0fb644640a
git-svn-id: svn+ssh://svn.corp.yahoo.com/yahoo/yrl/labs/pnuts/code/logstore@842 8dad8b1f-cf64-0410-95b6-bcf113ffbcfe
489 lines
15 KiB
C++
489 lines
15 KiB
C++
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#include <math.h>
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#include "merger.h"
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#include <stasis/transactional.h>
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#undef try
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#undef end
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int merge_scheduler::addlogtable(logtable<datatuple> *ltable)
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{
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struct logtable_mergedata * mdata = new logtable_mergedata;
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// initialize merge data
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ltable->set_tree_c0_mergeable(NULL);
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mdata->diskmerge_args = new merger_args;
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mdata->memmerge_args = new merger_args;
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mergedata.push_back(std::make_pair(ltable, mdata));
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return mergedata.size()-1;
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}
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merge_scheduler::~merge_scheduler()
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{
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for(size_t i=0; i<mergedata.size(); i++)
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{
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logtable<datatuple> *ltable = mergedata[i].first;
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logtable_mergedata *mdata = mergedata[i].second;
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delete mdata->diskmerge_args;
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delete mdata->memmerge_args;
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}
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mergedata.clear();
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}
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void merge_scheduler::shutdown()
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{
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//signal shutdown
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for(size_t i=0; i<mergedata.size(); i++)
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{
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logtable<datatuple> *ltable = mergedata[i].first;
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ltable->stop();
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}
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for(size_t i=0; i<mergedata.size(); i++)
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{
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logtable_mergedata *mdata = mergedata[i].second;
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pthread_join(mdata->memmerge_thread,0);
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pthread_join(mdata->diskmerge_thread,0);
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}
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}
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void merge_scheduler::startlogtable(int index, int64_t MAX_C0_SIZE)
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{
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logtable<datatuple> * ltable = mergedata[index].first;
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struct logtable_mergedata *mdata = mergedata[index].second;
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//initialize rb-tree
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ltable->set_tree_c0(new memTreeComponent<datatuple>::rbtree_t);
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//disk merger args
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ltable->set_max_c0_size(MAX_C0_SIZE);
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diskTreeComponent ** block1_scratch = new diskTreeComponent*;
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*block1_scratch=0;
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DEBUG("Tree C1 is %lld\n", (long long)ltable->get_tree_c1()->get_root_rec().page);
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DEBUG("Tree C2 is %lld\n", (long long)ltable->get_tree_c2()->get_root_rec().page);
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struct merger_args diskmerge_args= {
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ltable,
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0, //max_tree_size No max size for biggest component
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};
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*mdata->diskmerge_args = diskmerge_args;
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struct merger_args memmerge_args =
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{
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ltable,
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(int64_t)(MAX_C0_SIZE), // XXX why did this multiply by R^2 before??
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};
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*mdata->memmerge_args = memmerge_args;
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void * (*diskmerger)(void*) = diskMergeThread;
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void * (*memmerger)(void*) = memMergeThread;
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pthread_create(&mdata->diskmerge_thread, 0, diskmerger, mdata->diskmerge_args);
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pthread_create(&mdata->memmerge_thread, 0, memmerger, mdata->memmerge_args);
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}
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template <class ITA, class ITB>
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void merge_iterators(int xid, diskTreeComponent * forceMe,
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ITA *itrA,
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ITB *itrB,
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logtable<datatuple> *ltable,
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diskTreeComponent *scratch_tree,
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mergeStats * stats,
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bool dropDeletes);
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/**
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* Merge algorithm: Outsider's view
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*<pre>
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1: while(1)
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2: wait for c0_mergable
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3: begin
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4: merge c0_mergable and c1 into c1' # Blocks; tree must be consistent at this point
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5: force c1' # Blocks
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6: if c1' is too big # Blocks; tree must be consistent at this point.
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7: c1_mergable = c1'
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8: c1 = new_empty
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8.5: delete old c1_mergeable # Happens in other thread (not here)
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9: else
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10: c1 = c1'
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11: c0_mergeable = NULL
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11.5: delete old c0_mergeable
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12: delete old c1
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13: commit
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</pre>
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Merge algorithm: actual order: 1 2 3 4 5 6 12 11.5 11 [7 8 (9) 10] 13
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*/
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void* memMergeThread(void*arg)
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{
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int xid;
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merger_args * a = (merger_args*)(arg);
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logtable<datatuple> * ltable = a->ltable;
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assert(ltable->get_tree_c1());
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int merge_count =0;
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mergeStats * stats = a->ltable->merge_mgr->get_merge_stats(1);
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while(true) // 1
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{
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rwlc_writelock(ltable->header_mut);
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ltable->merge_mgr->new_merge(1);
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int done = 0;
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// 2: wait for c0_mergable
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while(!ltable->get_tree_c0_mergeable())
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{
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pthread_cond_signal(<able->c0_needed);
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if(!ltable->is_still_running()){
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done = 1;
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break;
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}
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DEBUG("mmt:\twaiting for block ready cond\n");
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rwlc_cond_wait(<able->c0_ready, ltable->header_mut);
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DEBUG("mmt:\tblock ready\n");
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}
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if(done==1)
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{
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pthread_cond_signal(<able->c1_ready); // no block is ready. this allows the other thread to wake up, and see that we're shutting down.
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rwlc_unlock(ltable->header_mut);
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break;
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}
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stats->starting_merge();
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// 3: Begin transaction
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xid = Tbegin();
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// 4: Merge
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//create the iterators
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diskTreeComponent::iterator *itrA = ltable->get_tree_c1()->open_iterator();
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memTreeComponent<datatuple>::iterator *itrB =
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new memTreeComponent<datatuple>::iterator(ltable->get_tree_c0_mergeable());
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//create a new tree
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diskTreeComponent * c1_prime = new diskTreeComponent(xid, ltable->internal_region_size, ltable->datapage_region_size, ltable->datapage_size, stats);
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rwlc_unlock(ltable->header_mut);
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//: do the merge
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DEBUG("mmt:\tMerging:\n");
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merge_iterators<typeof(*itrA),typeof(*itrB)>(xid, c1_prime, itrA, itrB, ltable, c1_prime, stats, false);
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delete itrA;
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delete itrB;
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// 5: force c1'
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rwlc_writelock(ltable->header_mut);
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//force write the new tree to disk
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c1_prime->force(xid);
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merge_count++;
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DEBUG("mmt:\tmerge_count %lld #bytes written %lld\n", stats.merge_count, stats.output_size());
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// Immediately clean out c0 mergeable so that writers may continue.
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// first, we need to move the c1' into c1.
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// 12: delete old c1
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ltable->get_tree_c1()->dealloc(xid);
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delete ltable->get_tree_c1();
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// 10: c1 = c1'
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ltable->set_tree_c1(c1_prime);
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// 11.5: delete old c0_mergeable
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memTreeComponent<datatuple>::tearDownTree(ltable->get_tree_c0_mergeable());
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// 11: c0_mergeable = NULL
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ltable->set_tree_c0_mergeable(NULL);
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double new_c1_size = stats->output_size();
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pthread_cond_signal(<able->c0_needed);
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ltable->update_persistent_header(xid);
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Tcommit(xid);
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ltable->merge_mgr->finished_merge(1);
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//TODO: this is simplistic for now
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//6: if c1' is too big, signal the other merger
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double target_R = *ltable->R();
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assert(target_R >= MIN_R);
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bool signal_c2 = (new_c1_size / ltable->max_c0_size > target_R);
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DEBUG("\nc1 size %f R %f\n", new_c1_size, target_R);
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if( signal_c2 )
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{
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DEBUG("mmt:\tsignaling C2 for merge\n");
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DEBUG("mmt:\tnew_c1_size %.2f\tMAX_C0_SIZE %lld\ta->max_size %lld\t targetr %.2f \n", new_c1_size,
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ltable->max_c0_size, a->max_size, target_R);
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// XXX need to report backpressure here!
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while(ltable->get_tree_c1_mergeable()) {
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rwlc_cond_wait(<able->c1_needed, ltable->header_mut);
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}
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xid = Tbegin();
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// we just set c1 = c1'. Want to move c1 -> c1 mergeable, clean out c1.
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// 7: and perhaps c1_mergeable
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ltable->set_tree_c1_mergeable(c1_prime); // c1_prime == c1.
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stats->handed_off_tree();
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// 8: c1 = new empty.
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ltable->set_tree_c1(new diskTreeComponent(xid, ltable->internal_region_size, ltable->datapage_region_size, ltable->datapage_size, stats));
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pthread_cond_signal(<able->c1_ready);
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ltable->update_persistent_header(xid);
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Tcommit(xid);
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}
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// DEBUG("mmt:\tUpdated C1's position on disk to %lld\n",ltable->get_tree_c1()->get_root_rec().page);
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// 13
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rwlc_unlock(ltable->header_mut);
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// stats->pretty_print(stdout);
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//TODO: get the freeing outside of the lock
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}
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return 0;
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}
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void *diskMergeThread(void*arg)
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{
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int xid;
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merger_args * a = (merger_args*)(arg);
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logtable<datatuple> * ltable = a->ltable;
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assert(ltable->get_tree_c2());
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int merge_count =0;
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mergeStats * stats = a->ltable->merge_mgr->get_merge_stats(2);
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while(true)
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{
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// 2: wait for input
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rwlc_writelock(ltable->header_mut);
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ltable->merge_mgr->new_merge(2);
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int done = 0;
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// get a new input for merge
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while(!ltable->get_tree_c1_mergeable())
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{
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pthread_cond_signal(<able->c1_needed);
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if(!ltable->is_still_running()){
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done = 1;
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break;
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}
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DEBUG("dmt:\twaiting for block ready cond\n");
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rwlc_cond_wait(<able->c1_ready, ltable->header_mut);
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DEBUG("dmt:\tblock ready\n");
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}
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if(done==1)
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{
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rwlc_unlock(ltable->header_mut);
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break;
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}
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stats->starting_merge();
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// 3: begin
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xid = Tbegin();
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// 4: do the merge.
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//create the iterators
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diskTreeComponent::iterator *itrA = ltable->get_tree_c2()->open_iterator();
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diskTreeComponent::iterator *itrB = ltable->get_tree_c1_mergeable()->open_iterator();
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//create a new tree
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diskTreeComponent * c2_prime = new diskTreeComponent(xid, ltable->internal_region_size, ltable->datapage_region_size, ltable->datapage_size, stats);
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rwlc_unlock(ltable->header_mut);
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//do the merge
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DEBUG("dmt:\tMerging:\n");
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merge_iterators<typeof(*itrA),typeof(*itrB)>(xid, c2_prime, itrA, itrB, ltable, c2_prime, stats, true);
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delete itrA;
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delete itrB;
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//5: force write the new region to disk
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c2_prime->force(xid);
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// (skip 6, 7, 8, 8.5, 9))
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rwlc_writelock(ltable->header_mut);
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//12
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ltable->get_tree_c2()->dealloc(xid);
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delete ltable->get_tree_c2();
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//11.5
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ltable->get_tree_c1_mergeable()->dealloc(xid);
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//11
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delete ltable->get_tree_c1_mergeable();
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ltable->set_tree_c1_mergeable(0);
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//writes complete
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//now atomically replace the old c2 with new c2
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//pthread_mutex_lock(a->block_ready_mut);
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merge_count++;
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//update the current optimal R value
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*(ltable->R()) = std::max(MIN_R, sqrt( ((double)stats->output_size()) / (ltable->max_c0_size) ) );
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DEBUG("\nR = %f\n", *(ltable->R()));
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DEBUG("dmt:\tmerge_count %lld\t#written bytes: %lld\n optimal r %.2f", stats.merge_count, stats.output_size(), *(a->r_i));
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// 10: C2 is never to big
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ltable->set_tree_c2(c2_prime);
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stats->handed_off_tree();
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DEBUG("dmt:\tUpdated C2's position on disk to %lld\n",(long long)-1);
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// 13
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ltable->update_persistent_header(xid);
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Tcommit(xid);
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ltable->merge_mgr->finished_merge(2);
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rwlc_unlock(ltable->header_mut);
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// stats->pretty_print(stdout);
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}
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return 0;
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}
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#define FORCE_INTERVAL (2 * 1024 * 1024) // XXX do not hardcode FORCE_INTERVAL
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static void periodically_force(int xid, int *i, diskTreeComponent * forceMe, stasis_log_t * log) {
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if(0 && *i > FORCE_INTERVAL) {
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if(forceMe) forceMe->force(xid);
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log->force_tail(log, LOG_FORCE_WAL);
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*i = 0;
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}
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}
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template <class ITA, class ITB>
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void merge_iterators(int xid,
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diskTreeComponent * forceMe,
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ITA *itrA, //iterator on c1 or c2
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ITB *itrB, //iterator on c0 or c1, respectively
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logtable<datatuple> *ltable,
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diskTreeComponent *scratch_tree, mergeStats * stats,
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bool dropDeletes // should be true iff this is biggest component
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)
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{
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stasis_log_t * log = (stasis_log_t*)stasis_log();
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datatuple *t1 = itrA->next_callerFrees();
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ltable->merge_mgr->read_tuple_from_large_component(stats->merge_level, t1);
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datatuple *t2 = 0;
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int i = 0;
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while( (t2=itrB->next_callerFrees()) != 0)
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{
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ltable->merge_mgr->read_tuple_from_small_component(stats->merge_level, t2);
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DEBUG("tuple\t%lld: keylen %d datalen %d\n",
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ntuples, *(t2->keylen),*(t2->datalen) );
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while(t1 != 0 && datatuple::compare(t1->key(), t1->keylen(), t2->key(), t2->keylen()) < 0) // t1 is less than t2
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{
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//insert t1
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scratch_tree->insertTuple(xid, t1);
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i+=t1->byte_length();
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ltable->merge_mgr->wrote_tuple(stats->merge_level, t1);
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datatuple::freetuple(t1);
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//advance itrA
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t1 = itrA->next_callerFrees();
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if(t1) {
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ltable->merge_mgr->read_tuple_from_large_component(stats->merge_level, t1);
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}
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periodically_force(xid, &i, forceMe, log);
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}
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if(t1 != 0 && datatuple::compare(t1->key(), t1->keylen(), t2->key(), t2->keylen()) == 0)
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{
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datatuple *mtuple = ltable->gettuplemerger()->merge(t1,t2);
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stats->merged_tuples(mtuple, t2, t1); // this looks backwards, but is right.
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//insert merged tuple, drop deletes
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if(dropDeletes && !mtuple->isDelete()) {
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scratch_tree->insertTuple(xid, mtuple);
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i+=mtuple->byte_length();
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}
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datatuple::freetuple(t1);
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ltable->merge_mgr->wrote_tuple(stats->merge_level, mtuple);
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t1 = itrA->next_callerFrees(); //advance itrA
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if(t1) {
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ltable->merge_mgr->read_tuple_from_large_component(stats->merge_level, t1);
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}
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datatuple::freetuple(mtuple);
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periodically_force(xid, &i, forceMe, log);
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}
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else
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{
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//insert t2
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scratch_tree->insertTuple(xid, t2);
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i+=t2->byte_length();
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ltable->merge_mgr->wrote_tuple(stats->merge_level, t2);
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periodically_force(xid, &i, forceMe, log);
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// cannot free any tuples here; they may still be read through a lookup
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}
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datatuple::freetuple(t2);
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}
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while(t1 != 0) {// t1 is less than t2
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scratch_tree->insertTuple(xid, t1);
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ltable->merge_mgr->wrote_tuple(stats->merge_level, t1);
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i += t1->byte_length();
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datatuple::freetuple(t1);
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//advance itrA
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t1 = itrA->next_callerFrees();
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ltable->merge_mgr->read_tuple_from_large_component(stats->merge_level, t1);
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periodically_force(xid, &i, forceMe, log);
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}
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DEBUG("dpages: %d\tnpages: %d\tntuples: %d\n", dpages, npages, ntuples);
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scratch_tree->writes_done();
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}
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