@Override public boolean lock(final boolean lock) { try { if (lock) { if (exclusiveLock()) return true; if (sharedLock()) return false; } else { if (sharedLock()) return true; } } catch (final IOException ex) { Util.stack(ex); } throw Util.notExpected((lock ? "Exclusive" : "Shared") + " lock could not be acquired."); }
/** * Searches for the block containing the entry for the specified pre value. Reads the block and * returns its offset inside the block. * * @param pre pre of the entry to search for * @return offset of the entry in the block */ private int cursor(final int pre) { int fp = fpre; int np = npre; if (pre < fp || pre >= np) { final int last = used - 1; int l = 0; int h = last; int m = page; while (l <= h) { if (pre < fp) h = m - 1; else if (pre >= np) l = m + 1; else break; m = h + l >>> 1; fp = fpre(m); np = m == last ? meta.size : fpre(m + 1); } if (l > h) throw Util.notExpected( "Data Access out of bounds:" + "\n- pre value: " + pre + "\n- #used blocks: " + used + "\n- #total locks: " + blocks + "\n- access: " + m + " (" + l + " > " + h + ']'); readPage(m); } return pre - fpre << IO.NODEPOWER; }
@Override public void insert(final int pre, final byte[] entries) { final int nnew = entries.length; if (nnew == 0) return; dirty(); // number of records to be inserted final int nr = nnew >>> IO.NODEPOWER; int split = 0; if (used == 0) { // special case: insert new data into first block if database is empty readPage(0); usedPages.set(0); ++used; } else if (pre > 0) { // find the offset within the block where the new records will be inserted split = cursor(pre - 1) + IO.NODESIZE; } else { // all insert operations will add data after first node. // i.e., there is no "insert before first document" statement throw Util.notExpected("Insertion at beginning of populated table."); } // number of bytes occupied by old records in the current block final int nold = npre - fpre << IO.NODEPOWER; // number of bytes occupied by old records which will be moved at the end final int moved = nold - split; // special case: all entries fit in the current block Buffer bf = bm.current(); if (nold + nnew <= IO.BLOCKSIZE) { Array.move(bf.data, split, nnew, moved); System.arraycopy(entries, 0, bf.data, split, nnew); bf.dirty = true; // increment first pre-values of blocks after the last modified block for (int i = page + 1; i < used; ++i) fpres[i] += nr; // update cached variables (fpre is not changed) npre += nr; meta.size += nr; return; } // append old entries at the end of the new entries final byte[] all = new byte[nnew + moved]; System.arraycopy(entries, 0, all, 0, nnew); System.arraycopy(bf.data, split, all, nnew, moved); // fill in the current block with new entries // number of bytes which fit in the first block int nrem = IO.BLOCKSIZE - split; if (nrem > 0) { System.arraycopy(all, 0, bf.data, split, nrem); bf.dirty = true; } // number of new required blocks and remaining bytes final int req = all.length - nrem; int needed = req / IO.BLOCKSIZE; final int remain = req % IO.BLOCKSIZE; if (remain > 0) { // check if the last entries can fit in the block after the current one if (page + 1 < used) { final int o = occSpace(page + 1) << IO.NODEPOWER; if (remain <= IO.BLOCKSIZE - o) { // copy the last records readPage(page + 1); bf = bm.current(); System.arraycopy(bf.data, 0, bf.data, remain, o); System.arraycopy(all, all.length - remain, bf.data, 0, remain); bf.dirty = true; // reduce the pre value, since it will be later incremented with nr fpres[page] -= remain >>> IO.NODEPOWER; // go back to the previous block readPage(page - 1); } else { // there is not enough space in the block - allocate a new one ++needed; } } else { // this is the last block - allocate a new one ++needed; } } // number of expected blocks: existing blocks + needed block - empty blocks final int exp = blocks + needed - (blocks - used); if (exp > fpres.length) { // resize directory arrays if existing ones are too small final int ns = Math.max(fpres.length << 1, exp); fpres = Arrays.copyOf(fpres, ns); pages = Arrays.copyOf(pages, ns); } // make place for the blocks where the new entries will be written Array.move(fpres, page + 1, needed, used - page - 1); Array.move(pages, page + 1, needed, used - page - 1); // write the all remaining entries while (needed-- > 0) { freeBlock(); nrem += write(all, nrem); fpres[page] = fpres[page - 1] + IO.ENTRIES; pages[page] = (int) bm.current().pos; } // increment all fpre values after the last modified block for (int i = page + 1; i < used; ++i) fpres[i] += nr; meta.size += nr; // update cached variables fpre = fpres[page]; npre = page + 1 < used && fpres[page + 1] < meta.size ? fpres[page + 1] : meta.size; }