/*------------------------------------------------------------------------------ * Copyright (C) 2003-2006 Ben van Klinken and the CLucene Team * * Distributable under the terms of either the Apache License (Version 2.0) or * the GNU Lesser General Public License, as specified in the COPYING file. ------------------------------------------------------------------------------*/ #include "CLucene/StdHeader.h" #include "StringBuffer.h" #include "Misc.h" CL_NS_DEF(util) StringBuffer::StringBuffer(TCHAR* buf,int32_t maxlen, const bool consumeBuffer){ buffer = buf; bufferLength = maxlen; bufferOwner = !consumeBuffer; len = 0; } StringBuffer::StringBuffer(){ //Func - Constructor. Allocates a buffer with the default length. //Pre - true //Post - buffer of length bufferLength has been allocated //Initialize bufferLength = LUCENE_DEFAULT_TOKEN_BUFFER_SIZE; len = 0; //Allocate a buffer of length bufferLength buffer = _CL_NEWARRAY(TCHAR,bufferLength); bufferOwner = true; } StringBuffer::StringBuffer(const int32_t initSize){ //Func - Constructor. Allocates a buffer of length initSize + 1 //Pre - initSize > 0 //Post - A buffer has been allocated of length initSize + 1 //Initialize the bufferLength to initSize + 1 The +1 is for the terminator '\0' bufferLength = initSize + 1; len = 0; //Allocate a buffer of length bufferLength buffer = _CL_NEWARRAY(TCHAR,bufferLength); bufferOwner = true; } StringBuffer::StringBuffer(const TCHAR* value){ //Func - Constructor. // Creates an instance of Stringbuffer containing a copy of the string value //Pre - value != NULL //Post - An instance of StringBuffer has been created containing the copy of the string value //Initialize the length of the string to be stored in buffer len = (int32_t) _tcslen(value); //Calculate the space occupied in buffer by a copy of value const int32_t occupiedLength = len + 1; // Minimum allocated buffer length is LUCENE_DEFAULT_TOKEN_BUFFER_SIZE. bufferLength = (occupiedLength >= LUCENE_DEFAULT_TOKEN_BUFFER_SIZE ? occupiedLength : LUCENE_DEFAULT_TOKEN_BUFFER_SIZE); //Allocate a buffer of length bufferLength buffer = _CL_NEWARRAY(TCHAR,bufferLength); bufferOwner = true; //Copy the string value into buffer _tcsncpy(buffer, value, occupiedLength); //Assert that the buffer has been terminated at the end of the string CND_PRECONDITION (buffer[len] == '\0', "Buffer was not correctly terminated"); } StringBuffer::~StringBuffer() { // Func - Destructor // Pre - true // Post - Instanc has been destroyed if( bufferOwner ){ _CLDELETE_CARRAY(buffer); }else buffer = NULL; } void StringBuffer::clear(){ //Func - Clears the Stringbuffer and resets it to it default empty state //Pre - true //Post - pre(buffer) has been destroyed and a new one has been allocated //Destroy the current buffer if present _CLDELETE_CARRAY(buffer); //Initialize len = 0; bufferLength = LUCENE_DEFAULT_TOKEN_BUFFER_SIZE; //Allocate a buffer of length bufferLength buffer = _CL_NEWARRAY(TCHAR,bufferLength); } void StringBuffer::appendChar(const TCHAR character) { //Func - Appends a single character //Pre - true //Post - The character has been appended to the string in the buffer //Check if the current buffer length is sufficient to have the string value appended if (len + 1 > bufferLength){ //Have the size of the current string buffer increased because it is too small growBuffer(len + 1); } //Put character at position len which is the end of the string in the buffer //Note that this action might overwrite the terminator of the string '\0', which //is kind of tricky buffer[len] = character; //Increase the len by to represent the correct length of the string in the buffer len++; } void StringBuffer::append(const TCHAR* value) { //Func - Appends a copy of the string value //Pre - value != NULL //Post - value has been copied and appended to the string in buffer append(value, _tcslen(value)); } void StringBuffer::append(const TCHAR* value, size_t appendedLength) { //Func - Appends a copy of the string value //Pre - value != NULL // appendedLength contains the length of the string value which is to be appended //Post - value has been copied and appended to the string in buffer //Check if the current buffer length is sufficient to have the string value appended if (len + appendedLength + 1 > bufferLength){ //Have the size of the current string buffer increased because it is too small growBuffer(len + appendedLength + 1); } //Copy the string value into the buffer at postion len _tcsncpy(buffer + len, value, appendedLength); //Add the length of the copied string to len to reflect the new length of the string in //the buffer (Note: len is not the bufferlength!) len += appendedLength; } void StringBuffer::appendInt(const int32_t value) { //Func - Appends an integer (after conversion to a character string) //Pre - true //Post - The converted integer value has been appended to the string in buffer //instantiate a buffer of 30 charactes for the conversion of the integer TCHAR buf[30]; //Convert the integer value to a string buf using the radix 10 (duh) _i64tot(value, buf, 10); //Have the converted integer now stored in buf appended to the string in buffer append(buf); } void StringBuffer::appendFloat(const float_t value, const int32_t digits){ //Func - Appends a float_t (after conversion to a character string) //Pre - digits > 0. Indicates the minimum number of characters printed //Post - The converted float_t value has been appended to the string in buffer //using sprintf("%f" was not reliable on other plaforms... we use a custom float convertor //bvk: also, using sprintf and %f seems excessivelly slow if(digits>8) _CLTHROWA(CL_ERR_IllegalArgument,"Too many digits..."); //the maximum number of characters that int64 will hold is 23. so we need 23*2+2 TCHAR buf[48]; //the buffer to hold int64_t v = (int64_t)value; //the integer value of the float _i64tot(v,buf,10); //add the whole number size_t len = 99-_tcslen(buf); //how many digits we have to work with? size_t dig = len< (size_t)digits ? len : digits; if ( dig > 0 ){ _tcscat(buf,_T(".")); //add a decimal point int64_t remi=(int64_t)((value-v)*pow((float_t)10,(float_t)(dig+1))); //take the remainder and make a whole number if ( remi<0 ) remi*=-1; int64_t remadj=remi/10; if ( remi-(remadj*10) >=5 ) remadj++; //adjust remainder _i64tot(remadj,buf+_tcslen(buf),10); //add the remainder } append(buf); } void StringBuffer::prepend(const TCHAR* value){ //Func - Puts a copy of the string value infront of the current string in the StringBuffer //Pre - value != NULL //Post - The string in pre(buffer) has been shifted n positions where n equals the length of value. // The string value was then copied to the beginning of stringbuffer prepend(value, _tcslen(value)); } void StringBuffer::prepend(const TCHAR* value, const size_t prependedLength) { //Func - Puts a copy of the string value in front of the string in the StringBuffer //Pre - value != NULL // prependedLength contains the length of the string value which is to be prepended //Post - A copy of the string value is has been in front of the string in buffer //todo: something is wrong with this code, i'm sure... it only grows (and therefore moves if the buffer is to small) //Check if the current buffer length is sufficient to have the string value prepended if (prependedLength + len + 1 > bufferLength){ //Have the size of the current string buffer increased because it is too small //Because prependedLength is passed as the second argument to growBuffer, //growBuffer will have left the first prependedLength characters empty //when it recopied buffer during reallocation. growBuffer(prependedLength + len + 1, prependedLength); } //Copy the string value into the buffer at postion 0 _tcsncpy(buffer, value, prependedLength); //Add the length of the copied string to len to reflect the new length of the string in //the buffer (Note: len is not the bufferlength!) len += prependedLength; } int32_t StringBuffer::length() const{ //Func - Returns the length of the string in the StringBuffer //Pre - true //Post - The length len of the string in the buffer has been returned return len; } TCHAR* StringBuffer::toString(){ //Func - Returns a copy of the current string in the StringBuffer sized equal to the length of the string // in the StringBuffer. //Pre - true //Post - The copied string has been returned //Instantiate a buffer equal to the length len + 1 TCHAR* ret = _CL_NEWARRAY(TCHAR,len + 1); if (ret){ //Copy the string in buffer _tcsncpy(ret, buffer, len); //terminate the string ret[len] = '\0'; } //return the the copy return ret; } TCHAR* StringBuffer::getBuffer() { //Func - '\0' terminates the buffer and returns its pointer //Pre - true //Post - buffer has been '\0' terminated and returned // Check if the current buffer is '\0' terminated if (len == bufferLength){ //Make space for terminator, if necessary. growBuffer(len + 1); } //'\0' buffer so it can be returned properly buffer[len] = '\0'; return buffer; } void StringBuffer::reserve(const int32_t size){ if ( bufferLength >= size ) return; bufferLength = size; //Allocate a new buffer of length bufferLength TCHAR* tmp = _CL_NEWARRAY(TCHAR,bufferLength); _tcsncpy(tmp, buffer, len); tmp[len] = '\0'; //destroy the old buffer if (buffer){ _CLDELETE_CARRAY(buffer); } //Assign the new buffer tmp to buffer buffer = tmp; } void StringBuffer::growBuffer(const int32_t minLength) { //Func - Has the buffer grown to a minimum length of minLength or bigger //Pre - minLength >= len + 1 //Post - The buffer has been grown to a minimum length of minLength or bigger growBuffer(minLength, 0); } void StringBuffer::growBuffer(const int32_t minLength, const int32_t skippingNInitialChars) { //Func - Has the buffer grown to a minimum length of minLength or bigger and shifts the // current string in buffer by skippingNInitialChars forward //Pre - After growth, must have at least enough room for contents + terminator so // minLength >= skippingNInitialChars + len + 1 // skippingNInitialChars >= 0 //Post - The buffer has been grown to a minimum length of minLength or bigger and // if skippingNInitialChars > 0, the contents of the buffer has beeen shifted // forward by skippingNInitialChars positions as the buffer is reallocated, // leaving the first skippingNInitialChars uninitialized (presumably to be // filled immediately thereafter by the caller). CND_PRECONDITION (skippingNInitialChars >= 0, "skippingNInitialChars is less than zero"); CND_PRECONDITION (minLength >= skippingNInitialChars + len + 1,"skippingNInitialChars is not large enough"); //More aggressive growth strategy to offset smaller default buffer size: if ( !bufferOwner ){ if ( bufferLength