/* builder.h */ /* Copyright 2009 10gen Inc. * * Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #pragma once #include "../stdafx.h" #include namespace mongo { class StringBuilder; class BufBuilder { public: BufBuilder(int initsize = 512) : size(initsize) { if ( size > 0 ) { data = (char *) malloc(size); assert(data); } else { data = 0; } l = 0; } ~BufBuilder() { kill(); } void kill() { if ( data ) { free(data); data = 0; } } void reset( int maxSize = 0 ){ l = 0; if ( maxSize && size > maxSize ){ free(data); data = (char*)malloc(maxSize); size = maxSize; } } /* leave room for some stuff later */ void skip(int n) { grow(n); } /* note this may be deallocated (realloced) if you keep writing. */ char* buf() { return data; } /* assume ownership of the buffer - you must then free it */ void decouple() { data = 0; } template void append(T j) { *((T*)grow(sizeof(T))) = j; } void append(short j) { append(j); } void append(int j) { append(j); } void append(unsigned j) { append(j); } void append(bool j) { append(j); } void append(double j) { append(j); } void append(const void *src, size_t len) { memcpy(grow(len), src, len); } void append(const char *str) { append((void*) str, strlen(str)+1); } void append(const string &str) { append( (void *)str.c_str(), str.length() + 1 ); } void append( int val , int padding ){ } int len() const { return l; } void setlen( int newLen ){ l = newLen; } private: /* returns the pre-grow write position */ char* grow(int by) { int oldlen = l; l += by; if ( l > size ) { int a = size * 2; if ( a == 0 ) a = 512; if ( l > a ) a = l + 16 * 1024; assert( a < 64 * 1024 * 1024 ); data = (char *) realloc(data, a); size= a; } return data + oldlen; } char *data; int l; int size; friend class StringBuilder; }; class StringBuilder { public: StringBuilder( int initsize=256 ) : _buf( initsize ){ } #define SBNUM(val,maxSize,macro) \ int prev = _buf.l; \ int z = sprintf( _buf.grow(maxSize) , macro , (val) ); \ _buf.l = prev + z; \ return *this; StringBuilder& operator<<( double x ){ SBNUM( x , 25 , "%g" ); } StringBuilder& operator<<( int x ){ SBNUM( x , 11 , "%d" ); } StringBuilder& operator<<( unsigned x ){ SBNUM( x , 11 , "%u" ); } StringBuilder& operator<<( long x ){ SBNUM( x , 22 , "%ld" ); } StringBuilder& operator<<( unsigned long x ){ SBNUM( x , 22 , "%lu" ); } StringBuilder& operator<<( long long x ){ SBNUM( x , 22 , "%lld" ); } StringBuilder& operator<<( unsigned long long x ){ SBNUM( x , 22 , "%llu" ); } StringBuilder& operator<<( short x ){ SBNUM( x , 8 , "%hd" ); } StringBuilder& operator<<( char c ){ _buf.grow( 1 )[0] = c; return *this; } void append( const char * str ){ int x = strlen( str ); memcpy( _buf.grow( x ) , str , x ); } StringBuilder& operator<<( const char * str ){ append( str ); return *this; } StringBuilder& operator<<( const string& s ){ append( s.c_str() ); return *this; } // access void reset( int maxSize = 0 ){ _buf.reset( maxSize ); } string str(){ return string(_buf.data, _buf.l); } private: BufBuilder _buf; }; } // namespace mongo