Exemple #1
0
  @Test
  public void test_setNA() {
    // Create a vec with one chunk with 15 elements, and set its numbers
    Vec vec = new Vec(Vec.newKey(), new long[] {0, 15}).makeZeros(1, null, null, null, null)[0];
    int[] vals = new int[] {0, 3, 0, 6, 0, 0, 0, -32769, 0, 12, 234, 32765, 0, 0, 19};
    Vec.Writer w = vec.open();
    for (int i = 0; i < vals.length; ++i) w.set(i, vals[i]);
    w.close();

    Chunk cc = vec.chunkForChunkIdx(0);
    assert cc instanceof C2SChunk;
    Futures fs = new Futures();
    fs.blockForPending();

    for (int i = 0; i < vals.length; ++i) Assert.assertEquals(vals[i], cc.at80(i));
    for (int i = 0; i < vals.length; ++i) Assert.assertEquals(vals[i], cc.at8(i));

    int[] NAs = new int[] {1, 5, 2};
    int[] notNAs = new int[] {0, 3, 4, 6, 7, 8, 9, 10, 11, 12, 13, 14};
    for (int na : NAs) cc.setNA(na);

    for (int na : NAs) Assert.assertTrue(cc.isNA0(na));
    for (int na : NAs) Assert.assertTrue(cc.isNA(na));
    for (int notna : notNAs) Assert.assertTrue(!cc.isNA0(notna));
    for (int notna : notNAs) Assert.assertTrue(!cc.isNA(notna));

    NewChunk nc = new NewChunk(null, 0);
    cc.inflate_impl(nc);
    nc.values(0, nc.len());
    Assert.assertEquals(vals.length, nc.sparseLen());
    Assert.assertEquals(vals.length, nc.len());

    Iterator<NewChunk.Value> it = nc.values(0, vals.length);
    for (int i = 0; i < vals.length; ++i) Assert.assertTrue(it.next().rowId0() == i);
    Assert.assertTrue(!it.hasNext());

    for (int na : NAs) Assert.assertTrue(cc.isNA0(na));
    for (int na : NAs) Assert.assertTrue(cc.isNA(na));
    for (int notna : notNAs) Assert.assertTrue(!cc.isNA0(notna));
    for (int notna : notNAs) Assert.assertTrue(!cc.isNA(notna));

    Chunk cc2 = nc.compress();
    Assert.assertEquals(vals.length, cc.len());
    Assert.assertTrue(cc2 instanceof C2SChunk);
    for (int na : NAs) Assert.assertTrue(cc.isNA0(na));
    for (int na : NAs) Assert.assertTrue(cc.isNA(na));
    for (int notna : notNAs) Assert.assertTrue(!cc.isNA0(notna));
    for (int notna : notNAs) Assert.assertTrue(!cc.isNA(notna));

    Assert.assertTrue(Arrays.equals(cc._mem, cc2._mem));
    vec.remove();
  }
Exemple #2
0
  @Test
  public void test_inflate_impl() {
    for (int l = 0; l < 2; ++l) {
      NewChunk nc = new NewChunk(null, 0);

      // -32.767, 0.34, 0, 32.767, NA for l==0
      // NA, -32.767, 0.34, 0, 32.767, NA for l==1
      long[] man = new long[] {-32767, 34, 0, 32767};
      int[] exp = new int[] {-3, -2, 1, -3};
      if (l == 1) nc.addNA(); // -32768
      for (int i = 0; i < man.length; ++i) nc.addNum(man[i], exp[i]);
      nc.addNA();

      Chunk cc = nc.compress();
      Assert.assertEquals(man.length + 1 + l, cc.len());
      Assert.assertTrue(cc instanceof C2SChunk);
      if (l == 1) {
        Assert.assertTrue(cc.isNA0(0));
        Assert.assertTrue(cc.isNA(0));
      }
      for (int i = 0; i < man.length; ++i) {
        Assert.assertEquals((float) (man[i] * Math.pow(10, exp[i])), (float) cc.at0(l + i), 0);
        Assert.assertEquals((float) (man[i] * Math.pow(10, exp[i])), (float) cc.at(l + i), 0);
      }
      Assert.assertTrue(cc.isNA0(man.length + l));
      Assert.assertTrue(cc.isNA(man.length + l));

      nc = cc.inflate_impl(new NewChunk(null, 0));
      nc.values(0, nc.len());
      Assert.assertEquals(man.length + 1 + l, nc.len());
      Assert.assertEquals(man.length + 1 + l, nc.sparseLen());
      if (l == 1) {
        Assert.assertTrue(nc.isNA0(0));
        Assert.assertTrue(nc.isNA(0));
      }
      for (int i = 0; i < man.length; ++i) {
        Assert.assertEquals((float) (man[i] * Math.pow(10, exp[i])), (float) nc.at0(l + i), 0);
        Assert.assertEquals((float) (man[i] * Math.pow(10, exp[i])), (float) nc.at(l + i), 0);
      }
      Assert.assertTrue(nc.isNA0(man.length + l));
      Assert.assertTrue(nc.isNA(man.length + l));

      Chunk cc2 = nc.compress();
      Assert.assertEquals(man.length + 1 + l, cc.len());
      if (l == 1) {
        Assert.assertTrue(cc2.isNA0(0));
        Assert.assertTrue(cc2.isNA(0));
      }
      for (int i = 0; i < man.length; ++i) {
        Assert.assertEquals((float) (man[i] * Math.pow(10, exp[i])), (float) cc2.at0(l + i), 0);
        Assert.assertEquals((float) (man[i] * Math.pow(10, exp[i])), (float) cc2.at(l + i), 0);
      }
      Assert.assertTrue(cc2.isNA0(man.length + l));
      Assert.assertTrue(cc2.isNA(man.length + l));
      Assert.assertTrue(cc2 instanceof C2SChunk);

      Assert.assertTrue(Arrays.equals(cc._mem, cc2._mem));
    }
  }
Exemple #3
0
  @Test
  public void test_inflate_impl() {
    final int K = 1 << 16;
    for (Double d :
        new Double[] {
          3.14159265358,
          Double.POSITIVE_INFINITY,
          Double.NEGATIVE_INFINITY,
          Double.MAX_VALUE,
          Double.NaN
        }) {
      NewChunk nc = new NewChunk(null, 0);
      for (int i = 0; i < K; ++i) nc.addNum(d);
      Assert.assertEquals(K, nc.len());
      Assert.assertEquals(K, nc.sparseLen());

      Chunk cc = nc.compress();
      Assert.assertEquals(K, cc.len());
      Assert.assertTrue(cc instanceof C0DChunk);
      for (int i = 0; i < K; ++i) Assert.assertEquals(d, cc.at0(i), Math.ulp(d));
      for (int i = 0; i < K; ++i) Assert.assertEquals(d, cc.at(i), Math.ulp(d));

      nc = cc.inflate_impl(new NewChunk(null, 0));
      nc.values(0, nc.len());
      Assert.assertEquals(K, nc.len());
      Assert.assertEquals(K, nc.sparseLen());
      for (int i = 0; i < K; ++i) Assert.assertEquals(d, nc.at0(i), Math.ulp(d));
      for (int i = 0; i < K; ++i) Assert.assertEquals(d, nc.at(i), Math.ulp(d));

      Chunk cc2 = nc.compress();
      Assert.assertEquals(K, cc2.len());
      Assert.assertTrue(cc2 instanceof C0DChunk);
      for (int i = 0; i < K; ++i) Assert.assertEquals(d, cc2.at0(i), Math.ulp(d));
      for (int i = 0; i < K; ++i) Assert.assertEquals(d, cc2.at(i), Math.ulp(d));

      Assert.assertTrue(Arrays.equals(cc._mem, cc2._mem));
    }
  }
Exemple #4
0
 private void rebalanceChunk(Vec srcVec, Chunk chk) {
   NewChunk dst = new NewChunk(chk);
   dst._len = dst._len2 = 0;
   int rem = chk._len;
   while (rem > 0 && dst._len2 < chk._len) {
     Chunk srcRaw = srcVec.chunkForRow(chk._start + dst._len2);
     NewChunk src = new NewChunk((srcRaw));
     src = srcRaw.inflate_impl(src);
     assert src._len2 == srcRaw._len;
     int srcFrom = (int) (chk._start + dst._len2 - src._start);
     // check if the result is sparse (not exact since we only take subset of src in general)
     if ((src.sparse() && dst.sparse())
         || (src._len + dst._len < NewChunk.MIN_SPARSE_RATIO * (src._len2 + dst._len2))) {
       src.set_sparse(src._len);
       dst.set_sparse(dst._len);
     }
     final int srcTo = srcFrom + rem;
     int off = srcFrom - 1;
     Iterator<NewChunk.Value> it = src.values(Math.max(0, srcFrom), srcTo);
     while (it.hasNext()) {
       NewChunk.Value v = it.next();
       final int rid = v.rowId0();
       assert rid < srcTo;
       int add = rid - off;
       off = rid;
       dst.addZeros(add - 1);
       v.add2Chunk(dst);
       rem -= add;
       assert rem >= 0;
     }
     int trailingZeros = Math.min(rem, src._len2 - off - 1);
     dst.addZeros(trailingZeros);
     rem -= trailingZeros;
   }
   assert rem == 0 : "rem = " + rem;
   assert dst._len2 == chk._len : "len2 = " + dst._len2 + ", _len = " + chk._len;
   dst.close(dst.cidx(), _fs);
 }