the address of aStr's * internal buffer * @param aTerminated if non-null, this out param will be set to indicate * whether or not aStr's internal buffer is null- * terminated * @return length of aStr's internal buffer * * @status FROZEN */ NS_STRINGAPI(PRUint32) NS_CStringGetData (const nsACString &aStr, const char **aData, PRBool *aTerminated = nsnull); /** * NS_CStringCloneData * * This function returns a null-terminated copy of the string's * internal buffer. * * @param aStr abstract string reference * @return null-terminated copy of the string's internal buffer * (it must be free'd using using nsMemory::Free) * * @status FROZEN */ NS_STRINGAPI(char *) NS_CStringCloneData (const nsACString &aStr); /** * NS_CStringSetData * * This function copies aData into aStr. * * @param aStr abstract string reference * @param aData character buffer * @param aDataLength number of characters to copy from source string (pass * PR_UINT32_MAX to copy until end of aData, designated by * a null character) * @return NS_OK if function succeeded * * This function does not necessarily null-terminate aStr after copying data * from aData. The behavior depends on the implementation of the abstract * string, aStr. If aStr is a reference to a nsStringContainer, then its data * will be null-terminated by this function. * * @status FROZEN */ NS_STRINGAPI(nsresult) NS_CStringSetData (nsACString &aStr, const char *aData, PRUint32 aDataLength = PR_UINT32_MAX); /** * NS_CStringSetDataRange * * This function copies aData into a section of aStr. As a result it can be * used to insert new characters into the string. * * @param aStr abstract string reference * @param aCutOffset starting index where the string's existing data * is to be overwritten (pass PR_UINT32_MAX to cause * aData to be appended to the end of aStr, in which * case the value of aCutLength is ignored). * @param aCutLength number of characters to overwrite starting at * aCutOffset (pass PR_UINT32_MAX to overwrite until the * end of aStr). * @param aData character buffer (pass null to cause this function * to simply remove the "cut" range) * @param aDataLength number of characters to copy from source string (pass * PR_UINT32_MAX to copy until end of aData, designated by * a null character) * @return NS_OK if function succeeded * * This function does not necessarily null-terminate aStr after copying data * from aData. The behavior depends on the implementation of the abstract * string, aStr. If aStr is a reference to a nsStringContainer, then its data * will be null-terminated by this function. * * @status FROZEN */ NS_STRINGAPI(nsresult) NS_CStringSetDataRange (nsACString &aStr, PRUint32 aCutOffset, PRUint32 aCutLength, const char *aData, PRUint32 aDataLength = PR_UINT32_MAX); /** * NS_CStringCopy * * This function makes aDestStr have the same value as aSrcStr. It is * provided as an optimization. * * @param aDestStr abstract string reference to be modified * @param aSrcStr abstract string reference containing source string * @return NS_OK if function succeeded * * This function does not necessarily null-terminate aDestStr after copying * data from aSrcStr. The behavior depends on the implementation of the * abstract string, aDestStr. If aDestStr is a reference to a * nsStringContainer, then its data will be null-terminated by this function. * * @status FROZEN */ NS_STRINGAPI(nsresult) NS_CStringCopy (nsACString &aDestStr, const nsACString &aSrcStr); /** * NS_CStringAppendData * * This function appends data to the existing value of aStr. * * @param aStr abstract string reference to be modified * @param aData character buffer * @param aDataLength number of characters to append (pass PR_UINT32_MAX to * append until a null-character is encountered) * @return NS_OK if function succeeded * * This function does not necessarily null-terminate aStr upon completion. * The behavior depends on the implementation of the abstract string, aStr. * If aStr is a reference to a nsStringContainer, then its data will be null- * terminated by this function. */ inline NS_HIDDEN_(nsresult) NS_CStringAppendData(nsACString &aStr, const char *aData, PRUint32 aDataLength = PR_UINT32_MAX) { return NS_CStringSetDataRange(aStr, PR_UINT32_MAX, 0, aData, aDataLength); } /** * NS_CStringInsertData * * This function inserts data into the existing value of aStr at the specified * offset. * * @param aStr abstract string reference to be modified * @param aOffset specifies where in the string to insert aData * @param aData character buffer * @param aDataLength number of characters to append (pass PR_UINT32_MAX to * append until a null-character is encountered) * @return NS_OK if function succeeded * * This function does not necessarily null-terminate aStr upon completion. * The behavior depends on the implementation of the abstract string, aStr. * If aStr is a reference to a nsStringContainer, then its data will be null- * terminated by this function. */ inline NS_HIDDEN_(nsresult) NS_CStringInsertData(nsACString &aStr, PRUint32 aOffset, const char *aData, PRUint32 aDataLength = PR_UINT32_MAX) { return NS_CStringSetDataRange(aStr, aOffset, 0, aData, aDataLength); } /** * NS_CStringCutData * * This function shortens the existing value of aStr, by removing characters * at the specified offset. * * @param aStr abstract string reference to be modified * @param aCutOffset specifies where in the string to insert aData * @param aCutLength number of characters to remove * @return NS_OK if function succeeded */ inline NS_HIDDEN_(nsresult) NS_CStringCutData(nsACString &aStr, PRUint32 aCutOffset, PRUint32 aCutLength) { return NS_CStringSetDataRange(aStr, aCutOffset, aCutLength, nsnull, 0); } /* ------------------------------------------------------------------------- */ /** * Encodings that can be used with the following conversion routines. */ enum nsCStringEncoding { /* Conversion between ASCII and UTF-16 assumes that all bytes in the source * string are 7-bit ASCII and can be inflated to UTF-16 by inserting null * bytes. Reverse conversion is done by truncating every other byte. The * conversion may result in loss and/or corruption of information if the * strings do not strictly contain ASCII data. */ NS_CSTRING_ENCODING_ASCII = 0, /* Conversion between UTF-8 and UTF-16 is non-lossy. */ NS_CSTRING_ENCODING_UTF8 = 1, /* Conversion from UTF-16 to the native filesystem charset may result in a * loss of information. No attempt is made to protect against data loss in * this case. The native filesystem charset applies to strings passed to * the "Native" method variants on nsIFile and nsILocalFile. */ NS_CSTRING_ENCODING_NATIVE_FILESYSTEM = 2 }; /** * NS_CStringToUTF16 * * This function converts the characters in a nsACString to an array of UTF-16 * characters, in the platform endianness. The result is stored in a nsAString * object. * * @param aSource abstract string reference containing source string * @param aSrcEncoding character encoding of the source string * @param aDest abstract string reference to hold the result * * @status FROZEN */ NS_STRINGAPI(nsresult) NS_CStringToUTF16(const nsACString &aSource, nsCStringEncoding aSrcEncoding, nsAString &aDest); /** * NS_UTF16ToCString * * This function converts the UTF-16 characters in a nsAString to a single-byte * encoding. The result is stored in a nsACString object. In some cases this * conversion may be lossy. In such cases, the conversion may succeed with a * return code indicating loss of information. The exact behavior is not * specified at this time. * * @param aSource abstract string reference containing source string * @param aDestEncoding character encoding of the resulting string * @param aDest abstract string reference to hold the result * * @status FROZEN */ NS_STRINGAPI(nsresult) NS_UTF16ToCString(const nsAString &aSource, nsCStringEncoding aDestEncoding, nsACString &aDest); /* ------------------------------------------------------------------------- */ /** * Below we define nsAString and nsACString. The "_external" suffix is an * implementation detail. nsAString_external is the name of the external * representation of nsAString from the point of view of the Mozilla codebase. * To a user of this API, nsAString_external is exactly nsAString. * * These classes should be treated as abstract classes with unspecified * structure. The inline methods are provided as helper functions around the * C-style API provided above. * * Do not try to mix these definitions of nsAString and nsACString with the * internal definition of these classes from nsAString.h in the Mozilla tree. */ #ifndef NS_STRINGAPI_IMPL #define nsAString_external nsAString #define nsACString_external nsACString #endif class nsAString_external { #ifndef NS_STRINGAPI_IMPL public: typedef PRUnichar char_type; typedef nsAString_external self_type; typedef PRUint32 size_type; typedef PRUint32 index_type; NS_HIDDEN_(const char_type*) BeginReading() const { const char_type *data; NS_StringGetData(*this, &data); return data; } NS_HIDDEN_(const char_type*) EndReading() const { const char_type *data; PRUint32 len = NS_StringGetData(*this, &data); return data + len; } NS_HIDDEN_(size_type) Length() const { const char_type* data; return NS_StringGetData(*this, &data); } NS_HIDDEN_(void) Assign(const self_type& aString) { NS_StringCopy(*this, aString); } NS_HIDDEN_(void) Assign(const char_type* aData, size_type aLength = PR_UINT32_MAX) { NS_StringSetData(*this, aData, aLength); } NS_HIDDEN_(void) Assign(char_type aChar) { NS_StringSetData(*this, &aChar, 1); } NS_HIDDEN_(self_type&) operator=(const self_type& aString) { Assign(aString); return *this; } NS_HIDDEN_(self_type&) operator=(const char_type* aPtr) { Assign(aPtr); return *this; } NS_HIDDEN_(self_type&) operator=(char_type aChar) { Assign(aChar); return *this; } NS_HIDDEN_(void) Replace( index_type cutStart, size_type cutLength, const char_type* data, size_type length = size_type(-1) ) { NS_StringSetDataRange(*this, cutStart, cutLength, data, length); } NS_HIDDEN_(void) Replace( index_type cutStart, size_type cutLength, char_type c ) { Replace(cutStart, cutLength, &c, 1); } NS_HIDDEN_(void) Replace( index_type cutStart, size_type cutLength, const self_type& readable ) { const char_type* data; PRUint32 dataLen = NS_StringGetData(readable, &data); NS_StringSetDataRange(*this, cutStart, cutLength, data, dataLen); } NS_HIDDEN_(void) Append( char_type c ) { Replace(size_type(-1), 0, c); } NS_HIDDEN_(void) Append( const char_type* data, size_type length = size_type(-1) ) { Replace(size_type(-1), 0, data, length); } NS_HIDDEN_(void) Append( const self_type& readable ) { Replace(size_type(-1), 0, readable); } NS_HIDDEN_(self_type&) operator+=( char_type c ) { Append(c); return *this; } NS_HIDDEN_(self_type&) operator+=( const char_type* data ) { Append(data); return *this; } NS_HIDDEN_(self_type&) operator+=( const self_type& readable ) { Append(readable); return *this; } NS_HIDDEN_(void) Insert( char_type c, index_type pos ) { Replace(pos, 0, c); } NS_HIDDEN_(void) Insert( const char_type* data, index_type pos, size_type length = size_type(-1) ) { Replace(pos, 0, data, length); } NS_HIDDEN_(void) Insert( const self_type& readable, index_type pos ) { Replace(pos, 0, readable); } NS_HIDDEN_(void) Cut( index_type cutStart, size_type cutLength ) { Replace(cutStart, cutLength, nsnull, 0); } #endif // NS_STRINGAPI_IMPL private: void *v; }; class nsACString_external { #ifndef NS_STRINGAPI_IMPL public: typedef char char_type; typedef nsACString_external self_type; typedef PRUint32 size_type; typedef PRUint32 index_type; NS_HIDDEN_(const char_type*) BeginReading() const { const char_type *data; NS_CStringGetData(*this, &data); return data; } NS_HIDDEN_(const char_type*) EndReading() const { const char_type *data; PRUint32 len = NS_CStringGetData(*this, &data); return data + len; } NS_HIDDEN_(size_type) Length() const { const char_type* data; return NS_CStringGetData(*this, &data); } NS_HIDDEN_(void) Assign(const self_type& aString) { NS_CStringCopy(*this, aString); } NS_HIDDEN_(void) Assign(const char_type* aData, size_type aLength = PR_UINT32_MAX) { NS_CStringSetData(*this, aData, aLength); } NS_HIDDEN_(void) Assign(char_type aChar) { NS_CStringSetData(*this, &aChar, 1); } NS_HIDDEN_(self_type&) operator=(const self_type& aString) { Assign(aString); return *this; } NS_HIDDEN_(self_type&) operator=(const char_type* aPtr) { Assign(aPtr); return *this; } NS_HIDDEN_(self_type&) operator=(char_type aChar) { Assign(aChar); return *this; } NS_HIDDEN_(void) Replace( index_type cutStart, size_type cutLength, const char_type* data, size_type length = size_type(-1) ) { NS_CStringSetDataRange(*this, cutStart, cutLength, data, length); } NS_HIDDEN_(void) Replace( index_type cutStart, size_type cutLength, char_type c ) { Replace(cutStart, cutLength, &c, 1); } NS_HIDDEN_(void) Replace( index_type cutStart, size_type cutLength, const self_type& readable ) { const char_type* data; PRUint32 dataLen = NS_CStringGetData(readable, &data); NS_CStringSetDataRange(*this, cutStart, cutLength, data, dataLen); } NS_HIDDEN_(void) Append( char_type c ) { Replace(size_type(-1), 0, c); } NS_HIDDEN_(void) Append( const char_type* data, size_type length = size_type(-1) ) { Replace(size_type(-1), 0, data, length); } NS_HIDDEN_(void) Append( const self_type& readable ) { Replace(size_type(-1), 0, readable); } NS_HIDDEN_(self_type&) operator+=( char_type c ) { Append(c); return *this; } NS_HIDDEN_(self_type&) operator+=( const char_type* data ) { Append(data); return *this; } NS_HIDDEN_(self_type&) operator+=( const self_type& readable ) { Append(readable); return *this; } NS_HIDDEN_(void) Insert( char_type c, index_type pos ) { Replace(pos, 0, c); } NS_HIDDEN_(void) Insert( const char_type* data, index_type pos, size_type length = size_type(-1) ) { Replace(pos, 0, data, length); } NS_HIDDEN_(void) Insert( const self_type& readable, index_type pos ) { Replace(pos, 0, readable); } NS_HIDDEN_(void) Cut( index_type cutStart, size_type cutLength ) { Replace(cutStart, cutLength, nsnull, 0); } #endif // NS_STRINGAPI_IMPL private: void *v; }; /* ------------------------------------------------------------------------- */ /** * Below we define nsStringContainer and nsCStringContainer. These classes * have unspecified structure. In most cases, your code should use * nsEmbedString instead of these classes; however, if you prefer C-style * programming, then look no further... */ class nsStringContainer : public nsAString_external { private: void *d1; PRUint32 d2; void *d3; public: nsStringContainer() {} // MSVC6 needs this }; class nsCStringContainer : public nsACString_external { private: void *d1; PRUint32 d2; void *d3; public: nsCStringContainer() {} // MSVC6 needs this }; #endif // nsStringAPI_h__