gecko-dev/string/obsolete/nsString.cpp

1632 lines
45 KiB
C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* The contents of this file are subject to the Netscape 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/NPL/
*
* 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.org code.
*
* The Initial Developer of the Original Code is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All
* Rights Reserved.
*
* Original Author:
* Rick Gessner <rickg@netscape.com>
*
* Contributor(s):
* Scott Collins <scc@mozilla.org>
*/
#include <ctype.h>
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include "nsString.h"
#include "nsDebug.h"
#include "nsCRT.h"
#include "nsDeque.h"
#ifndef RICKG_TESTBED
#include "prdtoa.h"
#include "nsISizeOfHandler.h"
#endif
static const char* kPossibleNull = "Error: possible unintended null in string";
static const char* kNullPointerError = "Error: unexpected null ptr";
static const char* kWhitespace="\b\t\r\n ";
static void CSubsume(nsStr& aDest,nsStr& aSource){
if(aSource.mStr && aSource.mLength) {
if(aSource.mOwnsBuffer){
nsStr::Destroy(aDest);
aDest.mStr=aSource.mStr;
aDest.mLength=aSource.mLength;
aDest.mCharSize=aSource.mCharSize;
aDest.mCapacity=aSource.mCapacity;
aDest.mOwnsBuffer=aSource.mOwnsBuffer;
aSource.mOwnsBuffer=PR_FALSE;
aSource.mStr=0;
}
else{
nsStr::StrAssign(aDest,aSource,0,aSource.mLength);
}
}
else nsStr::StrTruncate(aDest,0);
}
/**
* Default constructor.
*/
nsCString::nsCString() {
Initialize(*this,eOneByte);
}
nsCString::nsCString(const char* aCString) {
Initialize(*this,eOneByte);
Assign(aCString);
}
/**
* This constructor accepts an ascii string
* @update gess 1/4/99
* @param aCString is a ptr to a 1-byte cstr
* @param aLength tells us how many chars to copy from given CString
*/
nsCString::nsCString(const char* aCString,PRInt32 aLength) {
Initialize(*this,eOneByte);
Assign(aCString,aLength);
}
#if 0
/**
* This constructor accepts a unicode string
* @update gess 1/4/99
* @param aString is a ptr to a unichar string
* @param aLength tells us how many chars to copy from given aString
*/
nsCString::nsCString(const PRUnichar* aString,PRInt32 aLength) {
Initialize(*this,eOneByte);
AssignWithConversion(aString,aLength);
}
/**
* This constructor works for all other nsSTr derivatives
* @update gess 1/4/99
* @param reference to another nsCString
*/
nsCString::nsCString(const nsStr &aString) {
Initialize(*this,eOneByte);
StrAssign(*this,aString,0,aString.mLength);
}
#endif
/**
* This is our copy constructor
* @update gess 1/4/99
* @param reference to another nsCString
*/
nsCString::nsCString(const nsCString& aString) {
Initialize(*this,aString.mCharSize);
StrAssign(*this,aString,0,aString.mLength);
}
/**
* construct from subsumeable string
* @update gess 1/4/99
* @param reference to a subsumeString
*/
nsCString::nsCString(nsSubsumeCStr& aSubsumeStr) {
CSubsume(*this,aSubsumeStr);
}
/**
* Destructor
*/
nsCString::~nsCString() {
Destroy(*this);
}
const char* nsCString::GetReadableFragment( nsReadableFragment<char>& aFragment, nsFragmentRequest aRequest, PRUint32 aOffset ) const {
switch ( aRequest ) {
case kFirstFragment:
case kLastFragment:
case kFragmentAt:
aFragment.mEnd = (aFragment.mStart = mStr) + mLength;
return aFragment.mStart + aOffset;
case kPrevFragment:
case kNextFragment:
default:
return 0;
}
}
char* nsCString::GetWritableFragment( nsWritableFragment<char>& aFragment, nsFragmentRequest aRequest, PRUint32 aOffset ) {
switch ( aRequest ) {
case kFirstFragment:
case kLastFragment:
case kFragmentAt:
aFragment.mEnd = (aFragment.mStart = mStr) + mLength;
return aFragment.mStart + aOffset;
case kPrevFragment:
case kNextFragment:
default:
return 0;
}
}
nsCString::nsCString( const nsAReadableCString& aReadable ) {
Initialize(*this,eOneByte);
Assign(aReadable);
}
void nsCString::SizeOf(nsISizeOfHandler* aHandler, PRUint32* aResult) const {
if (aResult) {
*aResult = sizeof(*this) + mCapacity * mCharSize;
}
}
/**
* This method truncates this string to given length.
*
* @update rickg 03.23.2000
* @param anIndex -- new length of string
* @return nada
*/
void nsCString::SetLength(PRUint32 anIndex) {
if ( anIndex > mCapacity )
SetCapacity(anIndex);
// |SetCapacity| normally doesn't guarantee the use we are putting it to here (see its interface comment in nsAWritableString.h),
// we can only use it since our local implementation, |nsCString::SetCapacity|, is known to do what we want
nsStr::StrTruncate(*this,anIndex);
}
/**
* Call this method if you want to force the string to a certain capacity;
* |SetCapacity(0)| discards associated storage.
*
* @param aNewCapacity -- desired minimum capacity
*/
void
nsCString::SetCapacity( PRUint32 aNewCapacity )
{
if ( aNewCapacity )
{
if( aNewCapacity > mCapacity )
GrowCapacity(*this,aNewCapacity);
AddNullTerminator(*this);
}
else
{
nsStr::Destroy(*this);
nsStr::Initialize(*this, eOneByte);
}
}
/**********************************************************************
Accessor methods...
*********************************************************************/
/**
* set a char inside this string at given index
* @param aChar is the char you want to write into this string
* @param anIndex is the ofs where you want to write the given char
* @return TRUE if successful
*/
PRBool nsCString::SetCharAt(PRUnichar aChar,PRUint32 anIndex){
PRBool result=PR_FALSE;
if(anIndex<mLength){
mStr[anIndex]=(char)aChar;
result=PR_TRUE;
}
return result;
}
/*********************************************************
append (operator+) METHODS....
*********************************************************/
/**********************************************************************
Lexomorphic transforms...
*********************************************************************/
/**
* Converts all chars in internal string to lower
* @update gess 01/04/99
*/
void nsCString::ToLowerCase() {
nsStr::ChangeCase(*this,PR_FALSE);
}
/**
* Converts all chars in internal string to upper
* @update gess 01/04/99
*/
void nsCString::ToUpperCase() {
nsStr::ChangeCase(*this,PR_TRUE);
}
/**
* Converts chars in this to lowercase, and
* stores them in aString
* @update gess 01/04/99
* @param aOut is a string to contain result
*/
void nsCString::ToLowerCase(nsCString& aString) const {
aString=*this;
nsStr::ChangeCase(aString,PR_FALSE);
}
/**
* Converts chars in this to uppercase, and
* stores them in a given output string
* @update gess 01/04/99
* @param aOut is a string to contain result
*/
void nsCString::ToUpperCase(nsCString& aString) const {
aString=*this;
nsStr::ChangeCase(aString,PR_TRUE);
}
/**
* This method is used to remove all occurances of the
* characters found in aSet from this string.
*
* @update rickg 03.27.2000
* @param aChar -- char to be stripped
* @return *this
*/
void
nsCString::StripChar(PRUnichar aChar,PRInt32 anOffset){
if(mLength && (anOffset<PRInt32(mLength))) {
if(eOneByte==mCharSize) {
char* to = mStr + anOffset;
char* from = mStr + anOffset;
char* end = mStr + mLength;
while (from < end) {
char theChar = *from++;
if(aChar!=theChar) {
*to++ = theChar;
}
}
*to = 0; //add the null
mLength=to - mStr;
}
else {
PRUnichar* to = mUStr + anOffset;
PRUnichar* from = mUStr + anOffset;
PRUnichar* end = mUStr + mLength;
while (from < end) {
PRUnichar theChar = *from++;
if(aChar!=theChar) {
*to++ = theChar;
}
}
*to = 0; //add the null
mLength=to - mUStr;
}
}
}
/**
* This method is used to remove all occurances of the
* characters found in aSet from this string.
*
* @update gess 01/04/99
* @param aSet -- characters to be cut from this
* @return *this
*/
void
nsCString::StripChars(const char* aSet){
nsStr::StripChars(*this,aSet);
}
/**
* This method strips whitespace throughout the string
*
* @update gess 01/04/99
* @return this
*/
void
nsCString::StripWhitespace() {
StripChars(kWhitespace);
}
/**
* This method is used to replace all occurances of the
* given source char with the given dest char
*
* @param
* @return *this
*/
void
nsCString::ReplaceChar(PRUnichar aOldChar, PRUnichar aNewChar) {
PRUint32 theIndex=0;
if((aOldChar<256) && (aNewChar<256)){
//only execute this if oldchar and newchar are within legal ascii range
for(theIndex=0;theIndex<mLength;theIndex++){
if(mStr[theIndex]==(char)aOldChar) {
mStr[theIndex]=(char)aNewChar;
}//if
}
}
}
/**
* This method is used to replace all occurances of the
* given source char with the given dest char
*
* @param
* @return *this
*/
void
nsCString::ReplaceChar(const char* aSet, PRUnichar aNewChar){
if(aSet && (aNewChar<256)){
//only execute this if newchar is valid ascii, and aset isn't null.
PRInt32 theIndex=FindCharInSet(aSet,0);
while(kNotFound<theIndex) {
mStr[theIndex]=(char)aNewChar;
theIndex=FindCharInSet(aSet,theIndex+1);
}
}
}
/**
* This method is used to replace all occurances of the
* given target with the given replacement
*
* @param
* @return *this
*/
void
nsCString::ReplaceSubstring(const char* aTarget,const char* aNewValue){
if(aTarget && aNewValue) {
PRInt32 len=strlen(aTarget);
if(0<len) {
CBufDescriptor theDesc1(aTarget,PR_TRUE, len+1,len);
nsCAutoString theTarget(theDesc1);
len=strlen(aNewValue);
if(0<len) {
CBufDescriptor theDesc2(aNewValue,PR_TRUE, len+1,len);
nsCAutoString theNewValue(theDesc2);
ReplaceSubstring(theTarget,theNewValue);
}
}
}
}
/**
* This method is used to replace all occurances of the
* given target substring with the given replacement substring
*
* @param aTarget
* @param aNewValue
* @return *this
*/
void
nsCString::ReplaceSubstring(const nsCString& aTarget,const nsCString& aNewValue){
//WARNING: This is not working yet!!!!!
if(aTarget.mLength && aNewValue.mLength) {
PRBool isSameLen=(aTarget.mLength==aNewValue.mLength);
if((isSameLen) && (1==aNewValue.mLength)) {
ReplaceChar(aTarget.CharAt(0),aNewValue.CharAt(0));
}
else {
PRInt32 theIndex=0;
while(kNotFound!=(theIndex=nsStr::FindSubstr(*this,aTarget,PR_FALSE,theIndex,mLength))) {
if(aNewValue.mLength<aTarget.mLength) {
//Since target is longer than newValue, we should delete a few chars first, then overwrite.
PRInt32 theDelLen=aTarget.mLength-aNewValue.mLength;
nsStr::Delete(*this,theIndex,theDelLen);
}
else {
//this is the worst case: the newvalue is larger than the substr it's replacing
//so we have to insert some characters...
PRInt32 theInsLen=aNewValue.mLength-aTarget.mLength;
StrInsert(*this,theIndex,aNewValue,0,theInsLen);
}
nsStr::Overwrite(*this,aNewValue,theIndex);
}
}
}
}
/**
* This method trims characters found in aTrimSet from
* either end of the underlying string.
*
* @update gess 3/31/98
* @param aTrimSet -- contains chars to be trimmed from
* both ends
* @return this
*/
void
nsCString::Trim(const char* aTrimSet, PRBool aEliminateLeading,PRBool aEliminateTrailing,PRBool aIgnoreQuotes){
if(aTrimSet){
PRUnichar theFirstChar=0;
PRUnichar theLastChar=0;
PRBool theQuotesAreNeeded=PR_FALSE;
if(aIgnoreQuotes && (mLength>2)) {
theFirstChar=First();
theLastChar=Last();
if(theFirstChar==theLastChar) {
if(('\''==theFirstChar) || ('"'==theFirstChar)) {
Cut(0,1);
Truncate(mLength-1);
theQuotesAreNeeded=PR_TRUE;
}
else theFirstChar=0;
}
}
nsStr::Trim(*this,aTrimSet,aEliminateLeading,aEliminateTrailing);
if(aIgnoreQuotes && theQuotesAreNeeded) {
InsertWithConversion(theFirstChar,0);
AppendWithConversion(theLastChar);
}
}
}
/**
* This method strips chars in given set from string.
* You can control whether chars are yanked from
* start and end of string as well.
*
* @update gess 3/31/98
* @param aEliminateLeading controls stripping of leading ws
* @param aEliminateTrailing controls stripping of trailing ws
* @return this
*/
void
nsCString::CompressSet(const char* aSet, PRUnichar aChar,PRBool aEliminateLeading,PRBool aEliminateTrailing){
if(aSet){
ReplaceChar(aSet,aChar);
nsStr::CompressSet(*this,aSet,aEliminateLeading,aEliminateTrailing);
}
}
/**
* This method strips whitespace from string.
* You can control whether whitespace is yanked from
* start and end of string as well.
*
* @update gess 3/31/98
* @param aEliminateLeading controls stripping of leading ws
* @param aEliminateTrailing controls stripping of trailing ws
* @return this
*/
void
nsCString::CompressWhitespace( PRBool aEliminateLeading,PRBool aEliminateTrailing){
CompressSet(kWhitespace,' ',aEliminateLeading,aEliminateTrailing);
}
/**********************************************************************
string conversion methods...
*********************************************************************/
/**
* Creates a duplicate clone (ptr) of this string.
* @update gess 01/04/99
* @return ptr to clone of this string
*/
nsCString* nsCString::ToNewString() const {
return new nsCString(*this);
}
/**
* Creates an ascii clone of this string
* Note that calls to this method should be matched with calls to
* |nsMemory::Free|.
* @update gess 02/24/00
* @return ptr to new ascii string
*/
char* nsCString::ToNewCString() const {
return nsCRT::strdup(mStr);
}
/**
* Creates an unicode clone of this string
* Note that calls to this method should be matched with calls to
* |nsMemory::Free|.
* @update gess 01/04/99
* @return ptr to new ascii string
*/
PRUnichar* nsCString::ToNewUnicode() const {
PRUnichar* result = NS_STATIC_CAST(PRUnichar*, nsMemory::Alloc(sizeof(PRUnichar) * (mLength + 1)));
if (result) {
CBufDescriptor desc(result, PR_TRUE, mLength + 1, 0);
nsAutoString temp(desc);
temp.AssignWithConversion(*this);
}
return result;
}
/**
* Copies contents of this string into he given buffer
* Note that if you provide me a buffer that is smaller than the length of
* this string, only the number of bytes that will fit are copied.
*
* @update gess 01/04/99
* @param aBuf
* @param aBufLength
* @param anOffset
* @return
*/
char* nsCString::ToCString(char* aBuf, PRUint32 aBufLength,PRUint32 anOffset) const{
if(aBuf) {
// NS_ASSERTION(mLength<=aBufLength,"buffer smaller than string");
CBufDescriptor theDescr(aBuf,PR_TRUE,aBufLength,0);
nsCAutoString temp(theDescr);
temp.Assign(*this, PR_MIN(mLength, aBufLength-1));
temp.mStr=0;
}
return aBuf;
}
/**
* Perform string to float conversion.
* @update gess 01/04/99
* @param aErrorCode will contain error if one occurs
* @return float rep of string value
*/
float nsCString::ToFloat(PRInt32* aErrorCode) const {
char buf[100];
if (mLength > PRInt32(sizeof(buf)-1)) {
*aErrorCode = (PRInt32) NS_ERROR_ILLEGAL_VALUE;
return 0.0f;
}
char* cp = ToCString(buf, sizeof(buf));
float f = (float) PR_strtod(cp, &cp);
if (*cp != 0) {
*aErrorCode = (PRInt32) NS_ERROR_ILLEGAL_VALUE;
}
*aErrorCode = (PRInt32) NS_OK;
return f;
}
/**
* Perform decimal numeric string to int conversion.
* NOTE: In this version, we use the radix you give, even if it's wrong.
* @update gess 02/14/00
* @param aErrorCode will contain error if one occurs
* @param aRadix tells us what base to expect the given string in. kAutoDetect tells us to determine the radix.
* @return int rep of string value
*/
PRInt32 nsCString::ToInteger(PRInt32* anErrorCode,PRUint32 aRadix) const {
char* cp=mStr;
PRInt32 theRadix=10; // base 10 unless base 16 detected, or overriden (aRadix != kAutoDetect)
PRInt32 result=0;
PRBool negate=PR_FALSE;
char theChar=0;
//initial value, override if we find an integer
*anErrorCode=NS_ERROR_ILLEGAL_VALUE;
if(cp) {
//begin by skipping over leading chars that shouldn't be part of the number...
char* endcp=cp+mLength;
PRBool done=PR_FALSE;
while((cp<endcp) && (!done)){
switch(*cp++) {
case 'a': case 'b': case 'c': case 'd': case 'e': case 'f':
case 'A': case 'B': case 'C': case 'D': case 'E': case 'F':
theRadix=16;
done=PR_TRUE;
break;
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
done=PR_TRUE;
break;
case '-':
negate=PR_TRUE; //fall through...
break;
case 'X': case 'x':
theRadix=16;
break;
default:
break;
} //switch
}
if (done) {
//integer found
*anErrorCode = NS_OK;
if (aRadix!=kAutoDetect) theRadix = aRadix; // override
//now iterate the numeric chars and build our result
char* first=--cp; //in case we have to back up.
while(cp<endcp){
theChar=*cp++;
if(('0'<=theChar) && (theChar<='9')){
result = (theRadix * result) + (theChar-'0');
}
else if((theChar>='A') && (theChar<='F')) {
if(10==theRadix) {
if(kAutoDetect==aRadix){
theRadix=16;
cp=first; //backup
result=0;
}
else {
*anErrorCode=NS_ERROR_ILLEGAL_VALUE;
result=0;
break;
}
}
else {
result = (theRadix * result) + ((theChar-'A')+10);
}
}
else if((theChar>='a') && (theChar<='f')) {
if(10==theRadix) {
if(kAutoDetect==aRadix){
theRadix=16;
cp=first; //backup
result=0;
}
else {
*anErrorCode=NS_ERROR_ILLEGAL_VALUE;
result=0;
break;
}
}
else {
result = (theRadix * result) + ((theChar-'a')+10);
}
}
else if(('X'==theChar) || ('x'==theChar) || ('#'==theChar) || ('+'==theChar)) {
continue;
}
else {
//we've encountered a char that's not a legal number or sign
break;
}
} //while
if(negate)
result=-result;
} //if
}
return result;
}
/**********************************************************************
String manipulation methods...
*********************************************************************/
/**
* assign given unichar* to this string
* @update gess 01/04/99
* @param aCString: buffer to be assigned to this
* @param aCount -- length of given buffer or -1 if you want me to compute length.
* NOTE: IFF you pass -1 as aCount, then your buffer must be null terminated.
*
* @return this
*/
void nsCString::AssignWithConversion(const PRUnichar* aString,PRInt32 aCount) {
nsStr::StrTruncate(*this,0);
if(aString && aCount){
nsStr temp;
nsStr::Initialize(temp,eTwoByte);
temp.mUStr=(PRUnichar*)aString;
if(0<aCount) {
temp.mLength=aCount;
// If this assertion fires, the caller is probably lying about the length of
// the passed-in string. File a bug on the caller.
#ifdef NS_DEBUG
PRInt32 len=nsStr::FindChar(temp,0,PR_FALSE,0,temp.mLength);
if(kNotFound<len) {
NS_WARNING(kPossibleNull);
}
#endif
}
else aCount=temp.mLength=nsCRT::strlen(aString);
if(0<aCount)
StrAppend(*this,temp,0,aCount);
}
}
void nsCString::AssignWithConversion( const nsString& aString ) {
AssignWithConversion(aString.GetUnicode(), aString.Length());
}
void nsCString::AssignWithConversion( const nsAReadableString& aString ) {
nsStr::StrTruncate(*this,0);
PRInt32 count = aString.Length();
if(count){
nsReadingIterator<PRUnichar> start; aString.BeginReading(start);
nsReadingIterator<PRUnichar> end; aString.EndReading(end);
while (start != end) {
PRUint32 fraglen = start.size_forward();
nsStr temp;
nsStr::Initialize(temp,eTwoByte);
temp.mUStr=(PRUnichar*)start.get();
temp.mLength=fraglen;
StrAppend(*this,temp,0,fraglen);
start += fraglen;
}
}
}
void nsCString::AppendWithConversion( const nsAReadableString& aString ) {
PRInt32 count = aString.Length();
if(count){
nsReadingIterator<PRUnichar> start; aString.BeginReading(start);
nsReadingIterator<PRUnichar> end; aString.EndReading(end);
while (start != end) {
PRUint32 fraglen = start.size_forward();
nsStr temp;
nsStr::Initialize(temp,eTwoByte);
temp.mUStr=(PRUnichar*)start.get();
temp.mLength=fraglen;
StrAppend(*this,temp,0,fraglen);
start += fraglen;
}
}
}
/**
* assign given unichar to this string
* @update gess 01/04/99
* @param aChar: char to be assignd to this
* @return this
*/
void nsCString::AssignWithConversion(PRUnichar aChar) {
nsStr::StrTruncate(*this,0);
AppendWithConversion(aChar);
}
void nsCString::do_AppendFromReadable( const nsAReadableCString& aReadable )
{
if ( SameImplementation( NS_STATIC_CAST(const nsAReadableCString&, *this), aReadable) )
StrAppend(*this, NS_STATIC_CAST(const nsCString&, aReadable), 0, aReadable.Length());
else
nsAWritableCString::do_AppendFromReadable(aReadable);
}
/**
* append given char to this string
* @update gess 01/04/99
* @param aChar: char to be appended to this
* @return this
*/
void nsCString::AppendWithConversion(PRUnichar aChar) {
PRUnichar buf[2]={0,0};
buf[0]=aChar;
nsStr temp;
nsStr::Initialize(temp,eTwoByte);
temp.mUStr=buf;
temp.mLength=1;
StrAppend(*this,temp,0,1);
}
void nsCString::AppendWithConversion( const PRUnichar* aBuffer, PRInt32 aLength )
{
nsStr temp;
nsStr::Initialize(temp, eTwoByte);
temp.mUStr = NS_CONST_CAST(PRUnichar*, aBuffer);
if ( aLength < 0 )
aLength = nsCharTraits<PRUnichar>::length(aBuffer);
if ( aLength > 0 )
{
temp.mLength = aLength;
StrAppend(*this, temp, 0, aLength);
}
}
/**
* Append the given integer to this string
* @update gess 01/04/99
* @param aInteger:
* @param aRadix:
* @return
*/
void nsCString::AppendInt(PRInt32 anInteger,PRInt32 aRadix) {
PRUint32 theInt=(PRUint32)anInteger;
char buf[]={'0',0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
PRInt32 radices[] = {1000000000,268435456};
PRInt32 mask1=radices[16==aRadix];
PRInt32 charpos=0;
if(anInteger<0) {
theInt*=-1;
if(10==aRadix) {
buf[charpos++]='-';
}
else theInt=(int)~(theInt-1);
}
PRBool isfirst=PR_TRUE;
while(mask1>=1) {
PRInt32 theDiv=theInt/mask1;
if((theDiv) || (!isfirst)) {
buf[charpos++]="0123456789abcdef"[theDiv];
isfirst=PR_FALSE;
}
theInt-=theDiv*mask1;
mask1/=aRadix;
}
Append(buf);
}
/**
* Append the given float to this string
* @update gess 01/04/99
* @param aFloat:
* @return
*/
void nsCString::AppendFloat( double aFloat ){
char buf[40];
// *** XX UNCOMMENT THIS LINE
//PR_snprintf(buf, sizeof(buf), "%g", aFloat);
sprintf(buf,"%g",aFloat);
Append(buf);
}
/**
* append given string to this string;
* @update gess 01/04/99
* @param aString : string to be appended to this
* @return this
*/
void nsCString::AppendWithConversion(const nsString& aString,PRInt32 aCount) {
if(aCount<0)
aCount=aString.mLength;
else aCount=MinInt(aCount,aString.mLength);
if(0<aCount)
StrAppend(*this,aString,0,aCount);
}
/**
* Insert a single unichar into this string at a specified offset.
*
* @update gess4/22/98
* @param aChar unichar to be inserted into this string
* @param anOffset is insert pos in str
* @return this
*/
void nsCString::InsertWithConversion(PRUnichar aChar,PRUint32 anOffset){
PRUnichar theBuffer[2]={0,0};
theBuffer[0]=aChar;
nsStr temp;
nsStr::Initialize(temp,eTwoByte);
temp.mUStr=theBuffer;
temp.mLength=1;
StrInsert(*this,anOffset,temp,0,1);
}
void nsCString::do_InsertFromReadable( const nsAReadableCString& aReadable, PRUint32 atPosition )
{
if ( SameImplementation( NS_STATIC_CAST(const nsAReadableCString&, *this), aReadable) )
StrInsert(*this, atPosition, NS_STATIC_CAST(const nsCString&, aReadable), 0, aReadable.Length());
else
nsAWritableCString::do_InsertFromReadable(aReadable, atPosition);
}
/**********************************************************************
Searching methods...
*********************************************************************/
/**
* Search for given cstr within this string
*
* @update gess 3/25/98
* @param aCString - substr to be found
* @param aIgnoreCase tells us whether or not to do caseless compare
* @param anOffset tells us where in this string to start searching
* @param aCount tells us how many iterations to make starting at the given offset
* @return offset in string, or -1 (kNotFound)
*/
PRInt32 nsCString::Find(const char* aCString,PRBool aIgnoreCase,PRInt32 anOffset,PRInt32 aCount) const{
PRInt32 result=kNotFound;
if(aCString) {
nsStr temp;
nsStr::Initialize(temp,eOneByte);
temp.mLength = nsCRT::strlen(aCString);
temp.mStr=(char*)aCString;
result=nsStr::FindSubstr(*this,temp,aIgnoreCase,anOffset,aCount);
}
return result;
}
/**
* Search for given buffer within this string
*
* @update gess 3/25/98
* @param aString - substr to be found
* @param aIgnoreCase tells us whether or not to do caseless compare
* @param anOffset tells us where in this string to start searching
* @param aCount tells us how many iterations to make starting at the given offset
* @return offset in string, or -1 (kNotFound)
*/
PRInt32 nsCString::Find(const PRUnichar* aString,PRBool aIgnoreCase,PRInt32 anOffset,PRInt32 aCount) const{
NS_ASSERTION(0!=aString,kNullPointerError);
PRInt32 result=kNotFound;
if(aString) {
nsStr temp;
nsStr::Initialize(temp,eTwoByte);
temp.mLength = nsCRT::strlen(aString);
temp.mUStr=(PRUnichar*)aString;
result=nsStr::FindSubstr(*this,temp,aIgnoreCase,anOffset,aCount);
}
return result;
}
/**
* Search for given string within this string
*
* @update gess 3/25/98
* @param aString - substr to be found
* @param aIgnoreCase tells us whether or not to do caseless compare
* @param anOffset tells us where in this string to start searching
* @param aCount tells us how many iterations to make starting at the given offset
* @return offset in string, or -1 (kNotFound)
*/
PRInt32 nsCString::Find(const nsStr& aString,PRBool aIgnoreCase,PRInt32 anOffset,PRInt32 aCount) const{
PRInt32 result=nsStr::FindSubstr(*this,aString,aIgnoreCase,anOffset,aCount);
return result;
}
/**
* This searches this string for a given character
*
* @update gess 2/04/00
* @param char is the character you're trying to find.
* @param aIgnorecase indicates case sensitivity of search
* @param anOffset tells us where to start the search; -1 means start at 0.
* @param aCount tell us how many chars to search from offset; -1 means use full length.
* @return index in aDest where member of aSet occurs, or -1 if not found
*/
PRInt32 nsCString::FindChar(PRUnichar aChar,PRBool aIgnoreCase,PRInt32 anOffset,PRInt32 aCount) const{
PRInt32 result=nsStr::FindChar(*this,aChar,aIgnoreCase,anOffset,aCount);
return result;
}
/**
* This method finds the offset of the first char in this string that is
* a member of the given charset, starting the search at anOffset
*
* @update gess 3/25/98
* @param aCStringSet
* @param anOffset -- where in this string to start searching
* @return
*/
PRInt32 nsCString::FindCharInSet(const char* aCStringSet,PRInt32 anOffset) const{
NS_ASSERTION(0!=aCStringSet,kNullPointerError);
PRInt32 result=kNotFound;
if(aCStringSet) {
nsStr temp;
nsStr::Initialize(temp,eOneByte);
temp.mLength=nsCRT::strlen(aCStringSet);
temp.mStr=(char*)aCStringSet;
result=nsStr::FindCharInSet(*this,temp,PR_FALSE,anOffset);
}
return result;
}
/**
* This method finds the offset of the first char in this string that is
* a member of the given charset, starting the search at anOffset
*
* @update gess 3/25/98
* @param aStringSet
* @param anOffset -- where in this string to start searching
* @return
*/
PRInt32 nsCString::FindCharInSet(const PRUnichar* aStringSet,PRInt32 anOffset) const{
NS_ASSERTION(0!=aStringSet,kNullPointerError);
PRInt32 result=kNotFound;
if(aStringSet) {
nsStr temp;
nsStr::Initialize(temp,eTwoByte);
temp.mLength=nsCRT::strlen(aStringSet);
temp.mStr=(char*)aStringSet;
result=nsStr::FindCharInSet(*this,temp,PR_FALSE,anOffset);
}
return result;
}
/**
* This method finds the offset of the first char in this string that is
* a member of the given charset, starting the search at anOffset
*
* @update gess 3/25/98
* @param aCStringSet
* @param anOffset -- where in this string to start searching
* @return
*/
PRInt32 nsCString::FindCharInSet(const nsStr& aSet,PRInt32 anOffset) const{
PRInt32 result=nsStr::FindCharInSet(*this,aSet,PR_FALSE,anOffset);
return result;
}
/**
* Reverse search for given string within this string
*
* @update gess 3/25/98
* @param aString - substr to be found
* @param aIgnoreCase tells us whether or not to do caseless compare
* @param anOffset tells us where in this string to start searching
* @param aCount tells us how many iterations to make starting at the given offset
* @return offset in string, or -1 (kNotFound)
*/
PRInt32 nsCString::RFind(const nsStr& aString,PRBool aIgnoreCase,PRInt32 anOffset,PRInt32 aCount) const{
PRInt32 result=nsStr::RFindSubstr(*this,aString,aIgnoreCase,anOffset,aCount);
return result;
}
/**
* Reverse search for given string within this string
*
* @update gess 3/25/98
* @param aString - substr to be found
* @param aIgnoreCase tells us whether or not to do caseless compare
* @param anOffset tells us where in this string to start searching
* @param aCount tells us how many iterations to make starting at the given offset
* @return offset in string, or -1 (kNotFound)
*/
PRInt32 nsCString::RFind(const char* aString,PRBool aIgnoreCase,PRInt32 anOffset,PRInt32 aCount) const{
NS_ASSERTION(0!=aString,kNullPointerError);
PRInt32 result=kNotFound;
if(aString) {
nsStr temp;
nsStr::Initialize(temp,eOneByte);
temp.mLength=nsCRT::strlen(aString);
temp.mStr=(char*)aString;
result=nsStr::RFindSubstr(*this,temp,aIgnoreCase,anOffset,aCount);
}
return result;
}
/**
* This reverse searches this string for a given character
*
* @update gess 2/04/00
* @param char is the character you're trying to find.
* @param aIgnorecase indicates case sensitivity of search
* @param anOffset tells us where to start the search; -1 means start at 0.
* @param aCount tell us how many chars to search from offset; -1 means use full length.
* @return index in aDest where member of aSet occurs, or -1 if not found
*/
PRInt32 nsCString::RFindChar(PRUnichar aChar,PRBool aIgnoreCase,PRInt32 anOffset,PRInt32 aCount) const{
PRInt32 result=nsStr::RFindChar(*this,aChar,aIgnoreCase,anOffset,aCount);
return result;
}
/**
* Reverse search for char in this string that is also a member of given charset
*
* @update gess 3/25/98
* @param aCStringSet
* @param anOffset
* @return offset of found char, or -1 (kNotFound)
*/
PRInt32 nsCString::RFindCharInSet(const char* aCStringSet,PRInt32 anOffset) const{
NS_ASSERTION(0!=aCStringSet,kNullPointerError);
PRInt32 result=kNotFound;
if(aCStringSet) {
nsStr temp;
nsStr::Initialize(temp,eOneByte);
temp.mLength=nsCRT::strlen(aCStringSet);
temp.mStr=(char*)aCStringSet;
result=nsStr::RFindCharInSet(*this,temp,PR_FALSE,anOffset);
}
return result;
}
/**
* Reverse search for char in this string that is also a member of given charset
*
* @update gess 3/25/98
* @param aStringSet
* @param anOffset
* @return offset of found char, or -1 (kNotFound)
*/
PRInt32 nsCString::RFindCharInSet(const PRUnichar* aStringSet,PRInt32 anOffset) const{
NS_ASSERTION(0!=aStringSet,kNullPointerError);
PRInt32 result=kNotFound;
if(aStringSet) {
nsStr temp;
nsStr::Initialize(temp,eTwoByte);
temp.mLength=nsCRT::strlen(aStringSet);
temp.mUStr=(PRUnichar*)aStringSet;
result=nsStr::RFindCharInSet(*this,temp,PR_FALSE,anOffset);
}
return result;
}
/**
* Reverse search for char in this string that is also a member of given charset
*
* @update gess 3/25/98
* @param aCStringSet
* @param anOffset
* @return offset of found char, or -1 (kNotFound)
*/
PRInt32 nsCString::RFindCharInSet(const nsStr& aSet,PRInt32 anOffset) const{
PRInt32 result=nsStr::RFindCharInSet(*this,aSet,PR_FALSE,anOffset);
return result;
}
/**************************************************************
COMPARISON METHODS...
**************************************************************/
/**
* Compares given unistring to this string.
* @update gess 01/04/99
* @param aString pts to a uni-string
* @param aIgnoreCase tells us how to treat case
* @param aCount tells us how many chars to test; -1 implies full length
* @return -1,0,1
*/
PRInt32 nsCString::CompareWithConversion(const PRUnichar* aString,PRBool aIgnoreCase,PRInt32 aCount) const {
NS_ASSERTION(0!=aString,kNullPointerError);
if(aString) {
nsStr temp;
nsStr::Initialize(temp,eTwoByte);
temp.mLength=nsCRT::strlen(aString);
temp.mUStr=(PRUnichar*)aString;
return nsStr::StrCompare(*this,temp,aCount,aIgnoreCase);
}
return 0;
}
/**
* Compares given cstring to this string.
* @update gess 01/04/99
* @param aCString points to a cstring
* @param aIgnoreCase tells us how to treat case
* @param aCount tells us how many chars to test; -1 implies full length
* @return -1,0,1
*/
PRInt32 nsCString::CompareWithConversion(const char *aCString,PRBool aIgnoreCase,PRInt32 aCount) const {
NS_ASSERTION(0!=aCString,kNullPointerError);
if(aCString) {
nsStr temp;
nsStr::Initialize(temp,eOneByte);
temp.mLength=nsCRT::strlen(aCString);
temp.mStr=(char*)aCString;
return nsStr::StrCompare(*this,temp,aCount,aIgnoreCase);
}
return 0;
}
PRBool nsCString::EqualsIgnoreCase(const char* aString,PRInt32 aLength) const {
return EqualsWithConversion(aString,PR_TRUE,aLength);
}
PRBool nsCString::EqualsIgnoreCase(const PRUnichar* aString,PRInt32 aLength) const {
return EqualsWithConversion(aString,PR_TRUE,aLength);
}
/**
* Compare this to given string; note that we compare full strings here.
*
* @param aString is the CString to be compared
* @param aCount tells us how many chars you want to compare starting with start of string
* @param aIgnorecase tells us whether to be case sensitive
* @param aCount tells us how many chars to test; -1 implies full length
* @return TRUE if equal
*/
PRBool nsCString::EqualsWithConversion(const char* aCString,PRBool aIgnoreCase,PRInt32 aCount) const{
PRInt32 theAnswer=CompareWithConversion(aCString,aIgnoreCase,aCount);
PRBool result=PRBool(0==theAnswer);
return result;
}
PRBool nsCString::EqualsWithConversion(const PRUnichar* aString,PRBool aIgnoreCase,PRInt32 aCount) const {
PRInt32 theAnswer=CompareWithConversion(aString,aIgnoreCase,aCount);
PRBool result=PRBool(0==theAnswer);
return result;
}
PRBool nsCString::EqualsWithConversion(const nsString& aString, PRBool aIgnoreCase,PRInt32 aCount) const {
PRInt32 theAnswer=CompareWithConversion(aString.GetUnicode(),aIgnoreCase,aCount);
PRBool result=PRBool(0==theAnswer);
return result;
}
#if 0
/**
*
* @update gess8/8/98
* @param
* @return
*/
ostream& operator<<(ostream& aStream,const nsCString& aString){
if(eOneByte==aString.mCharSize) {
aStream<<aString.mStr;
}
else{
PRUint32 theOffset=0;
const PRUint32 theBufSize=300;
char theBuf[theBufSize+1];
PRUint32 theCount=0;
PRUint32 theRemains=0;
while(theOffset<aString.mLength){
theRemains=aString.mLength-theOffset;
theCount=(theRemains<theBufSize) ? theRemains : theBufSize;
aString.ToCString(theBuf,theCount+1,theOffset);
theBuf[theCount]=0;
aStream<<theBuf;
theOffset+=theCount;
}
}
return aStream;
}
#endif
/**
*
* @update gess 01/04/99
* @param
* @return
*/
NS_COM int fputs(const nsCString& aString, FILE* out)
{
char buf[100];
char* cp = buf;
PRInt32 len = aString.mLength;
if (len >= PRInt32(sizeof(buf))) {
cp = aString.ToNewCString();
} else {
aString.ToCString(cp, len + 1);
}
if(len>0)
::fwrite(cp, 1, len, out);
if (cp != buf) {
delete[] cp;
}
return (int) len;
}
/**
* Dumps the contents of the string to stdout
* @update gess 11/15/99
*/
void nsCString::DebugDump(void) const {
if(mStr && (eOneByte==mCharSize)) {
printf("\n%s",mStr);
}
}
//----------------------------------------------------------------------
NS_ConvertUCS2toUTF8::NS_ConvertUCS2toUTF8( const nsAReadableString& aString )
{
nsReadingIterator<PRUnichar> start; aString.BeginReading(start);
nsReadingIterator<PRUnichar> end; aString.EndReading(end);
while (start != end) {
nsReadableFragment<PRUnichar> frag(start.fragment());
Append(frag.mStart, frag.mEnd - frag.mStart);
start += start.size_forward();
}
}
void
NS_ConvertUCS2toUTF8::Append( const PRUnichar* aString, PRUint32 aLength )
{
// Handle null string by just leaving us as a brand-new
// uninitialized nsCAutoString.
if (! aString)
return;
// Caculate how many bytes we need
const PRUnichar* p;
PRInt32 count, utf8len;
for (p = aString, utf8len = 0, count = aLength; 0 != count && 0 != (*p); count--, p++)
{
if (! ((*p) & 0xFF80))
utf8len += 1; // 0000 0000 - 0000 007F
else if (! ((*p) & 0xF800))
utf8len += 2; // 0000 0080 - 0000 07FF
else
utf8len += 3; // 0000 0800 - 0000 FFFF
// Note: Surrogate pair needs 4 bytes, but in this calcuation
// we count it as 6 bytes. It will waste 2 bytes per surrogate pair
}
// Make sure our buffer's big enough, so we don't need to do
// multiple allocations.
if(mLength+PRUint32(utf8len+1) > sizeof(mBuffer))
SetCapacity(mLength+utf8len+1);
// |SetCapacity| normally doesn't guarantee the use we are putting it to here (see its interface comment in nsAWritableString.h),
// we can only use it since our local implementation, |nsCString::SetCapacity|, is known to do what we want
char* out = mStr+mLength;
PRUint32 ucs4=0;
for (p = aString, count = aLength; 0 != count && 0 != (*p); count--, p++)
{
if (0 == ucs4)
{
if (! ((*p) & 0xFF80))
{
*out++ = (char)*p;
}
else if (! ((*p) & 0xF800))
{
*out++ = 0xC0 | (char)((*p) >> 6);
*out++ = 0x80 | (char)(0x003F & (*p));
}
else
{
if (0xD800 == (0xFC00 & (*p)))
{
// D800- DBFF - High Surrogate
// N = (H- D800) *400 + 10000 + ...
ucs4 = 0x10000 | ((0x03FF & (*p)) << 10);
}
else if (0xDC00 == (0xFC00 & (*p)))
{
// DC00- DFFF - Low Surrogate
// error here. We should hit High Surrogate first
// Do not output any thing in this case
}
else
{
*out++ = 0xE0 | (char)((*p) >> 12);
*out++ = 0x80 | (char)(0x003F & (*p >> 6));
*out++ = 0x80 | (char)(0x003F & (*p) );
}
}
}
else
{
if (0xDC00 == (0xFC00 & (*p)))
{
// DC00- DFFF - Low Surrogate
// N += ( L - DC00 )
ucs4 |= (0x03FF & (*p));
// 0001 0000-001F FFFF
*out++ = 0xF0 | (char)(ucs4 >> 18);
*out++ = 0x80 | (char)(0x003F & (ucs4 >> 12));
*out++ = 0x80 | (char)(0x003F & (ucs4 >> 6));
*out++ = 0x80 | (char)(0x003F & ucs4) ;
}
else
{
// Got a High Surrogate but no low surrogate
// output nothing.
}
ucs4 = 0;
}
}
*out = '\0'; // null terminate
mLength += utf8len;
}
/***********************************************************************
IMPLEMENTATION NOTES: AUTOSTRING...
***********************************************************************/
/**
* Default constructor
*
*/
nsCAutoString::nsCAutoString() : nsCString(){
Initialize(*this,mBuffer,sizeof(mBuffer)-1,0,eOneByte,PR_FALSE);
AddNullTerminator(*this);
}
nsCAutoString::nsCAutoString( const nsCString& aString ) : nsCString(){
Initialize(*this,mBuffer,sizeof(mBuffer)-1,0,eOneByte,PR_FALSE);
AddNullTerminator(*this);
Append(aString);
}
nsCAutoString::nsCAutoString( const nsAReadableCString& aString ) : nsCString(){
Initialize(*this,mBuffer,sizeof(mBuffer)-1,0,eOneByte,PR_FALSE);
AddNullTerminator(*this);
Append(aString);
}
nsCAutoString::nsCAutoString(const char* aCString) : nsCString() {
Initialize(*this,mBuffer,sizeof(mBuffer)-1,0,eOneByte,PR_FALSE);
AddNullTerminator(*this);
Append(aCString);
}
/**
* Copy construct from ascii c-string
* @param aCString is a ptr to a 1-byte cstr
*/
nsCAutoString::nsCAutoString(const char* aCString,PRInt32 aLength) : nsCString() {
Initialize(*this,mBuffer,sizeof(mBuffer)-1,0,eOneByte,PR_FALSE);
AddNullTerminator(*this);
Append(aCString,aLength);
}
/**
* Copy construct using an external buffer descriptor
* @param aBuffer -- descibes external buffer
*/
nsCAutoString::nsCAutoString(const CBufDescriptor& aBuffer) : nsCString() {
if(!aBuffer.mBuffer) {
Initialize(*this,mBuffer,sizeof(mBuffer)-1,0,eOneByte,PR_FALSE);
}
else {
Initialize(*this,aBuffer.mBuffer,aBuffer.mCapacity,aBuffer.mLength,aBuffer.mCharSize,!aBuffer.mStackBased);
}
if(!aBuffer.mIsConst)
AddNullTerminator(*this); //this isn't really needed, but it guarantees that folks don't pass string constants.
}
#if 0
/**
* Copy construct from uni-string
* @param aString is a ptr to a unistr
*/
nsCAutoString::nsCAutoString(const PRUnichar* aString,PRInt32 aLength) : nsCString() {
Initialize(*this,mBuffer,sizeof(mBuffer)-1,0,eOneByte,PR_FALSE);
AddNullTerminator(*this);
Append(aString,aLength);
}
/**
* construct from an nsStr
* @param
*/
nsCAutoString::nsCAutoString(const nsStr& aString) : nsCString() {
Initialize(*this,mBuffer,sizeof(mBuffer)-1,0,eOneByte,PR_FALSE);
AddNullTerminator(*this);
Append(aString);
}
/**
* construct from a char
* @param
*/
nsCAutoString::nsCAutoString(PRUnichar aChar) : nsCString(){
Initialize(*this,mBuffer,sizeof(mBuffer)-1,0,eOneByte,PR_FALSE);
AddNullTerminator(*this);
Append(aChar);
}
#endif
/**
* construct from a subsumeable string
* @update gess 1/4/99
* @param reference to a subsumeString
*/
#if defined(AIX) || defined(XP_OS2_VACPP)
nsCAutoString::nsCAutoString(const nsSubsumeCStr& aSubsumeStr) :nsCString() {
nsSubsumeCStr temp(aSubsumeStr); // a temp is needed for the AIX and VAC++ compilers
CSubsume(*this,temp);
#else
nsCAutoString::nsCAutoString( nsSubsumeCStr& aSubsumeStr) :nsCString() {
CSubsume(*this,aSubsumeStr);
#endif // AIX || XP_OS2_VACPP
}
/**
* deconstructor
* @param
*/
nsCAutoString::~nsCAutoString(){
}
void nsCAutoString::SizeOf(nsISizeOfHandler* aHandler, PRUint32* aResult) const {
if (aResult) {
*aResult = sizeof(*this) + mCapacity * mCharSize;
}
}
nsSubsumeCStr::nsSubsumeCStr(nsStr& aString) : nsCString() {
CSubsume(*this,aString);
}
nsSubsumeCStr::nsSubsumeCStr(PRUnichar* aString,PRBool assumeOwnership,PRInt32 aLength) : nsCString() {
mUStr=aString;
mCapacity=mLength=(-1==aLength) ? nsCRT::strlen(aString) : aLength;
mOwnsBuffer=assumeOwnership;
}
nsSubsumeCStr::nsSubsumeCStr(char* aString,PRBool assumeOwnership,PRInt32 aLength) : nsCString() {
mStr=aString;
mCapacity=mLength=(-1==aLength) ? strlen(aString) : aLength;
mOwnsBuffer=assumeOwnership;
}