#ifndef _ROSE_COMPRESSION_TUPLE_H__ #define _ROSE_COMPRESSION_TUPLE_H__ // Copyright 2007 Google Inc. All Rights Reserved. // Author: sears@google.com (Rusty Sears) /** @file Implementation of tuples (Tuple) and dispatch routines for column wide compression (PluginDispatcher). */ #include #include #include "compression.h" #include "for.h" #include "rle.h" #include "nop.h" #include "string.h" namespace rose { template class Tuple { public: explicit Tuple(column_number_t count) : count_(count), cols_(new TYPE[count]), byteArray_(new byte[sizeof(count_)+count_*sizeof(TYPE)]) {} /*explicit Tuple(byte* b) : count_(*(column_number_t*)b), cols_(new TYPE[count_]), byteArray_(new byte[sizeof(count_)+count_*sizeof(TYPE)]) { memcpy(cols_,b+sizeof(column_number_t), sizeof(TYPE)*count_); } */ explicit Tuple(Tuple& t) : count_(t.count_), cols_(new TYPE[count_]), byteArray_(new byte[sizeof(count_)+count_*sizeof(TYPE)]) { for(column_number_t c = 0; c < count_; c++) { cols_[c] = t.cols_[c]; } } Tuple(TYPE t) : count_(0), cols_(new TYPE[1]), byteArray_(new byte[sizeof(count_)+sizeof(TYPE)]) { cols_[0] = t; } /* Tuple(Tuple *t) : count_(t->count_),cols_(new TYPE[count_]) { for(column_number_t c = 0; c < count_; c++) { cols_[c] = t->cols_[c]; } } */ inline ~Tuple(void) { delete[] cols_; delete[] byteArray_; } inline bool tombstone(void) { return false; } inline TYPE * set(column_number_t col,void* val) { cols_[col] = *(TYPE*)val; return (TYPE*)val; } inline TYPE * get(column_number_t col) const { return &(cols_[col]); } inline void copyFrom(Tuple t) { for(int i = 0; i < count_; i++) { set(i,t.get(i)); } } inline column_number_t column_count() const { return count_; } inline byte_off_t column_len(column_number_t col) const { return sizeof(TYPE); } /* inline void fromByteArray(byte * b) { assert(count_ == *(column_number_t*)b); // memcpy(cols_,b+sizeof(column_number_t),sizeof(TYPE)*count_); TYPE *newCols = (int*)(b + sizeof(column_number_t)); for(column_number_t i = 0; i < count_; i++) { cols_[i] = newCols[i]; } } */ inline byte* toByteArray(void) { byte* ret = byteArray_; memcpy(ret, &count_, sizeof(count_)); memcpy(ret+sizeof(count_), cols_, count_ * sizeof(TYPE)); return ret; } /* inline operator const byte * (void) { return toByteArray(); } */ inline operator TYPE (void) { return cols_[0]; //*get(0); } /* inline operator TYPE (void) { assert(count_ == 0); return cols_[0]; } */ static inline size_t sizeofBytes(column_number_t cols) { return sizeof(column_number_t) + cols * sizeof(TYPE); } static const int TUPLE_ID = 0; /* inline bool operator==(Tuple *t) { return *this == *t; } */ inline bool operator==(Tuple &t) { //if(t.count_ != count_) return 0; for(column_number_t i = 0; i < count_; i++) { if(cols_[i] != t.cols_[i]) { return 0;} } return 1; } inline bool operator<(Tuple &t) { //if(t.count_ != count_) return 0; for(column_number_t i = 0; i < count_; i++) { if(cols_[i] < t.cols_[i]) { return 1;} } return 0; } /* inline bool operator==(TYPE val) { assert(count_ == 1); return cols_[0] == val; }*/ class iterator { public: inline iterator(column_number_t c, TYPE const *const *const dataset, int offset) : c_(c), dat_(dataset), off_(offset), scratch_(c_) {} inline explicit iterator(const iterator &i) : c_(i.c_), dat_(i.dat_), off_(i.off_), scratch_(c_) {} inline Tuple& operator*(void) { for(column_number_t i = 0; i < c_; i++) { scratch_.set(i,(void*)&dat_[i][off_]); } return scratch_; } inline bool operator==(const iterator &a) const { //assert(dat_==a.dat_ && c_==a.c_); return (off_==a.off_); } inline bool operator!=(const iterator &a) const { //assert(dat_==a.dat_ && c_==a.c_); return (off_!=a.off_); } inline void operator++(void) { off_++; } inline void operator--(void) { off_--; } inline void operator+=(int i) { abort(); } inline int operator-(iterator&i) { return off_ - i.off_; } inline void operator=(iterator &i) { assert(c_==i.c_); assert(dat_==i.dat_); off_=i.off_; } inline void offset(int off) { off_=off; } private: column_number_t c_; TYPE const * const * dat_; int off_; Tuple scratch_; }; static const uint32_t TIMESTAMP = 0; private: Tuple(void) { abort(); } explicit Tuple(const Tuple& t) { abort(); } column_number_t count_; TYPE * const cols_; byte * byteArray_; }; } #endif // _ROSE_COMPRESSION_TUPLE_H__