#include "logstore.h" //#include "datapage.cpp" #include "logiterators.h" //template /* template <> const byte* toByteArray, datatuple>( memTreeIterator, datatuple> * const t) { return (*(t->it_)).to_bytes(); } */ ///////////////////////////////////////////////////////////////////// // tree iterator implementation ///////////////////////////////////////////////////////////////////// template treeIterator::treeIterator(recordid tree) : tree_(tree), lsmIterator_(logtreeIterator::open(-1,tree)), curr_tuple(0) { init_helper(); } template treeIterator::treeIterator(recordid tree, TUPLE& key) : tree_(tree), //scratch_(), lsmIterator_(logtreeIterator::openAt(-1,tree,key.get_key()))//toByteArray())), //slot_(0) { init_helper(); /* treeIterator * end = this->end(); for(;*this != *end && **this < key; ++(*this)) { DEBUG("treeIterator was not at the given TUPLE"); } delete end; */ } template treeIterator::~treeIterator() { if(lsmIterator_) logtreeIterator::close(-1, lsmIterator_); if(curr_tuple != NULL) free(curr_tuple); if(curr_page!=NULL) { delete curr_page; curr_page = 0; } } template void treeIterator::init_helper() { if(!lsmIterator_) { printf("treeIterator:\t__error__ init_helper():\tnull lsmIterator_"); curr_page = 0; dp_itr = 0; } else { if(logtreeIterator::next(-1, lsmIterator_) == 0) { //printf("treeIterator:\t__error__ init_helper():\tlogtreeIteratr::next returned 0." ); curr_page = 0; dp_itr = 0; } else { pageid_t * pid_tmp; pageid_t ** hack = &pid_tmp; logtreeIterator::value(-1,lsmIterator_,(byte**)hack); curr_pageid = *pid_tmp; curr_page = new DataPage(-1, curr_pageid); dp_itr = new DPITR_T(curr_page->begin()); } } } template TUPLE * treeIterator::getnext() { assert(this->lsmIterator_); if(dp_itr == 0) return 0; TUPLE* readTuple = dp_itr->getnext(-1); if(!readTuple) { delete dp_itr; dp_itr = 0; delete curr_page; curr_page = 0; if(logtreeIterator::next(-1,lsmIterator_)) { pageid_t *pid_tmp; pageid_t **hack = &pid_tmp; logtreeIterator::value(-1,lsmIterator_,(byte**)hack); curr_pageid = *pid_tmp; curr_page = new DataPage(-1, curr_pageid); dp_itr = new DPITR_T(curr_page->begin()); readTuple = dp_itr->getnext(-1); assert(readTuple); } else { // TODO: what is this? //past end of iterator! "end" should contain the pageid of the // last leaf, and 1+ numslots on that page. //abort(); } } return curr_tuple=readTuple; } /* template treeIterator::treeIterator(treeIteratorHandle* tree, TUPLE& key) : tree_(tree?tree->r_:NULLRID), scratch_(), lsmIterator_(logtreeIterator::openAt(-1,tree?tree->r_:NULLRID,key.get_key())),//toByteArray())), slot_(0) { init_helper(); if(lsmIterator_) { treeIterator * end = this->end(); for(;*this != *end && **this < key; ++(*this)) { } delete end; } else { this->slot_ = 0; this->pageid_ = 0; } } template treeIterator::treeIterator(recordid tree, TUPLE &scratch) : tree_(tree), scratch_(scratch), lsmIterator_(logtreeIterator::open(-1,tree)), slot_(0) { init_helper(); } template treeIterator::treeIterator(treeIteratorHandle* tree) : tree_(tree?tree->r_:NULLRID), scratch_(), lsmIterator_(logtreeIterator::open(-1,tree?tree->r_:NULLRID)), slot_(0) { init_helper(); } template treeIterator::treeIterator(treeIterator& t) : tree_(t.tree_), scratch_(t.scratch_), lsmIterator_(t.lsmIterator_?logtreeIterator::copy(-1,t.lsmIterator_):0), slot_(t.slot_), pageid_(t.pageid_), p_((Page*)((t.p_)?loadPage(-1,t.p_->id):0)) //currentPage_((PAGELAYOUT*)((p_)?p_->impl:0)) { if(p_) readlock(p_->rwlatch,0); } */